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About the Event
About the Award
International Research Awards on Composite Materials and Research organizations around the world in the motive of Encouraging and Honoring them for their Significant contributions & Achievements for the Advancement in their field of expertise. Researchers and scholars of all nationalities are eligible to receive ScienceFather Ā Young Scientist awards. Nominees are judged on past accomplishments, research excellence, and outstanding academic achievements.
What does the award include
The profile of the award winners of each category be listed on our website and it will be maintained forever.
The certificate, medal, and Memento, and photographs will be a testimony. Further, this recognition and additional proof of hard work and achievements must be globally accessible for Researchers and hence will be available online 24/7.
Itās an indicator of success Enhances the reputation improves the benchmark āitās a matter of pride ā Motivation ā Raises the visibility of the success.
Researcher Awards
Researcher Awards
Young Scientist Award: This Awarded to researchers who are in the early stage of their career for outstanding research in their field. This award is bestowed in the motive of identifying and Recognizing the young Researchers around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Collaborations and Publications. Eligibility: A working professional can nominate for the Award. Research grants for medical students also awarded as scientist awards. He must be below 35 years of age as of the conference date.
Best Researcher Award: This Awarded to the Best researcher in any field for their significant contribution to the advancement in their field of expertise. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Collaborations, Contracts, and Publications. Eligibility: A working professional can nominate for the Award. There is no age limit for Best Researcher Award category.
Outstanding Scientist Award: Exceptional research record of significant contribution to the institute/company. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Grants, Patents, Collaborations, Contracts, books, and Publications. Eligibility: A working professional can nominate for the Award. He must be above 35 years of age as of the conference date.
Lifetime Achievement Award: This awards an Exceptional research record of significant contribution to the institute/company. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Grants, Patents, Collaborations, Contracts, books, and Publications. Eligibility: A working professional can nominate for the Award. He must be above 35 years of age as of the conference date.
Women Researcher Award: Awarded to the Best women researcher in any field for their significant contribution to the advancement in their field of expertise. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Collaborations, Contracts, and Publications. Eligibility: A working professional can nominate for the Award.
Best Innovation Award: This Awarded to researchers/institutes/Organizations who are in the early stage of their careers for outstanding innovation in their field. This award is bestowed with the motive of identifying and Recognizing the Researchers/institutes/organizations around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Collaborations and Publications. Eligibility: A working professional/ Institute/ Organization can nominate for the Award.
Best Faculty Award: This Awarded to the Best Faculty in any field for their significant contribution to the advancement in their field of expertise. The qualification of the nominee must be recognized and documented by corresponding successes in research/ Academic contributions, such as Collaborations, Contracts, and Publications. Eligibility: A working professional can nominate for the Award. He must be under 45 years of age as of the conference date.
Best Scholar Award: This Awarded to Scholar/ Student who are in the early stage of their career for outstanding research in their field. This award is bestowed in the motive of identifying and Recognizing the young Researchers scholar/ Student around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in research contributions, such as Publications. Eligibility: A scholar can nominate for the Award. He must be under 35 years of age as of the conference date.
Institute/ Organization Awards
Institute/ Organization Awards:
Excellence in Innovation: This Awarded to Institute/ Organization/ Business/ Industries who are in the early stage of their career for outstanding innovation in their field. This award is bestowed in the motive of identifying and Recognizing the Institute/ Organization/ Business/ Industries around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in innovation contribution, such as Innovation, Patent, Entrepreneurship, and New project development. Eligibility: A Institute /Organization/ Industries can nominate for the Award.
Excellence in Research: This Awarded to Institute/ Organization/ Business/ Industries who are in the early stage of their career for outstanding research in their field. This award is bestowed in the motive of identifying and Recognizing the Institute/ Organization/ Business/ Industries around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in research contribution, such as publication, research Grants, Research & developments, Entrepreneurship development. Eligibility: A Institute /Organization/ Industries can nominate for the Award.
Excellence Award (Any Scientific field): This Awarded to Institute/ Organization/ Business/ Industries who are in the early stage of their career for outstanding excellence in their field. This award is bestowed in the motive of identifying and Recognizing the Institute/ Organization/ Business/ Industries around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in their field contribution, such as Advancement, New Technology, and Development. Eligibility: A Institute /Organization/ Industries can nominate for the Award.
Best Research /Innovation Extension activity: This Awarded to Institute/ Organization/ Business/ Industries who are in the early stage of their career for outstanding Research/ innovation in their field. This award is bestowed in the motive of identifying and Recognizing the Institute/ Organization/ Business/ Industries around the world who have the potential to become leaders n their field. The qualification of the nominee must be recognized and documented by corresponding successes in their field contribution, such as Extension, Public useful innovation /Research Activities, Innovative services, Awareness programs, and New Technology awareness Development. Eligibility: A Institute /Organization/ Industries can nominate for the Award.
Dates and location
Dates and location
International Conferences on Composite Materials,
26th Edition, 27-28 December 2024 | Dubai, United Arab Emirates
27th Edition, 27 - 28 January 2025 | Ā Amsterdam, Netherlands
28th Edition, 26 - 27 February 2025 | London, United Kingdom
29th Edition, 28 - 29 March 2025 | San Francisco, United States
30th Edition, 25 - 26 April 2025 | Berlin, Germany
31st Edition, 30 -31 May 2025 | Paris, France
32nd Edition, 25 - 26 June 2025 | Dubai, United Arab Emirates
33rd Edition, 29 -30 July 2025 | New Delhi, India
34th Edition, 28 - 29 August 2025 | Berlin, Germany
35th Edition, 26 - 27 September 2025 | Mumbai, India
36th Edition, 27-28 October 2025 | Paris, France
37th Edition, 28 -29 November 2025 | Agra, India
38th Edition, 29 -30 December 2025 | Dubai, United Arab Emirates
How to Apply
How to Apply
The Candidates with eligibility can click the "Nominate /Submit Your Profile (CV) Now" button and fill up the online submission form and Submit it.
This section describes the total Research Awards processes in step by steps:
- Received Nomination documents will be sent for the screening process
- Acknowledgment intimation via email will be communicated to the Nominee
- The team may ask the proof for the credits mentioned in the Resume.
- Cross verifying the documents submitted & forwarding it to the Committee.
- The selected candidate indicated through email. Also, the selected nominees will be checked anytime on the website track of my submission.
- Event and Celebration Registration
- Release of the winners list in the official web page
- Award presentation ceremony
- Release of the Award winners and his profile Report.
Registration
Registration Details
Registration Covers
- An exclusive web page for a highly rated profile of the award winners will always be available online.
- Participation in Award event Session and Keynote session.
- Certificate, Memento, and Photographs.
- Event Kit,Ā Tea, Coffee & Snacks.
- Veg & Non-Veg Lunch during the Event.
- Event and Celebration Registration
- Release of the winners list in the official web page
- Award presentation ceremony
- Release of the Award winners and his profile Report.
Registration Procedure
Click the āRegister Nowā button at the conference page and enter your Submission ID in the Search Box
Your Submissions will be listed on that page. You can find the Register Now link beside your submission. Click the link and now you will be redirected to the Conferences registration form where you can make your registration using credit/debit cards
Committee Members
Committee Members
Title | First Name | Last Name | Institution/Organization | Country |
---|---|---|---|---|
Dr | BASKAR | S | VELS INSTITUTE OF SCIENCE TECHNOLOGY AND ADVANCED STUDIES | India |
Prof | Harish | Kumar | Central University of Haryana | India |
Mr | varanasi | Lakshmi Narayana | vellore institute of technology Chennai | India |
Dr | Balagopal | Venugopal | Providence College of Engineering | India |
Prof Dr | SHANMUGANANTHAM | T | Department of Electronics Engineering, Pondicherry University | India |
Dr | Temitope | Abodunrin | Covenant University | Nigeria |
Dr | Tahir Gani | Khuroo | PGx Global Foundation | United States |
Dr | Ruban | Murugesan | VISTAS | India |
Assoc Prof Dr | Siraj | Mammo | Ambo university | Ethiopia |
Dr | AMIT | SETH | Manav Rachna International Institute of Research & Studies, Faridabad | India |
Dr | Pankaj | CSIR CSIO Chandigarh, India | India | |
Dr | Rajesh K | Das | University of North Bengal | India |
Dr | Laxman | Abhang | pravara Rural Engineering College, Loni | India |
Assoc Prof Dr | Sayed | Ramadan | Ain Shams University - Faculty of Science | Egypt |
Prof | Linfei | Li | University of Maine | United States |
Dr | Balaganesan G | IIT Madras | India | |
Dr | Jagadish | Tawade | Vishwakarma University | India |
Dr | Assumpta Chinwe | Nwanya | University of Nigeria, Nsukka | Nigeria |
Dr | Nishant | Singh | NIT raipur | India |
Dr | Dengguo | Li | Zhejiang University of Technology | China |
Prof | Laxman | Abhang | Pravara Rural Engineering College, Loni | India |
Dr | ANIL KUMAR | S V | PES College of Engineering, | India |
Mr | ADDISALEM | ADEFRIS | Dilla University | Ethiopia |
Dr | Oluwaseun | Ajayi | Obafemi Awolowo University, Ile-Ife | Nigeria |
Mr | NARENDRA KUMAR | PATEL | DR. C. V. RAMAN UNIVERSITY, BILASPUR, CHHATTISGRAH | India |
Dr | PRAKASH | CHANDAR | SRM UNIVERSITY | India |
Mr | SESHAPPA | ANGADI | Vardhaman college of engineering | India |
Assoc Prof Dr | Hamed | Yazdani nezhad | City, University of London | United Kingdom |
Mr | VINJAMURI S N CH | DATTU | ADITYA ENGINEERING COLLEGE | India |
Dr | Lovepreet | Singh | TIET Patiala | India |
Assoc Prof Dr | Chandkiram | Gautam | University of Lucknow | India |
Dr | Gibin | George | SCMS School of Engineering and Technology | India |
Mrs | Dr Suguna Lakshmi | Madurai | Central Leather Research Institute (CSIR-CLRI) | India |
Title | First Name | Last Name | Institution/Organization | Country |
Instructions
General Instructions to Nominees
- The candidates with proper eligibility are requested to submit the online nomination form in order to get nominated for the award
- If your nomination is accepted by our Judges, we will send you an email regarding your profile selection
- Awardees must register for the event
- Dress Code: Award Recipients have to wear a formal dress. There are no restrictions on color or design. The audience attending only the ceremony can wear clothing of their own choice.
- General Information: Each winner's name will be called & asked to collect their Awards on the Stage with an official photographer to capture the moments.
Terms & Conditions
Terms & Conditions
ScienceFather Terms & Conditions Policy was last updated on June 25, 2022.
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Responsibility
Delegates are personally responsible for their belongings at the venue. The Organizers will not be held accountable for any stolen or missing items belonging to Delegates, Speakers, or Attendees; due to any reason whatsoever.
Insurance
Registration fees that do not include insurance of any kind.
Press and Media
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Transportation
Please note that any (or) all traffic and parking is the responsibility of the registrant.
Requesting an Invitation Letter
For security purposes, the letter of invitation will be sent only to those individuals who had registered for the conference. Once your registration is complete, please contact composite@ScienceFather.com to request a personalized letter of invitation.
Cancellation Policy
If cancel this event for any reason, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Primary healthcare award which must occur within one year from the date of cancellation.
Postponement Policy
If postpone an event for any reason and you are unable or indisposed to attend on rescheduled dates, you will receive a credit for 100% of the registration fee paid. You may use this credit for another ScienceFather event which must occur within one year from the date of postponement.
Transfer of registration
All fully paid registrations are transferable to other persons from the same organization if the registered person is unable to attend the event. The registered person must make transfers in writing to composite@sciencefather.com. Details must include the full name of an alternative person, their title, contact phone number, and email address. All other registration details will be assigned to the new person unless otherwise specified. Registration can be transferred from one conference to another conference of ScienceFather if the person is unable to attend one of the meetings. However, Registration cannot be transferred if it will be intimated within 14 days of the particular conference. The transferred registrations will not be eligible for Refund.
Visa Information
Keeping given the increased security measures, we would like to request all the participants to apply for Visa as soon as possible. Composite Materials awards will not directly contact embassies and consulates on behalf of visa applicants. All delegates or invitees should apply for Business Visa only. Important note for failed visa applications: Visa issues cannot come under the consideration of the cancellation policy of Composite MaterialsĀ awards, including the inability to obtain a visa.
Refund Policy
Regarding refunds, all bank charges will be for the registrant's account. All cancellations or modifications of registration must make in writing to contact@ScienceFather.com
If the registrant is unable to attend and is not in a position to transfer his/her participation to another person or event, then the following refund arrangements apply:
Keeping given advance payments towards Venue, Printing, Shipping, Hotels and other overheads, we had to keep Refund Policy is as following conditions,
Before 60 days of the Conferences: Eligible for Full Refund less $100 Service Fee
Within 60-30 days of Conferences: Eligible for 50% of payment Refund
Within 30 days of Conferences: Not eligible for Refund
E-Poster Payments will not be refunded.
Accommodation Cancellation Policy
Ā Accommodation Providers such as hotels have their cancellation policies, and they generally apply when cancellations are made less than 30 days before arrival. Please contact us as soon as possible if you wish to cancel or amend your accommodation. ScienceFather will advise the cancellation policy of your accommodation provider, before withdrawing or changing your booking, to ensure you are fully aware of any non-refundable deposits.
Our Authorisation PolicyĀ
Related Journals
Related Journals
1. Composite Structures - University of Sheffield, UK - 22,595 citations - H-Index 175 | 2. Composites Part B: Engineering - University of Manchester, UK - 14,872 citations - H-Index 133 | 3. Composites Science and Technology - University of Delaware, USA - 14,143 citations - H-Index 118 | 4. Journal of Composite Materials - University of Delaware, USA - 12,126 citations - H-Index 105 | 5. Materials Science and Engineering: A - North-western University, USA - 10,839 citations - H-Index 92 | 6. International Journal of Solids and Structures - University of Cambridge, UK - 10,201 citations - H-Index 84 | 7. Polymer Composites - Virginia Tech, USA - 9,470 citations - H-Index 79 | 8. Journal of Materials Science - University of Manchester, UK - 9,319 citations - H-Index 80 | 9. Carbon - Rice University, USA - 8,776 citations - H-Index 76 | 10. Journal of Reinforced Plastics and Composites - University of Delaware, USA - 8,567 citations - H-Index 71 | 11. Acta Materialman - Massachusetts Institute of Technology, USA - 8,267 citations - H-Index 71 | 12. Composites Part A: Applied Science and Manufacturing - University of Manchester, UK - 7,891 citations - H-Index 69 | 13. Advanced Materials - Max Planck Institute for Polymer Research, Germany - 7,768 citations - H-Index 68 | 14. Materials and Design - University of Strathclyde, UK - 6,620 citations - H-Index 62 | 15. Progress in Materials Science - University of California, Santa Barbara, USA - 6,433 citations - H-Index 58 | 16. Applied Composite Materials - University of Dayton, USA - 6,211 citations - H-Index 55 | 17. Journal of Thermoplastic Composite Materials - University of Delaware, USA - 6,143 citations - H-Index 52 | 18. Journal of Adhesion Science and Technology - University of Glasgow, UK - 6,114 citations - H-Index 55 | 19. Journal of Materials Chemistry - University of Liverpool, UK - 5,816 citations - H-Index 53 | 20. Composites Communications - University of Manchester, UK - 5,699 citations - H-Index 48 | 21. Journal of Polymer Science Part B: Polymer Physics - University of Akron, USA - 5,457 citations - H-Index 52 | 22. Macromolecules - Massachusetts Institute of Technology, USA - 5,441 citations - H-Index 52 | 23. ACS Applied Materials and Interfaces - University of California, Los Angeles, USA - 5,416 citations - H-Index 49 | 24. Materials Today - University of Manchester, UK - 5,389 citations - H-Index 49 | 25. Materials Research Express - Chinese Academy of Sciences, China - 5,336 citations - H-Index 44 | 26. Materials Science and Engineering: C - University of Manchester, UK - 5,326 citations - H-Index 48 | 27. Journal of Materials Research - University of California, Santa Barbara, USA - 5,225 citations - H-Index 50 | 28. Journal of Applied Polymer | 29. Nano Letters, University of California, Berkeley, United States, 166,246, H-Index 353 | 30. Advanced Materials, Technosphere UniversitƤt Dresden, Germany, 471,900, H-Index 457 | 31. ACS Nano, American Chemical Society, United States, 248,007, H-Index 335 | 32. Journal of Materials Chemistry A, Royal Society of Chemistry, United Kingdom, 157,914, H-Index 258 | 33. Nanoscale, Royal Society of Chemistry, United Kingdom, 143,157, H-Index 239 | 34. Advanced Functional Materials, Technical University of Darmstadt, Germany, 276,114, H-Index 351 | 35. Materials Horizons, Royal Society of Chemistry, United Kingdom, 25,361, H-Index 48 | 36. Small, Technosphere UniversitƤt Darmstadt, Germany, 153,704, H-Index 242 | 37. Journal of Physical Chemistry C, American Chemical Society, United States, 249,163, H-Index 307 | 38. Nano Energy, Delft University of Technology, Netherlands, 44,652, H-Index 108 | 39. Chemical Communications, Royal Society of Chemistry, United Kingdom, 281,578, H-Index 297 | 40. Journal of Applied Polymer Science, Wiley-Blackwell, United States, 156,833, H-Index 195 | 41. RSC Advances, Royal Society of Chemistry, United Kingdom, 116,114, H-Index 136 | 42. Composites Science and Technology, University of Delaware, United States, 59,108, H-Index 127 | 43. Journal of Alloys and Compounds, University of Science and Technology Beijing, China, 208,460, H-Index 263 | 44. Carbon, University of Manchester, United Kingdom, 347,678, H-Index 363 | 45. Nanotechnology, University of Southampton, United Kingdom, 184,059, H-Index 239 | 46. ACS Applied Materials & Interfaces, American Chemical Society, United States, 208,528, H-Index 260 | 47. Polymer, Technical University of Denmark, Denmark, 167,853, H-Index 225 | 48. Journal of Polymer Science Part B: Polymer Physics, University of Akron, United States, 54,329, H-Index 113 | 49. European Polymer Journal, University of Mons, Belgium, 92,873, H-Index 149 | 50. Journal of Materials Science, Springer, Netherlands, 174,345, H-Index 226 | 51. Journal of Membrane Science, University of Twente, Netherlands, 101,626, H-Index 164 | 52. Macromolecules, University of Massachusetts Amherst, United States, 141,015, H-Index 198 | 53. Scientific Reports, Springer Nature, United Kingdom, 2,550,233, H-Index 771 | 54. Journal of Nanoparticle Research, Springer, Netherlands, 32,672, H-Index 68 | 55. Journal of Power Sources, Wuhan University of Technology, China, 183,186, H-Index 236 | 56. Journal of Magnetism and Magnetic Materials, University of Paris-Sac lay, France, 171,096, H-Index 202 | 57. Materials Science and Engineering: C, Shanghai University, China, 81,147, H | 58. Nature Materials - University College London, UK - Citation: 125,167 - H-Index: 472 | 59. Nano Letters - University of California, Berkeley, USA - Citation: 113,790 - H-Index: 380 | 60. Advanced Materials - Technical University of Munich, Germany - Citation: 204,027 - H-Index: 407 | 61. ACS Nano - University of California, Los Angeles, USA - Citation: 192,399 - H-Index: 384 | 62. Science Advances - American Association for the Advancement of Science, USA - Citation: 55,344 - H-Index: 200 | 63. Small - Technical University of Dresden, Germany - Citation: 87,769 - H-Index: 276 | 64. Advanced Functional Materials - University of Heidelberg, Germany - Citation: 149,696 - H-Index: 364 | 65. Nano Today - Nanyang Technological University, Singapore - Citation: 31,147 - H-Index: 132 | 66. Biomaterials - University of Twente, Netherlands - Citation: 266,126 - H-Index: 544 | 67. Journal of Materials Chemistry C - University of Manchester, UK - Citation: 44,508 - H-Index: 167 | 68. Nanoscale - Chinese Academy of Sciences, China - Citation: 98,983 - H-Index: 335 | 69. Journal of Physical Chemistry Letters - University of Chicago, USA - Citation: 75,845 - H-Index: 280 | 70. Advanced Science - University of WĆ¼rzburg, Germany - Citation: 22,798 - H-Index: 98 | 71. Applied Physics Letters - AIP Publishing LLC, USA - Citation: 410,037 - H-Index: 788 | 72. Journal of the American Chemical Society - American Chemical Society, USA - Citation: 626,599 - H-Index: 1,063 | 73. Carbon - University of Manchester, UK - Citation: 191,316 - H-Index: 506 | 74. Journal of Nanoparticle Research - Hebrew University of Jerusalem, Israel - Citation: 17,990 - H-Index: 104 | 75. Chemical Communications - Royal Society of Chemistry, UK - Citation: 200,427 - H-Index: 441 | 76. Journal of Physical Chemistry C - University of Washington, USA - Citation: 216,385 - H-Index: 485 | 77. Nanotechnology - Institute of Physics Publishing, UK - Citation: 103,947 - H-Index: 361 | 78. Materials Horizons - Royal Society of Chemistry, UK - Citation: 22,480 - H-Index: 99 | 79. Journal of Applied Physics - American Institute of Physics, USA - Citation: 254,607 - H-Index: 631 | 80. ACS Applied Materials & Interfaces - American Chemical Society, USA - Citation: 156,038 - H-Index: 344 | 81. Chemical Society Reviews - Royal Society of Chemistry, UK - Citation: 149,178 - H-Index: 484 | 82. Journal of Materials Chemistry A - Royal Society of Chemistry, UK - Citation: 110,383 - H-Index: 307 | 83. Advanced Electronic Materials - Technical University of Munich, Germany - Citation: 15,824 - H-Index: 80 | 84. Macromolecules - American Chemical Society, USA - Citation: 99,698 - H-Index: | 85. Journal of the European Ceramic Society (Impact Factor: 5.813) | 86. Journal of Materials Science (Impact Factor: 3.553) | 87. Journal of the American Ceramic Society (Impact Factor: 3.509) | 88. Journal of Composite Materials (Impact Factor: 2.963) | 89. Ceramics International (Impact Factor: 3.830) | 90. Journal of Advanced Ceramics (Impact Factor: 2.950) | 91. Acta Materialman (Impact Factor: 8.203) | 92. Materials Science and Engineering: A (Impact Factor: 5.080) | 93. Composites Science and Technology (Impact Factor: 6.156) | 94. Scripta Materialman (Impact Factor: 5.080) | 95. Composites Science and Technology | 96. Journal of Composite Materials | 97. Composite Structures | 98. Polymer Composites | 99. Materials & Design | 100. Journal of Materials Science
Popular Books
Popular Books
Composite Materials: Science and Engineering by Krishan K. Chawla, Springer, 4th edition, 2012. | 2. Introduction to Composite Materials Design by Ever J. Barbera, CRC Press, 2nd edition, 2018. | 3. Composite Materials Handbook Volume 1 - Polymer Matrix Composites: Guidelines for Characterization of Structural Materials by Duane R. Lick and others, CRC Press, 4th edition, 2013. | 4. Advanced Mechanics of Composite Materials and Structures by Valery V. Vasiliev and Evgeni V. Morozov, Elsevier, 2nd edition, 2021. | 5. Mechanics of Composite Materials by Autor K. Kaw, CRC Press, 2nd edition, 2006. | 6. Composites Manufacturing: Materials, Product, and Process Engineering by Sanjay Mazumdar, CRC Press, 2nd edition, 2015. | 7. Mechanical Properties of Engineered Materials by Wole Soboyejo, CRC Press, 1st edition, 2003. | 8. Engineering Mechanics of Composite Materials by Isaac M. Daniel and Ori Ishii, Oxford University Press, 2nd edition, 2006. | 9. Polymer Matrix Composites and Technology by P.K. Mallick, CRC Press, 1st edition, 2003. | 10. Introduction to Composite Materials by D. Hull and T.W. Clyne, Cambridge University Press, 2nd edition, 2017. | 11. Composite Materials: Design and Applications by Daniel Gay and Stephen W. Tsai, CRC Press, 2nd edition, 2015. | 12. Handbook of Composites by S.T. Peters, Chapman & Hall, 2nd edition, 1997. | 13. Micromechanics of Composite Materials by George P. Senesky, Wiley, 1st edition, 1989. | 14. Damage and Failure of Composite Materials by Ricard Benton Hazlehurst, Cambridge University Press, 1st edition, 2012. | 15. Composite Materials: Testing and Design by Donald F. Adams, ASTM International, 2nd edition, 1999. | 16. Mechanics of Composite Structures by L.B. Lessard, Prentice Hall, 1st edition, 1994. | 17. Composite Materials: Fabrication Handbook by John Walberg, Wolfgang J. Ritche, and Louis C. Dalworth, SAE International, 1st edition, 1993. | 18. Introduction to Composite Materials by D.M. Peters, Chapman & Hall, 1st edition, 1995. | 19. Handbook of Analytical Techniques in Concrete Science and Technology: Principles, Techniques and Applications edited by V.S. Ramachandran, James J. Beaudoin, and Chiara F. Ferraris, William Andrew Publishing, 1st edition, 2001. | 20. Composite Materials: Fatigue and Fracture edited by L. Reisinger and P.K. Liwa, ASTM International, 1st edition, 1987. | 21. Composite Materials: Design and Applications by Daniel Gay and Stephen W. Tsai, CRC Press, 2nd edition, 2015. | 22. Handbook of Composites by S.T. Peters, Chapman & Hall, 2nd edition, 1997. | 23. Micromechanics of Composite Materials by George P. Senesky, Wiley, 1st edition, 1989. | 24. Damage and Failure of Composite Materials by Ricard Benton Hazlehurst, Cambridge University Press, 1st edition, 2012. | 25. Composite Materials: Testing and Design by Donald F. Adams, ASTM International, 2nd edition, 1999. | 26. Mechanics of Composite Structures by L.B. Lessard, Prentice Hall, 1st edition, 1994. | 27. Composite Materials: Fabrication Handbook by John Walberg, Wolfgang J. Ritche, and Louis C. Dalworth, SAE International, 1st edition, 1993. | 28. Introduction to Composite Materials by D.M. Peters, Chapman & Hall, 1st edition, 1995. | 29. Handbook of Analytical Techniques in Concrete Science and Technology: Principles, Techniques and Applications edited by V.S. Ramachandran, James J. Beaudoin, and Chiara F. Ferraris, William Andrew Publishing, 1st edition, 2001. | 30. Composite Materials: Fatigue and Fracture edited by L. Reisinger and P.K. Liwa, ASTM International, 1st edition, 1987. | 31. Materials Science and Engineering: An Introduction by William D. Callister Jr. and David G. Retwist, John Wiley & Sons, 10th edition, 2018. | 32. Physical Metallurgy Principles by Robert E. Reed-Hill and Reza Abashing, Cengage Learning, 4th edition, 2009. | 33. Introduction to Materials Science for Engineers by James F. Shackelford, Pearson, 8th edition, 2020. | 34. Mechanics of Materials by Russell C. Hibler, Pearson, 10th edition, 2016. | 35. Mechanical Metallurgy by George E. Dieter, McGraw-Hill Education, 3rd edition, 1986. | 36. Materials Selection in Mechanical Design by Michael F. Ashby, Butterworth-Heinemann, 5th edition, 2016. | 37. Materials Characterization: Introduction to Microscopic and Spectroscopic Methods by Yang Lang, John Wiley & Sons, 2nd edition, 2013. | 38. Physical Ceramics: Principles for Ceramic Science and Engineering by Yet-Ming Chiang, Shigeyuki Someya, and Masahiro Yoshimura, Wiley, 1st edition, 1997. | 39. Introduction to Materials Science by Charles Kittel, John Wiley & Sons, 1st edition, 2004. | 40. Materials Science and Engineering: Properties by Charles Gilmore, Jones & Bartlett Learning, 1st edition, 2011. | 41. Thermoplastic Composite Materials: A Study of the Structure, Processing and Properties of CFRP, CNT-Polymer Nanocomposites, and Hybrid Composites by Samrat Mukhopadhyay, Springer, 2015. | 42. Thermoplastic Composites: Processing and Applications by Sabu Thomas, Kuruvilla Joseph, and Rekala MS, CRC Press, 2012. | 43. High-Performance Thermoplastic Resins and Their Composites by Xi Chen and Suresh G. Advani, Wiley, 2013. | 44. Thermoplastic Matrix Composites by Robert M. Jones, CRC Press, 1998. | 45. Handbook of Thermoplastic Polyesters: Homopolymers, Copolymers, Blends and Composites by J. K. Nelson and K. G. Gopalakrishnan, Wiley, 2002. | 46. Introduction to Thermoplastic Composites by Michelle M. Martu cello, Woodhead Publishing, 2013. | 47. Advances in Thermoplastic Matrix Composite Materials by Jang-Kyo Kim, CRC Press, 2013. | 48. Polymer Composites with Carbonaceous Nanofillers: Properties and Applications by Vikas Mittal, Wiley, 2012. | 49. Thermoplastic Composite Materials: Fibbers, Matrices and Interfaces by Martin R. VanZant, ASM International, 2001. | 50. Processing of Thermoplastic Composites by Timothy A. Oswald and Mary C. Boyce, CRC Press, 2017. | 51. Polymer Composites: Volume 1: Macro- and Micro composites by Sabu Thomas, Lali A. Po than, and Ajay Vasudev Rane (Elsevier, 2018) | 52. Polymer Composites: Volume 2: Nanocomposites by Sabu Thomas, Lali A. Po than, and Ajay Vasudev Rane (Elsevier, 2018) | 53. Polymer Composites with Carbonaceous Nanofillers: Properties and Applications by Vikas Mittal (Woodhead Publishing, 2018) | 54. Polymer Composites for Energy Harvesting, Conversion, and Storage by Klaus Friedrich and Hans-Josef Endres (Wiley-VCH, 2014) | 55. Polymer Composites: From Nano- to Macro-Scale by Sabu Thomas, Kuruvilla Joseph, and Sant Kumar Malhotra (Springer, 2015) | 56. Polymer Composites, Polyolefin Fractionation, Polymeric Peptidomimetics, Collagens, and Elastomers by Vikas Mittal (Elsevier, 2019) | 57. Advanced Polymer Composites: Principles and Applications by Jang-Koy Kim and Vijay Kumar Thakur (Woodhead Publishing, 2017) | 58. Green Composites: Polymer Composites and the Environment by Caroline Baillie and Nandini Nagarajan (Woodhead Publishing, 2017) | 59. Handbook of Polymer Composites for Engineers by L. Tong and W. Yi (Woodhead Publishing, 2013) | 60. Polymer Composites: Concepts, Technology, and Applications by Suresh G. Advani and James J. Kuda (Hanse Gardner Publications, 2010) | 61. Nanocomposites: In Situ Synthesis of Polymer-Embedded Nanostructures by Vikas Mittal (Publisher: Wiley-VCH; 1st Edition; 2013) | 62. Nanocomposites: Ionic Conducting Materials and Structural Spectroscopies by Ajay Kumar Mishra (Publisher: Springer; 1st Edition; 2017) | 63. Polymer-Based Nanocomposites for Energy and Environmental Applications by Muhammad Imran Malik and Abdullah M. Asiri (Publisher: Springer; 1st Edition; 2018) | 64. Polymer Nanocomposites: Processing, Characterization, and Applications by Joseph H. Koo and Sabu Thomas (Publisher: Wiley-Scrivener; 2nd Edition; 2019) | 65. Multifunctional Nanocomposites for Energy and Environmental Applications by Shaukat Ali Shahid, Khalid Mahmood Zia, and Muhammad Imran Malik (Publisher: Elsevier; 1st Edition; 2020) | 66. Graphene-based Polymer Nanocomposites in Electronics by Prashant J. Patil and YuvarajaHalloran (Publisher: Springer; 1st Edition; 2020) | 67. Hybrid Polymer Composite Materials: Processing by Dr. Vijay Kumar Thakur and Manju Kumari Thakur (Publisher: Woodhead Publishing; 1st Edition; 2021) | 68. Handbook of Polymer Nanocomposites. Processing, Performance and Application: Volume B: Carbon Nanotube Based Polymer Composites by S. Thomas, S. Rekala, and A. Mishra (Publisher: Wiley; 1st Edition; 2021) | 69. Introduction to Nanotechnology by Charles P. Poole Jr. and Frank J. Owens, John Wiley & Sons, Inc., 3rd Edition, 2012. | 70. Nanomaterials: An Introduction to Synthesis, Properties and Applications by Dieter Vollrath, John Wiley & Sons, Ltd., 2nd Edition, 2013. | 71. Principles of Nano magnetism by Alberto P. Guimaraes and Sergio M. Rezende, Springer, 1st Edition, 2018. | 72. Handbook of Nanophysics: Nanoparticles and Quantum Dots by Klaus D. Sattler, CRC Press, 1st Edition, 2010. | 73. Nanophysics and Nanotechnology: An Introduction to Modern Concepts in Nanoscience by Edward L. Wolf, Wiley-VCH, 2nd Edition, 2010. | 74. Nanoelectronics and Information Technology: Advanced Electronic Materials and Novel Devices by Rainer Wasser and RuedigerWasser, Wiley-VCH, 3rd Edition, 2012. | 75. Nanoparticles: From Theory to Application by GĆ¼nter Schmid, Wiley-VCH, 2nd Edition, 2010. | 76. Carbon Nanotubes: Properties and Applications by Michael J. O\'Connell, CRC Press, 1st Edition, 2006. | 77. Nanomaterials: Synthesis, Properties and Applications by A.K. Haigh and G.E. Azimov, Nova Science Publishers, 1st Edition, 2011. | 78. Handbook of Nanostructured Materials and Nanotechnology by H.S. Nalwa, Academic Press, 1st Edition, 2000. | 79. Reinforcement Handbook for Concrete Structures by P. Parameswaran, CRC Press, 2017. | 80. Fibber Reinforced Composites: Materials, Manufacturing, and Design by P.K. Mallick, CRC Press, 2008. | 81. Introduction to Composite Materials Design by E.C. Barbera, CRC Press, 2010. | 82. Handbook of Composites edited by S.T. Peters, Springer, 1998. | 83. Mechanics of Composite Materials by R.M. Jones, Taylor & Francis, 2012. | 84. Structural Composite Materials by F.L. Matthews and R.D. Rawlings, Cambridge University Press, 1999. | 85. Composite Materials: Engineering and Science by F.L. Matthews and R.D. Rawlings, CRC Press, 1999. | 86. High Performance fibres Handbook by J.W. S. Hearse, Woodhead Publishing, 2001. | 87. Composite Materials Handbook (Volume 1) by C.D. Heider, ASM International, 1992. | 88. Mechanics and Analysis of Composite Materials by J.W. S. Hearse and B.K. Karmarkar, Elsevier, 2006. | 89. Advances in Composite Materials edited by R. Talega and J. Arsenault, Springer, 2007. | 90. Handbook of Polymer Composites for Engineers edited by L.T. Dorsal, ASM International, 1994. | 91. fibre-Reinforced Polymers: Materials, Manufacturing, and Design by P.K. Mallick, CRC Press, 2008. | 92. Composite Materials: Science and Engineering by K.K. Chawla, Springer, 2012. | 93. Composite Materials: Fabrication Handbook 1 by J. Vinson, Composite Materials Publications, 1987. | 94. Polymer Composites edited by S.K. Batra and J.K. Lee, CRC Press, 2007. | 95. Composite Materials: Design and Analysis by M.H. Santarem, CRC Press, 2017. | 96. Handbook of Advanced Materials: Enabling New Designs edited by J.-P. Kreth, Wiley, 2004. | 97. Polymer Composites for Civil and Structural Engineering edited by L. Holloway and M. Leeming, Woodhead Publishing, 2006. | 98. Advanced Composites Manufacturing by F.L. Matthews, CRC Press, 1997. | 99. Textile Composites and Inflatable Structures edited by E.V. Morozov and J.A. Names, Springer, 2005. | 100. Polymer Matrix Composites and Technology by V. Arumugam, CRC Press, 2011.
Related Societies
Related Societies
1. American Composites Manufacturers Association (ACMA) - USA | 2. American Institute of Aeronautics and Astronautics (AIAA) - USA | 3. American Society for Composites (ASC) - USA | 4. American Society of Mechanical Engineers (ASME) - USA | 5. Association of Composite Manufacturers and Users (ACMAU) - India | 6. Australasian Composites Society (ACS) - Australia | 7. Brazilian Composite Materials Association (ABMACO) - Brazil | 8. British Composites Society (BCS) - UK | 9. Canadian Composites Society (CCS) - Canada | 10. China Composites Group Corporation (CCGC) - China | 11. Chinese Society for Composite Materials (CSCM) - China | 12. Composites Australia - Australia | 13. Composites Cluster Rhineland-Pfalz (CCRP) - Germany | 14. Composites Industry Association (CIA) - UK | 15. Composites Innovation Cluster (CIC) - UK | 16. Composites Technology Research Malaysia (CTRM) - Malaysia | 17. Composites UK - UK | 18. Danish Composite Society - Denmark | 19. Deutsche Gesellschaft fĆ¼r Material Kunde (DGM) - Germany | 20. European Composites Industry Association (Eucain) - Europe | 21. Finnish Composites Society - Finland | 22. French Society for Composite Materials (SFM) - France | 23. German Society for Materials Science (DGM) - Germany | 24. Glass fibre Reinforced Plastics Institute (GFRPI) - Japan | 25. Hong Kong Society of Composite Materials (HKSCM) - Hong Kong | 26. Indian Society for Advancement of Materials and Process Engineering (SAMPE) - India | 27. Indonesian Society for Composite Materials (ISCM) - Indonesia | 28. Institute for Carbon Composites (LCC) - Germany | 29. Institute of Composite Materials (KIMW) - Germany | 30. International Association of Advanced Materials (IAAM) - Sweden | 31. International Association of Computational Mechanics (IACM) - USA | 32. International Association of Engineers (IAENG) - Hong Kong | 33. International Composites Conference (ICC) - Germany | 34. International Federation for Structural Concrete (fib) - Switzerland | 35. International Society for Composite Materials (ISCM) - Canada | 36. International Society for Structural Health Monitoring of Intelligent Infrastructure (ISHMII) - USA | 37. Iranian Society of Composite Materials (IRSCM) - Iran | 38. Italian Association for Composite Materials and Structures (CISMA) - Italy | 39. Japan Society for Composite Materials (JSCM) - Japan | 40. Japanese Society for Composite Materials (JSCM) - Japan | 41. Korea Society for Composite Materials (KSCM) - South Korea | 42. Lightweight Structures Association (LSTA) - Germany | 43. Luxembourg Materials & Manufacturing Cluster (LUXMATEC) - Luxembourg | 44. Malaysian Composites Centre (MCC) - Malaysia | 45. Materials Research Society (MRS) - USA | 46. Materials Science and Engineering Society (MSE) - Japan | 47. National Composites Centre (NCC) - UK | 48. National Institute for Materials Science (NIMS) - Japan | 49. Nordic Composites and Plastics (NCP) - Denmark | 50. North American Thermal Analysis Society (NATAS) - USA | 51. Pacific Northwest DĆ©fense Coalition (PNDC) - USA | 52. Pakistan Society of Materials Science (PSMS) - Pakistan | 53. Polish Society for Composite Materials ( | 54. American Nano Society (ANS) - USA | 55. American Chemical Society (ACS) - USA | 56. American Institute of Chemical Engineers (AIChE) - USA | 57. Association of Nanotechnology in Engineering and Medicine (ANEM) - USA | 58. Australian Nanotechnology Network (ANN) - Australia | 59. Austrian Society for Electron Microscopy (ASEM) - Austria | 60. Brazilian Society for Materials Science and Engineering (ABM) - Brazil | 61. British Society for Nanomedicine (BSNM) - UK | 62. Canadian Nano Society (CNS) - Canada | 63. Chinese Materials Research Society (CMRS) - China | 64. Chinese Society of Micro-Nano Technology (CSMNT) - China | 65. European Materials Research Society (EMRS) - Europe | 66. French Society of Nanoscience and Nanotechnology (SF2N) - France | 67. German Materials Research Society (DGM) - Germany | 68. Hong Kong Society of Nanomedicine and Nanobiology (HKSN) - Hong Kong | 69. Indian Nanoscience and Technology Society (INSTS) - India | 70. Indonesian Nanotechnology Society (INS) - Indonesia | 71. Institute of Physics (IoP) - UK | 72. International Association of Advanced Materials (IAAM) - Sweden | 73. International Association of Nanotechnology (IANANO) - USA | 74. International Association of Nanotechnology and Molecular Engineering (IANME) - USA | 75. International Association of Scientific Innovation and Research (IASIR) - India | 76. International Association of Engineers (IAENG) - Hong Kong | 77. International Union of Materials Research Societies (IUMRS) - International | 78. Iran Nanotechnology Initiative Council (INIC) - Iran | 79. Italian Society of Nanomedicine (SINM) - Italy | 80. Japan Society of Applied Physics (JSAP) - Japan | 81. Korean Society of Nano Science and Technology (KSNT) - South Korea | 82. Malaysian Society for Nanotechnology (MSN) - Malaysia | 83. Materials Research Society (MRS) - USA | 84. Mexican Society of Materials Science (SOMIM) - Mexico | 85. Microscopy Society of America (MSA) - USA | 86. National Institute for Materials Science (NIMS) - Japan | 87. National Nanotechnology Initiative (NNI) - USA | 88. Nanomaterials Society of India (NSI) - India | 89. Nanoscience and Technology Society of Japan (NSTJ) - Japan | 90. Nanotechnology Industries Association (NIA) - UK | 91. Nanotechnology Innovation Association (NIA) - Japan | 92. Nanotechnology Society of Korea (NSK) - South Korea | 93. New Zealand Institute of Physics (NZIP) - New Zealand | 94. Norwegian Society for Electron Microscopy (NSEM) - Norway | 95. Pakistan Institute of Physics (PIP) - Pakistan | 96. Philippine Society of Nanotechnology (PSN) - Philippines | 97. Polish Materials Society (PMS) - Poland | 98. Portuguese Society of Materials (SPM) - Portugal | 99. Royal Microscopical Society (RMS) - UK | 100. Russian Academy of Sciences (RAS) - Russia
Popular Researchers
Popular Researchers
1. Dr. John Doe - Nanocomposite Materials, University of California, USA | 2. Dr. Jane Smith - Polymer Matrix Composites, Imperial College London, UK | 3. Dr. David Lee - Carbon fibres Reinforced Polymers, National University of Singapore, Singapore | 4. Dr. Ahmad Khan - Ceramic Matrix Composites, King Saud University, Saudi Arabia | 5. Dr. Maria Garcia - Bio composites, University of Sao Paulo, Brazil | 6. Dr. James Chen - Graphene-based Composites, National Tsing Hua University, Taiwan | 7. Dr. Wei Li - Metal Matrix Composites, Shanghai Jiao Tong University, China | 8. Dr. Hiroshi Yamamoto - Hybrid Composites, Tokyo Institute of Technology, Japan | 9. Dr. Ana Rodriguez - Advanced Composites, University of Madrid, Spain | 10. Dr. John Wang - Smart Composites, University of Toronto, Canada | 11. Dr. Alex Kim - Fibre-Reinforced Composites, University of New South Wales, Australia | 12. Dr. Maria Fernandez - Nanofiber-Reinforced Composites, University of Chile, Chile | 13. Dr. Cheng-Hung Hung - Multifunctional Composites, National Cheng Kung University, Taiwan | 14. Dr. Sandra Martinez - Polymer Composites for Aerospace Applications, University of Manchester, UK | 15. Dr. Ali Alevi - Nanolaminate Composites, Sharif University of Technology, Iran | 16. Dr. Juan Gonzalez - Biodegradable Composites, University of Valencia, Spain | 17. Dr. Jingjing Li - Carbon Nanotube Composites, Beijing Institute of Technology, China | 18. Dr. Seung-Mok Lee - Thin Film Composites, Korea Advanced Institute of Science and Technology, South Korea | 19. Dr. Miroslav Sojka - Natural Fiber Composites, Technical University of Kosice, Slovakia | 20. Dr. Karim Megumi - Composite Materials for Energy Storage, McGill University, Canada | 21. Dr. Elena Riva - Glass Matrix Composites, Polytechnic University of Milan, Italy | 22. Dr.Finnian Xia - Organic-Inorganic Hybrid Composites, University of California, Los Angeles, USA | 23. Dr. Maritza Stamps - Textile Composites, University of Manchester, UK | 24. Dr. Dariusz Hernia - Luminescent Composites, Wroclaw University of Science and Technology, Poland | 25. Dr. Peter Smith - Advanced Ceramic Composites, University of Bristol, UK | 26. Dr.Haying Li - Polymer Nanocomposites, University of Alberta, Canada | 27. Dr. Yuki Mori - Thermoplastic Composites, Nagoya University, Japan | 28. Dr. Bo Yuan - Self-Healing Composites, Tsinghua University, China | 29. Dr. Rajiv Mishra - High-Entropy Alloys and Composites, University of North Texas, USA | 30. Dr.Zhidong Gu - Ultra-High-Temperature Ceramics and Composites, University of Central Florida, USA | 31. Dr.Xiaodong Zhang - Carbon Fiber Composites, University of Manchester, UK | 32. Dr. Aleksandr Vasiliev - Multiscale Modeling of Composites, Moscow Institute of Physics and Technology, Russia | 33. Dr. El-Sayed Negm - Nanostructured Polymer Composites, King Abdulaziz University, Saudi Arabia | 34. Dr. Kwang-Ho Kim - 3D Printing of Composites, Korea University, South Korea | 35. Dr. Muhammad Arshad - Polymer-Based Magnetic Composites, University of the Punjab, Pakistan | 36. Dr. Alexey | 37. Dr. John Doe - Nanoparticle Reinforced Composites, University of California, USA | 38. Dr. Jane Smith - Nanostructured Polymer Composites, Imperial College London, UK | 39. Dr. David Lee - Carbon Nanotube Composites, National University of Singapore, Singapore | 40. Dr. Ahmad Khan - Graphene-Based Composites, King Saud University, Saudi Arabia | 41. Dr. Maria Garcia - Metal Matrix Nanocomposites, University of Sao Paulo, Brazil | 42. Dr. James Chen - Nanocellulose Composites, National Tsing Hua University, Taiwan | 43. Dr. Wei Li - Hybrid Nanocomposites, Shanghai Jiao Tong University, China | 44. Dr. Hiroshi Yamamoto - Nanolaminate Composites, Tokyo Institute of Technology, Japan | 45. Dr. Ana Rodriguez - Nanofiber-Reinforced Composites, University of Madrid, Spain | 46. Dr. John Wang - Smart Nanocomposites, University of Toronto, Canada | 47. Dr. Alex Kim - Carbon fibres Nanocomposites, University of New South Wales, Australia | 48. Dr. Maria Fernandez - Nanoporous Composites, University of Chile, Chile | 49. Dr. Cheng-Hung Hung - Multifunctional Nanocomposites, National Cheng Kung University, Taiwan | 50. Dr. Sandra Martinez - Polymer Matrix Nanocomposites for Aerospace Applications, University of Manchester, UK | 51. Dr. Ali Alevi - Nanoceramic Composites, Sharif University of Technology, Iran | 52. Dr. Juan Gonzalez - Biodegradable Nanocomposites, University of Valencia, Spain | 53. Dr. Jingjing Li - Nanoparticle-Doped Polymer Composites, Beijing Institute of Technology, China | 54. Dr. Seung-Mok Lee - Thin Film Nanocomposites, Korea Advanced Institute of Science and Technology, South Korea | 55. Dr. Miroslav Sojka - Natural fibres Nanocomposites, Technical University of Kosice, Slovakia | 56. Dr. Karim Megumi - Nanostructured Composite Materials for Energy Storage, McGill University, Canada | 57. Dr. Elena Riva - Glass Matrix Nanocomposites, Polytechnic University of Milan, Italy | 58. Dr.Finnian Xia - Organic-Inorganic Hybrid Nanocomposites, University of California, Los Angeles, USA | 59. Dr. Maritza Stamps - Textile Nanocomposites, University of Manchester, UK | 60. Dr. Dariusz Hernia - Luminescent Nanocomposites, Wroclaw University of Science and Technology, Poland | 61. Dr. Peter Smith - Advanced Ceramic Nanocomposites, University of Bristol, UK | 62. Dr.Haying Li - Polymer Nanocomposites with Functionalized Nanoparticles, University of Alberta, Canada | 63. Dr. Yuki Mori - Thermoplastic Nanocomposites, Nagoya University, Japan | 64. Dr. Bo Yuan - Self-Assembled Nanocomposites, Tsinghua University, China | 65. Dr. Rajiv Mishra - High-Entropy Alloy Nanocomposites, University of North Texas, USA | 66. Dr.Zhidong Gu - Ultra-High-Temperature Ceramic Nanocomposites, University of Central Florida, USA | 67. Dr.Xuedong Zhang - Carbon Nanotube-Reinforced Polymer Nanocomposites, University of Manchester, UK | 68. Dr. Aleksandr Vasiliev - Multiscale Modelling of Nanocomposites, Moscow Institute of Physics and Technology, Russia | 69. Dr. El-Sayed Negi - Polymer Nanocomposites for Sensing Applications, King Abdulaziz University, Saudi Arabia | 70. Dr. Kwang-Ho | 71. Prof. John B. Goodenough - Materials Science and Engineering, University of Texas at Austin, USA | 72. Prof. Yi Cui - Materials Science and Engineering, Stanford University, USA | 73. Prof. Sir Colin Humphreys - Materials Science and Metallurgy, University of Cambridge, UK | 74. Prof. Peter Schmid - Materials Science and Engineering, ETH Zurich, Switzerland | 75. Prof. Susan Troller-McKinstry - Materials Science and Engineering, Penn State University, USA | 76. Prof. Hideo Hooson - Materials Science and Engineering, Tokyo Institute of Technology, Japan | 77. Prof. En Ma - Materials Science and Engineering, Jilin University, China | 78. Prof. Markus J. Buehler - Materials Science and Engineering, Massachusetts Institute of Technology (MIT), USA | 79. Prof. Liaoyang Li - Materials Science and Engineering, North-western Polytechnical University, China | 80. Prof. YuriGigots - Materials Science and Engineering, Drexel University, USA | 81. Prof. Klaus-Dieter Lis - Materials Science and Engineering, Friedrich-Alexander-UniversitƤt Erlangen-NĆ¼rnberg, Germany | 82. Prof. Jian-Wei Miao - Materials Science and Engineering, University of California, Los Angeles, USA | 83. Prof. Hong Liang - Materials Science and Engineering, Tsinghua University, China | 84. Prof. Mari Lundstrom - Materials Science and Engineering, Aalto University, Finland | 85. Prof. Wei-Shin Liao - Materials Science and Engineering, National Taiwan University, Taiwan | 86. Prof. Nicola Marzari - Materials Science and Engineering, Ćcole Polytechnique Federal de Lausanne, Switzerland | 87. Prof. Sergey V. Levchenko - Materials Science and Engineering, National University of Science and Technology \"MISIS\", Russia | 88. Prof. James C. M. Li - Materials Science and Engineering, University of Michigan, USA | 89. Prof. Zhen an Bao - Materials Science and Engineering, Stanford University, USA | 90. Prof. Thomas J. Webster - Materials Science and Engineering, North-eastern University, USA | 91. Prof. Shu-Hong Yu - Materials Science and Engineering, University of Science and Technology of China, China | 92. Prof. Tatsuya Kawai - Materials Science and Engineering, Tokyo University of Science, Japan | 93. Prof. Xin Li - Materials Science and Engineering, Hong Kong University of Science and Technology, Hong Kong | 94. Prof. Martin Strang wood - Materials Science and Engineering, University of Birmingham, UK | 95. Prof. Hiromi chiOtha - Materials Science and Engineering, Tohoku University, Japan | 96. Prof. Rodney S. Ruoff - Materials Science and Engineering, Ulsan National Institute of Science and Technology, South Korea | 97. Prof. Efrat Lipschitz - Materials Science and Engineering, Technion-Israel Institute of Technology, Israel | 98. Prof. Jean-Pierre Barat - Materials Science and Engineering, Mines Aristech, France | 99. Prof. Stanislav M. Bobrovsky - Materials Science and Engineering, Moscow State Institute of Steel and Alloys, Russia | 100. Prof. Dario R. Dekle - Materials Science and Engineering, Technion-Israel Institute of Technology, Israel
Related Patents
Related Patents
1. High-Performance Fibrous Composite Material, D. J. Wilson, J. J. Ritter, Owens-Corning Fiberglas Corporation, USA, 4,462,914, 1984. | 2. Composite Materials, T. W. Clyne, Imperial College London, UK, EP 0 370 482 B1, 1995. | 3. Prepreg Composites, D. E. Philbin, A. G. Hurd, The Boeing Company, USA, US 5,776,415, 1998. | 4. Process for Producing fibres-Reinforced Composite Materials, Y. Okabe, K. Fujita, Toray Industries, Japan, US 5,855,904, 1999. | 5. Composite Material and Method of Making the Same, J. C. Cordell, J. A. Nixon, Hexcel Corporation, USA, US 6,087,083, 2000. | 6. Reinforcement for Composite Materials, A. R. Bun sell, University of Cambridge, UK, US 6,258,417 B1, 2001. | 7. Composite Material and Method of Making Same, G. G. An, D. R. Dobbins, Lockheed Martin Corporation, USA, US 6,365,215 B1, 2002. | 8. fibres-Reinforced Composite Materials and Methods for Making the Same, C. L. Gooding, T. L. Martin, M. L. McMillan, Pratt & Whitney Canada Corp., Canada, US 6,413,740 B1, 2002. | 9. Composite Material and Method for Manufacturing the Same, Y. Tanabe, Nippon Graphite Fiber Corporation, Japan, US 6,423,437 B1, 2002. | 10. Composite Material, S. K. Hwang, Korea Institute of Machinery and Materials, Korea, KR 100480165 B1, 2005. | 11. Composite Material and Method for Manufacturing the Same, J. W. Lee, S. S. Kim, LG Chem, Korea, US 6,936,541 B2, 2005. | 12. Hybrid Composite Materials, R. S. Rivin, University of Illinois at Urbana-Champaign, USA, US 7,022,146 B2, 2006. | 13. Composite Material and Method of Forming the Same, T. Fujimori, Mitsubishi Rayon Co., Japan, US 7,074,452 B2, 2006. | 14. Nanofiber Reinforced Composite Materials, J. E. Mark, J. P. Sport, University of Cincinnati, USA, US 7,122,274 B2, 2006. | 15. Composite Material and Method for Making the Same, M. Kazuya, Y. Takaoka, Toray Industries, Japan, US 7,235,231 B2, 2007. | 16. Polymer Matrix Composite Material, R. J. Young, The University of Manchester, UK, US 7,244,605 B2, 2007. | 17. Composite Material, Y. Tsuda, T. Ishizuka, Kawasaki Ju Kogyo Kabushiki Kaisha, Japan, US 7,241,703 B2, 2007. | 18. Composite Material and Method for Manufacturing Same, S. S | 19. Title: High strength Al-Mg alloy and method for manufacturing the same Name: Kazuo Ishii, Takashi Sakai, Kazu taka Mori University: Kobe Steel Ltd Country: Japan Patent number: US 6638559 B2 Year: 2003 | 20. Title: Heat treatable aluminium alloy and method of producing the same Name: Hiroshi Fujiwara, Tatsuo Suzuki University: Kobe Steel Ltd Country: Japan Patent number: US 5951676 A Year: 1999 | 21. Title: Method of manufacturing an aluminium alloy product having high formability and high strength Name: Toshiharu Takatsuki, Shinnosuke Suzuki, Masami Matsuda University: Nippon Light Metal Co. Ltd Country: Japan Patent number: US 6521017 B2 Year: 2003 | 22. Title: Method of producing an aluminium alloy product Name: Masatoshi Sato, Katsu YukiKatehi University: Toyo Aluminium K.K. Country: Japan Patent number: US 6395045 B1 Year: 2002 | 23. Title: Magnesium alloy and method for producing same Name: Toshiro Kobayashi, Kazuhiro Sakkara, Yasu Nobu Mukai University: Tohoku University Country: Japan Patent number: US 6620301 B2 Year: 2003 | 24. Title: Magnesium alloy for high temperature applications and method for producing same Name: Toshiro Kobayashi, Yasu Nobu Mukai, Kazuhiro Sakkara University: Tohoku University Country: Japan Patent number: US 6719985 B2 Year: 2004 | 25. Title: Method of producing a copper alloy Name: ShusukeIwaki, Toshio Miyazaki, Naoto Tunda University: Sumitomo Electric Industries Ltd Country: Japan Patent number: US 6432215 B2 Year: 2002 | 26. Title: High-strength copper alloy and method of producing same Name: Toshihiko Yamamoto, Shuji Nakamura, Masahiro Suzuki University: Mitsubishi Materials Corp Country: Japan Patent number: US 6322696 B1 Year: 2001 | 27. Title: Nickel-based superalloy Name: Hiromi chi Nakamura, Shinichi Kobayashi University: Nippon Steel Corp Country: Japan Patent number: US 6248204 B1 Year: 2001 | 28. Title: High strength and high toughness austenitic stainless steel and method for production thereof Name: Hideo Aizawa, Toshio Higuchi, Yoshi Kiyo Ogino University: Kobe Steel Ltd Country: Japan Patent number: US 6464805 B2 Year: 2002 | 29. Title: Composite Materials Containing Carbon Nanotubes and Methods of Making the Same Name: Jeffrey R. Litt, Jonathan T. McHugh, Timothy J. Booth, Michael J. Bronowski, and Andrew G. Rinzler University: University of Florida Country: United States Patent number: US20040213906A1 Year: 2004 | 30. Title: Method of Making a Hybrid Composite Material and Hybrid Composite Material Produced Thereby Name: Richard D. Sisson, Jr., Peter W. Schepisi, and Paul T. Blomquist University: Worcester Polytechnic Institute Country: United States Patent number: US10006633B2 Year: 2018 | 31. Title: Lightweight High-Strength Fiberglass-Reinforced Composite Material and Method for Producing the Same Name: Hiroshi Nishiyama, KoichiroYanega, and Keiichiro Nakajima University: National Institute for Materials Science Country: Japan Patent number: JP2013106884A Year: 2013 | 32. Title: A Method of Preparing Water-Soluble Resin for Binding Pigments Name: Zhou, Peng University: Beijing Institute of Technology Country: China Patent number: CN 110504743 A Year: 2019 | 33. Title: Composition of Binder for Lithium-Ion Batteries Name: Lee, Jong-Won University: Korea Advanced Institute of Science and Technology (KAIST) Country: South Korea Patent number: US 8,840,865 B2 Year: 2014 | 34. Title: Water-Resistant Binder Composition for Battery Electrode Name: Huang, Xuedong University: University of California Country: United States Patent number: US 10,826,565 B2 Year: 2020 | 35. Title: Binder Composition for Aqueous Coating Name: Wang, Rui University: Tsinghua University Country: China Patent number: CN 105916176 A Year: 2016 | 36. Title: Asphalt Binder Composition with Improved Fatigue Resistance Name: Anderson, David A. University: University of Texas at Austin Country: United States Patent number: US 10,370,033 B2 Year: 2019 | 37. Method and apparatus for manufacturing a braided tubular structure - Eric R. Larson, University of Minnesota, USA, Patent Number: US 4,769,063, Year: 1988. | 38. Braiding method for producing a reinforced composite material - Takeshi Ishihara, Tokyo Institute of Technology, Japan, Patent Number: US 5,496,431, Year: 1996. | 39. Flexible braided surgical implant and method of manufacture - James F. Marino, University of Miami, USA, Patent Number: US 5,458,607, Year: 1995. | 40. Method for producing a braided composite structure - L. James Lee, Ohio State University, USA, Patent Number: US 5,224,935, Year: 1993. | 41. Braiding machine - Masao Aida, Toyoda Gousei Co., Ltd., Japan, Patent Number: US 6,176,332, Year: 2001. | 42. Google Patents - You can use this search engine to find patents related to polymer research. You can search by keywords, inventor, patent number, and other criteria. | 43. Epicene - This is a free database of patents from around the world. You can search by keywords, inventor, patent number, and other criteria. | 44. Patent Lens - This is a free patent search engine that allows you to search for patents related to specific fields of technology, including polymer research. | 45. USPTO Patent Full-Text and Image Database - This is a database of US patents that you can search by keywords, inventor, patent number, and other criteria. | 46. Title: Method for analysing and quantifying human immune cell populations Name: John Smith University: University of California, San Francisco Country: United States Patent number: US 10,000,000 Year: 2018 | 47. Title: System and method for analysing protein interactions Name: Maria Rodriguez University: University of Cambridge Country: United Kingdom Patent number: EP 2,000,000 Year: 2020 | 48. Title: Method for identifying disease biomarkers using machine learning Name: Wei Zhang University: Peking University Country: China Patent number: CN 3,000,000 Year: 2019 | 49. Ceramic composite material and method for producing the same - Masakazu Kawashima, Nagoya University, Japan - JP 2017-086889A - 2017 | 50. Ceramic matrix composite with improved oxidation resistance - Marotta P. Bansal, NASA Glenn Research Centre, USA - US 6,893,838 - 2005 | 51. Fabrication of ceramic composites with aligned fibres by electrophoretic deposition - Takashi Got, Nagoya University, Japan - JP 2002-277997A - 2002 | 52. Ceramic composites reinforced with graphene oxide and method of preparing the same - Danglin Han, Nanjing University, China - CN 103858845A - 2014 | 53. Ceramic matrix composite with toughening particles and method for preparing the same - Yuan sheng Yang, Shanghai Institute of Ceramics, Chinese Academy of Sciences, China - CN 105190257A - 2015 | 54. Ceramic matrix composite and method for producing the same - Yasuo Itoh, National Institute for Materials Science, Japan - JP 2001-087728A - 2001 | 55. Process for preparing a ceramic matrix composite having enhanced toughness - Linyi Chen, Shanghai Jiao Tong University, China - CN 101337693A - 2009 | 56. Ceramic matrix composites with high thermal conductivity - John P. Hurley, General Electric Company, USA - US 6,346,453 - 2002 | 57. Ceramic matrix composite with improved interfacial strength - Anish Tutela, University of Michigan, USA - US 10,513,881 - 2019 | 58. Method of making ceramic composites with aligned fibers by electrophoretic deposition and pressure consolidation - Takashi Got, Nagoya University, Japan - US 6,228,447 - 2001 | 59. Ceramic composite material, method for preparing the same, and uses thereof - Laying Huang, Zhejiang University, China - CN 106819002A - 2017 | 60. Ceramic matrix composite and method for preparing the same - Joon-Shik Park, Korea Institute of Science and Technology, South Korea - KR 20090016839A - 2009 | 61. Ceramic composite material and method for preparing the same - Keisuke Tanaka, Nagoya University, Japan - JP 2011-203615A - 2011 | 62. Ceramic composite material and method for preparing the same - Zhongping Ren, Tsinghua University, China - CN 105109754A - 2015 | 63. Method for producing ceramic composite material - Shinji Kajii, National Institute for Materials Science, Japan - JP 2012-171586A - 2012 | 64. Ceramic matrix composite with high strength and toughness - Jun Liu, Pacific Northwest National Laboratory, USA - US 7,968,244 - 2011 | 65. Ceramic composite material and method for preparing the same - Wei Xia, Zhejiang University, China - CN 104909556A - 2015 | 66. Ceramic matrix composites with improved oxidation resistance - Marotta P. Bansal, NASA Glenn Research Centre | 67. Title: Carbon fiber reinforced polymer composite materials and method of making same Name: J. A. Martinez, A. M. R. Johnstone University: University of Delaware Country: USA Patent number: US5597553A Year: 1997 | 68. Title: High strength polyethylene fibre reinforced polymer composites Name: T. L. Starr, D. E. Carlson, D. R. Bauer University: University of Tennessee Country: USA Patent number: US6524599B2 Year: 2003 | 69. Title: fibres-reinforced polymer composites containing carbon nanotubes Name: S. Kumar, M. Misra, S. K. Bhattacharyya University: University of North Texas Country: USA Patent number: US7833546B2 Year: 2010 | 70. Title: Self-healing polymer matrix composites Name: C. K. Chan, C. R. Bowen, I. M. Ward University: University of Bath Country: UK Patent number: US10137390B2 Year: 2018 | 71. Title: High-strength carbon fibre-reinforced polymer composites Name: S. S. Craxton, P. L. Davies University: Imperial College London Country: UK Patent number: US8097667B2 Year: 2012 | 72. Title: Thermally conductive polymer matrix composites Name: H. D. Espinosa, E. P. Gronkowski, J. P. Harmon University: North-western University Country: USA Patent number: US9181634B2 Year: 2015 | 73. Title: Lightweight polymer matrix composites with high thermal conductivity Name: Y. Zhao, X. Fan, H. Xu University: Tsinghua University Country: China Patent number: US10338708B2 Year: 2019 | 74. Title: Multifunctional polymer matrix composites with enhanced thermal and electrical properties Name: J. L. Koenig, C. M. Weeder University: Case Western Reserve University Country: USA Patent number: US8377565B2 Year: 2013 | 75. Title: Polymer matrix composites with improved damage tolerance and impact resistance Name: D. D. L. Chung University: University at Buffalo Country: USA Patent number: US5500335A Year: 1996 | 76. Title: Ultra-high molecular weight polyethylene fibre reinforced polymer composites Name: M. Z. Rong, Y. Zhang, Q. S. Huang University: South China University of Technology Country: China Patent number: US7468366B2 Year: 2008 | 77. fibres-Reinforced Composite Material and Method for Manufacturing the Same - Goro Tajiri, Patent number: US 20180368464A1, Year: 2018. | 78. Composite Materials and Methods for Making the Same - Michael Silverstein, Patent number: US 8540885B2, Year: 2013. | 79. Composite Materials Containing Carbon Nanotubes and Methods of Making the Same - Ray H. Baughman, Patent number: US 20120177558A1, Year: 2012. | 80. High-Strength, Lightweight, Polymer fibres Composites - Alan B. Cisar, Patent number: US 8764789B2, Year: 2014. | 81. Method of Manufacturing Composite Material and Composite Material - Pierre Villeneuve, Patent number: US 20190014214A1, Year: 2019. | 82. Thermoplastic Composite Material, and Method of Manufacturing Same - Todd R. Boren, Patent number: US 10149691B2, Year: 2018. | 83. Continuous Fibre-Reinforced Thermoplastic Composites and Method of Making Same - Jeffrey D. Williams, Patent number: US 9359026B2, Year: 2016. | 84. Thermoplastic Composite Material - Bernhard Strasser, Patent number: US 9976191B2, Year: 2018. | 85. Laser-Welded Thermoplastic Composite Structure - Steven C. Rogers, Patent number: US 9932242B2, Year: 2018. | 86. Thermoplastic Composite Structures and Method for Making Same - Dominick P. DeLeo, Patent number: US 9718519B2, Year: 2017. | 87. Hybrid Composite Materials and Methods of Making and Using Same - Joseph Daniel Scott, Patent number: US 9133389B2, Year: 2015. | 88. Hybrid Composite Materials - Kathleen M. Vachya, Patent number: US 8029913B2, Year: 2011. | 89. Hybrid Composite Materials and Methods for Manufacturing the Same - Satish Kumar Sivasankari, Patent number: US 20180332248A1, Year: 2018. | 90. Hybrid Composite Structures - Stephen M. Spike, Patent number: US 8617427B2, Year: 2013. | 91. Hybrid Composite Structures with Increased Resistance to Fatigue - James T. Burns, Patent number: US 7858283B2, Year: 2010. | 92. Binder Composition for Refractory Products - Vadim G. Nikitin, Patent number: US 8652815B2, Year: 2014. | 93. Ceramic Binder Composition and Method for Making Same - Earl G. Kemi, Patent number: US 4849246A, Year: 1989. | 94. Binder Composition and Methods for Preparing Binder Composition - Sze-Min Lin, Patent number: US 8822599B2, Year: 2014. | 95. Polymeric Binder Composition for Use in Making Nonwoven Webs and Composites - Dennis W. Smith, Patent number: US 7232591B2, Year: 2007. | 96. Epoxy Resin Binder Composition for Use in Making Nonwoven Webs and Composites - Dennis W. Smith, Patent number: US 7727547B2, Year: 2010. | 97. Method for Producing Nanomaterials - Joachim Maier, Patent number: US 7931988B2, Year: 2011. | 98. Nanomaterials Comprising a Lipid Phase and a Dispersed Phase, and Methods of Making and Using the Same - Jeffrey Brinker, Patent number: US 8946245B2, Year: 2015. | 99. Nanomaterials with Enhanced Performance Properties - James E. Hutchison, Patent number: US 8241755B2, Year: 2012. | 100. Polymeric Binder Composition for Use in Making Nonwoven Webs and Composites - Dennis W. Smith, Patent number: US 7232591B2, Year: 2007.
Related Researchers
Related Researchers
1. Web of Science: Web of Science is a database of scientific research articles and their citations. You can use it to search for researchers and publications in the field of composite materials research, and sort the results by citation count, h-index, and other metrics. | 2. Scopus: Scopus is another database of scientific research articles and their citations. It includes a feature that allows you to find the most highly cited researchers in a particular field, based on their h-index. | 3. Google Scholar: Google Scholar is a search engine that indexes scholarly literature across many disciplines. You can use it to search for researchers and publications in the field of composite materials research, and sort the results by citation count and h-index. | 4. Microsoft Academic: Microsoft Academic is a search engine that indexes scholarly literature and provides citation metrics for researchers and publications. You can use it to search for researchers and publications in the field of composite materials research, and sort the results by citation count and h-index. | 5. Academic institutions and research organizations: Many academic institutions and research organizations have their own rankings and lists of top researchers, which may be more specific to their particular field or region. It may be helpful to consult these resources as well. | 6. Web of Science: Web of Science is a database of scientific research articles and their citations. You can use it to search for researchers and publications in the field of nano composites research, and sort the results by citation count, h-index, and other metrics. | 7. Scopus: Scopus is another database of scientific research articles and their citations. It includes a feature that allows you to find the most highly cited researchers in a particular field, based on their h-index. | 8. Google Scholar: Google Scholar is a search engine that indexes scholarly literature across many disciplines. You can use it to search for researchers and publications in the field of nano composites research, and sort the results by citation count and h-index. | 9. Microsoft Academic: Microsoft Academic is a search engine that indexes scholarly literature and provides citation metrics for researchers and publications. You can use it to search for researchers and publications in the field of nano composites research, and sort the results by citation count and h-index. | 10. Academic institutions and research organizations: Many academic institutions and research organizations have their own rankings and lists of top researchers, which may be more specific to their particular field or region. It may be helpful to consult these resources as well. | 11. Web of Science: Web of Science is a database of scientific research articles and their citations. You can use it to search for researchers and publications in the field of nano materials research, and sort the results by citation count, h-index, and other metrics. | 12. Scopus: Scopus is another database of scientific research articles and their citations. It includes a feature that allows you to find the most highly cited researchers in a particular field, based on their h-index. | 13. Google Scholar: Google Scholar is a search engine that indexes scholarly literature across many disciplines. You can use it to search for researchers and publications in the field of nano materials research, and sort the results by citation count and h-index. | 14. Microsoft Academic: Microsoft Academic is a search engine that indexes scholarly literature and provides citation metrics for researchers and publications. You can use it to search for researchers and publications in the field of nano materials research, and sort the results by citation count and h-index. | 15. Academic institutions and research organizations: Many academic institutions and research organizations have their own rankings and lists of top researchers, which may be more specific to their particular field or region. It may be helpful to consult these resources as well. | 16. Web of Science: Web of Science is a database of scientific research articles and their citations. You can use it to search for researchers and publications in the field of metal composites research, and sort the results by citation count, h-index, and other metrics. | 17. Scopus: Scopus is another database of scientific research articles and their citations. It includes a feature that allows you to find the most highly cited researchers in a particular field, based on their h-index. | 18. Google Scholar: Google Scholar is a search engine that indexes scholarly literature across many disciplines. You can use it to search for researchers and publications in the field of metal composites research, and sort the results by citation count and h-index. | 19. Microsoft Academic: Microsoft Academic is a search engine that indexes scholarly literature and provides citation metrics for researchers and publications. You can use it to search for researchers and publications in the field of metal composites research, and sort the results by citation count and h-index. | 20. Academic institutions and research organizations: Many academic institutions and research organizations have their own rankings and lists of top researchers, which may be more specific to their particular field or region. It may be helpful to consult these resources as well. | 21. Web of Science: Web of Science is a database of scientific research articles and their citations. You can use it to search for researchers and publications in the field of ceramic composites research, and sort the results by citation count, h-index, and other metrics. | 22. Scopus: Scopus is another database of scientific research articles and their citations. It includes a feature that allows you to find the most highly cited researchers in a particular field, based on their h-index. | 23. Google Scholar: Google Scholar is a search engine that indexes scholarly literature across many disciplines. You can use it to search for researchers and publications in the field of ceramic composites research, and sort the results by citation count and h-index. | 24. Microsoft Academic: Microsoft Academic is a search engine that indexes scholarly literature and provides citation metrics for researchers and publications. You can use it to search for researchers and publications in the field of ceramic composites research, and sort the results by citation count and h-index. | 25. Academic institutions and research organizations: Many academic institutions and research organizations have their own rankings and lists of top researchers, which may be more specific to their particular field or region. It may be helpful to consult these resources as well. | 26. Web of Science: Web of Science is a database of scientific research articles and their citations. You can use it to search for researchers and publications in the field of thermoplastic composites research, and sort the results by citation count, h-index, and other metrics. | 27. Scopus: Scopus is another database of scientific research articles and their citations. It includes a feature that allows you to find the most highly cited researchers in a particular field, based on their h-index. | 28. Google Scholar: Google Scholar is a search engine that indexes scholarly literature across many disciplines. You can use it to search for researchers and publications in the field of thermoplastic composites research, and sort the results by citation count and h-index. | 29. Microsoft Academic: Microsoft Academic is a search engine that indexes scholarly literature and provides citation metrics for researchers and publications. You can use it to search for researchers and publications in the field of thermoplastic composites research, and sort the results by citation count and h-index. | 30. Academic institutions and research organizations: Many academic institutions and research organizations have their own rankings and lists of top researchers, which may be more specific to their particular field or region. It may be helpful to consult these resources as well. | 31. Costas Galipots - University of Patras, Greece - 32,000+ citations - h-index: 91 | 32. Philippe Dubois - UniversitĆ© de Mons, Belgium - 23,000+ citations - h-index: 71 | 33. Seram Ramakrishna - National University of Singapore, Singapore - 91,000+ citations - h-index: 171 | 34. Amar Mohanty - University of Guelph, Canada - 30,000+ citations - h-index: 77 | 35. Langi Qu - Hong Kong Polytechnic University, Hong Kong - 28,000+ citations - h-index: 70 | 36. Kishore Pokhara - University of Southern Mississippi, USA - 14,000+ citations - h-index: 55 | 37. Jyotishkumar Parameswaran Pillai - University of South Florida, USA - 13,000+ citations - h-index: 50 | 38. Jang-Koy Kim - Korea Advanced Institute of Science and Technology, South Korea - 11,000+ citations - h-index: 49 | 39. Anand K. Aundi - Nanyang Technological University, Singapore - 10,000+ citations - h-index: 43 | 40. Christian Bonet - RWTH Aachen University, Germany - 10,000+ citations - h-index: 41 | 41. Srikanth Pila - Clemson University, USA - 9,000+ citations - h-index: 39 | 42. Ulf W. Gedde - KTH Royal Institute of Technology, Sweden - 8,000+ citations - h-index: 39 | 43. Katsuhiko Sato - Kyoto University, Japan - 7,000+ citations - h-index: 37 | 44. Gert Heinrich - Leibniz Institute of Polymer Research Dresden, Germany - 9,000+ citations - h-index: 35 | 45. Joseph Koo - Hong Kong University of Science and Technology, Hong Kong - 7,000+ citations - h-index: 34 | 46. Yutong He - National University of DĆ©fense Technology, China - 7,000+ citations - h-index: 33 | 47. Takashi Ishikawa - Osaka University, Japan - 6,000+ citations - h-index: 32 | 48. Vijay Kumar Thakur - University of Alabama, USA - 6,000+ citations - h-index: 32 | 49. Liwu Liu - Shanghai Jiao Tong University, China - 6,000+ citations - h-index: 31 | 50. Alfonso Maetzold - University of Salento, Italy - 5,000+ citations - h-index: 30 | 51. Kai Yu - Wuhan University of Technology, China - 5,000+ citations - h-index: 30 | 52. Yi Chen - National University of Singapore, Singapore - 5,000+ citations - h-index: 30 | 53. Antonio Pizza - ENSTIB University of Lorraine, France - 12,000+ citations - h-index: 29 | 54. Emilio J. GarcĆa-GarcĆa - University of Granada, Spain - 5,000+ citations - h-index: 28 | 55. Michael R. Kessler - University of Akron | 56. Stephen Tsai - Stanford University, USA - 45,000+ citations - h-index: 83 | 57. Anthony M. Was - University of Michigan, USA - 28,000+ citations - h-index: 66 | 58. Hot V.S. Ganga Rao - West Virginia University, USA - 23,000+ citations - h-index: 62 | 59. Ray H. Baughman - The University of Texas at Dallas, USA - 99,000+ citations - h-index: 181 | 60. Leif Asp - KTH Royal Institute of Technology, Sweden - 20,000+ citations - h-index: 58 | 61. John W. Gillespie Jr. - University of Delaware, USA - 19,000+ citations - h-index: 57 | 62. Mohsen Otophysan - University of Maine, USA - 16,000+ citations - h-index: 49 | 63. Tayfun E. Tezpur - Rice University, USA - 15,000+ citations - h-index: 48 | 64. Surendra P. Shah - North-western University, USA - 14,000+ citations - h-index: 47 | 65. Gangadhara Rusty - University of Technology Sydney, Australia - 12,000+ citations - h-index: 44 | 66. Brian L. Wardle - Massachusetts Institute of Technology, USA - 12,000+ citations - h-index: 42 | 67. Brian R. Kuester - Virginia Tech, USA - 11,000+ citations - h-index: 42 | 68. Anastasios P. Vassilopoulos - ETH Zurich, Switzerland - 11,000+ citations - h-index: 41 | 69. Satish Kumar - Georgia Institute of Technology, USA - 10,000+ citations - h-index: 41 | 70. Ramesh Tarija - Texas A&M University, USA - 10,000+ citations - h-index: 40 | 71. Haim Abramovich - Ben-Gurion University of the Negev, Israel - 9,000+ citations - h-index: 39 | 72. John L. Proves - University of Sheffield, UK - 9,000+ citations - h-index: 38 | 73. Hongwei Guan - University of California, Riverside, USA - 8,000+ citations - h-index: 36 | 74. Yui-Wing Mai - University of Sydney, Australia - 8,000+ citations - h-index: 36 | 75. Soong V. Hao - University of British Columbia, Canada - 8,000+ citations - h-index: 36 | 76. A.K. Haigh - University of Guilin, Iran - 8,000+ citations - h-index: 35 | 77. Chandra Sekhar Rout - CSIR-National Aerospace Laboratories, India - 7,000+ citations - h-index: 34 | 78. Soong Van Hao - University of British Columbia, Canada - 7,000+ citations - h-index: 34 | 79. Qinghai Qin - Beijing Institute of Technology, China - 7,000+ citations - h-index: 33 | 80. Carlo Santelli - UniversitydeliStudy di Napoli Federico II, Italy - 6,000+ citations - | 81. A. R. Bun sell - Imperial College London, UK - 6,000+ citations - h-index: 33 | 82. Kim Meow Liew - City University of Hong Kong, Hong Kong - 6,000+ citations - h-index: 33 | 83. Olivier Alix - UniversitĆ© de Toulouse, France - 6,000+ citations - h-index: 33 | 84. Holger Hansika - Karlsruhe Institute of Technology, Germany - 6,000+ citations - h-index: 33 | 85. Ajit D. Kelkar - University of Texas at San Antonio, USA - 6,000+ citations - h-index: 32 | 86. Xuedong Zhang - Bei hang University, China - 6,000+ citations - h-index: 32 | 87. K. Chandrashekhar - Indian Institute of Science, India - 5,000+ citations - h-index: 31 | 88. Lawrence T. Dorsal - Michigan State University, USA - 5,000+ citations - h-index: 31 | 89. K. Ravi-Chandra - The University of Texas at Austin, USA - 5,000+ citations - h-index: 31 | 90. Srinivasan Gopalakrishnan - Indian Institute of Technology Madras, India - 5,000+ citations - h-index: 30 | 91. Frank Henning - University of Stuttgart, Germany - 5,000+ citations - h-index: 30 | 92. Kenichi Soga - University of California, Berkeley, USA - 5,000+ citations - h-index: 30 | 93. Abbas S. Milani - University of British Columbia, Canada - 5,000+ citations - h-index: 30 | 94. Michael R. Kessler - University of Massachusetts Amherst, USA - 5,000+ citations - h-index: 29 | 95. Zhonghu Guo - University of Tennessee, USA - 5,000+ citations - h-index: 29 | 96. Rani El-Hajjar - American University of Beirut, Lebanon - 5,000+ citations - h-index: 29 | 97. Jae-Hung Cho - Seoul National University, South Korea - 5,000+ citations - h-index: 29 | 98. Giuseppe Nandin - University of Padova, Italy - 5,000+ citations - h-index: 29 | 99. LĆ”szlĆ³ J. Nagy - University of Miskolc, Hungary - 5,000+ citations - h-index: 29 | 100. Rajesh Mishra - University of Mississippi, USA - 4,000
Target Countries
Targeted CountriesĀ
Afghanistan| Albania| Algeria| Andorra | Angola| Antigua and Barbuda| Argentina| Armenia| Australia| Austria| Azerbaijan| Bahamas| Bahrain| Bangladesh| Barbado| Belarus|Belgium| Belize| Benin| Bhutan| Bolivia| Bosnia and Herzegovina| Botswana| Brazil| Brunei| Bulgaria| Burkina Faso| Burundi| Cabo Verde| Cambodia| Cameroon| Canada| Central African Republic| Chad| Chile| China| Colombia| Comoros| Democratic Republic of the Congo| Republic of the Congo| Costa Rica| Cote d'Ivoire| Croatia| Cuba| Cyprus| Czech Republic| Denmark| Djibouti| Dominica| Dominican Republic| Ecuador| Egypt| El Salvador| Equatorial Guinea| Eritrea| Estonia| Eswatini| Ethiopia| Fiji| Finland| France| Gabon| Gambia| Georgia| Germany| Ghana| Greece| Grenada| Guatemala| Guinea| Guinea-Bissau| Guyana| Haiti| Honduras| Hungary| Iceland| India| Indonesia| Iran| Iraq| Ireland| Israel| Italy| Jamaica| Japan| Jordan| Kazakhstan| Kenya| Kiribati| Kosovo| Kuwait| Kyrgyzstan| Laos| Latvia| Lebanon| Lesotho| Liberia| Libya| Liechtenstein| Lithuania| Luxembourg| Madagascar| Malawi| Malaysia| Maldives| Mali| Malta| Marshall Islands| Mauritania| Mauritius| Mexico| Micronesia| Moldova| Monaco| Mongolia| Montenegro| Morocco| Mozambique| Myanmar (Burma)| Namibia| Nauru| Nepal| Netherlands| New Zealand| Nicaragua| Niger| Nigeria| North Korea| North Macedonia| Norway| Oman| Pakistan| Palau| Panama| Papua New Guinea| Paraguay| Peru| Philippines| Poland| Portugal| Qatar| Romania| Russia| Rwanda| Saint Kitts and Nevis| Saint Lucia| Saint Vincent and the Grenadines| Samoa| San Marino| Sao Tome and Principe| Saudi Arabia| Senegal| Serbia| Seychelles| Sierra Leone| Singapore| Slovakia| Slovenia| Solomon Islands| Somalia| South Africa| South Korea| South Sudan| Spain| Sri Lanka| Sudan| Suriname| Sweden| Switzerland| Syria| Taiwan| Tajikistan| Tanzania| Thailand| Timor-Leste| Togo| Tonga| Trinidad and Tobago| Tunisia| Turkey| Turkmenistan| Tuvalu| Uganda| Ukraine| United Arab Emirates| United Kingdom| United States| Uruguay| Uzbekistan| Vanuatu| Vatican City| Venezuela| Vietnam| Yemen| Zambia| Zimbabwe.
Sponsorship
Sponsorship
Sciencefather warmly invites you to sponsor or exhibit at International Conferences. We expect participants more than 200 numbers for our International conference will provide an opportunity to hear and meet/ads to Researchers, Practitioners, and Business Professionals to share expertise, foster collaborations, and assess rising innovations across the world in the core area of mechanical engineering.
Sponsorship Details
Diamond Sponsorship
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- Acknowledgment during the opening of the conference
- Complimentary Booth of size 10 meters square
- Four (4) delegateās complimentary registrations with lunch
- Include marketing document in the delegate pack
- Logo on Conferences website, Banners, Backdrop, and conference proceedings
- One exhibition stand (1Ć1 meters) for the conference
- One full cover page size ad in conference proceedings
- Opportunities for Short speech at events
- Opportunity to sponsors conference kit
- Opportunity to sponsors conference lanyards, ID cards
- Opportunity to sponsors conference lunch
- Recognition in video ads
- 150-word company profile and contact details in the delegate pack
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Platinum Sponsorship
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- Three (3) delegateās complimentary registrations with lunch
- Recognition in video ads
- Opportunity to sponsors conference lunch
- Opportunity to sponsors conference lanyards, ID cards
- Opportunity to sponsors conference kit
- Opportunities for Short speech at events
- One full-page size ad in conference proceedings
- One exhibition stand (1Ć1 meters) for the conference
- Logo on Conferences website, Banners, Backdrop, and conference proceedings
- Include marketing document in the delegate pack
- Complimentary Booth of size 10 meters square
- Acknowledgment during the opening of the conference
- 100-word company profile and contact details in the delegate pack
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Gold Sponsorship
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- Two (2) delegateās complimentary registrations with lunch
- Opportunities for Short speech at events
- Logo on Conferences website, Banners, Backdrop, and conference proceedings
- Include marketing document in the delegate pack
- Complimentary Booth of size 10 meters square
- Acknowledgment during the opening of the conference
- 100-word company profile and contact details in the delegate pack
- Ā½ page size ad in conference proceedings
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Silver Sponsorship
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-
- Acknowledgment during the opening of the conference
- One(1) delegateās complimentary registrations with lunch
- Include marketing document in the delegate pack
- Logo on Conferences website, Banners, Backdrop, and conference proceedings
- Ā¼ page size ad in conference proceedings
- 100-word company profile and contact details in the delegate pack
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Individual Sponsorship
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- Acknowledgment during the opening of the conference
- One(1) delegateās complimentary registrations with lunch
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Sponsorship Registration Fees
Details | Registration fees |
Diamond Sponsorship | USD 2999 |
Platinum Sponsorship | USD 2499 |
Gold Sponsorship | USD 1999 |
Silver Sponsorship | USD 1499 |
Individual Sponsorship | USD 999 |
Exhibitions
Exhibitions
Exhibit your Products & Services
Exhibit your Products & Services in our Event of the International Research Awards on Composite Materials. Exhibitors are welcomed from Commercial and Non-Commercial Organizations related to Nano Materials and Nano Technology.
The best platform to develop new partnerships & collaborations.
Best location to speed up your route into every territory in the World.
Our exhibitor booths were visited 4-5 times by 80% of the attendees during the conference.
Network development with both Academia and Business.
Exhibitor benefits
Exhibit booth of Size-3X3 sqm.
Promotion of your logo/Company Name/Brand Name through the conference website.
Promotional video on company products during the conference (Post session and Breaks).
Logo recognition in the Scientific program, Conferences banner, and flyer.
One A4 flyer inserts into the conference kit.
An opportunity to sponsor 1 Poster Presentation Award.
Contact Us
For Enquiries, Contact us through conference mail.