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Researcher
- Ilias Belharouak
- Sheng Dai
- Tomonori Saito
- Amit K Naskar
- Craig A Bridges
- Diana E Hun
- Edgar Lara-Curzio
- Jeffrey C Foster
- Logan T Kearney
- Meghan E Lamm
- Michael M Kirka
- Michelle K Kidder
- Peeyush Nandwana
- Rangasayee Kannan
- Ryan R Dehoff
- Syed Z Islam
- Amit Shyam
- Beth L Armstrong
- Brian K Post
- Corson L. Cramer
- Frederic Vautard
- Guang Yang
- Jesse Heineman
- Marm B Dixit
- Mary K Danielson
- Maxim A Ziatdinov
- Michael D Toomey
- Michelle Lehmann
- Parans Paranthaman
- Ramesh R Bhave
- Sergei V Kalinin
- Soydan Ozcan
- Steven E Bullock
- Umesh N MARATHE
- Yongtao Liu
- Adam G Stevens
- Adam W Willoughby
- Ahmed Arabi Hassen
- Alex C Roschli
- Alexey Serov
- Alex J Plotkowski
- Ali Abouimrane
- Amir K Ziabari
- Andrés E Márquez Rossy
- Anees M Al Najjar
- Anisur Rahman
- Anna M Mills
- Anthony J Aldykiewicz Jr
- Benjamin L Doughty
- Bishnu Prasad Thapaliya
- Bo Shen
- Brandon A Wilson
- Brandon S Johnston
- Brian C Sales
- Brian T Gibson
- Bruce A Moyer
- Bryan Lim
- Bryan P Maldonado
- Charles S Hawkins
- Christopher J Janke
- Christopher Ledford
- Christopher M Rouleau
- Costas Tsouris
- David S Parker
- Eric A Wolfe
- Ethan C Self
- Felix L Paulauskas
- Gabriel M Veith
- Georges Chahine
- Glenn R Romanoski
- Gurneesh S Jatana
- Gyoung Gug Jang
- Halil L Tekinalp
- Holly E Hinton
- Isaiah T Dishner
- Ivan V Vlassiouk
- J.R. R Matheson
- James W Klett
- Jaswinder Sharma
- Jayanthi Kumar
- Jiho Seo
- John T Potter
- Josh K Michener
- Joshua E Vaughan
- Justin West
- Kai Li
- Karen P Cortes Guzman
- Kevin M Roccapriore
- Khryslyn G Araño
- Kuma U Sumathipala
- Kyle P Kelley
- Lawrence M Anovitz
- Liangyu Qian
- Marie Romedenne
- Matt Korey
- Mengjia Tang
- Mikael M Salonvaara
- Nageswara S Rao
- Natasha B Ghezawi
- N Dianne B Ezell
- Nicholas E Gregorich
- Nidia C Gallego
- Nihal S Kanbargi
- Olga S Ovchinnikova
- Paritosh S Mhatre
- Peter L Wang
- Philip Bingham
- Philip R Boudreaux
- Radu Custelcean
- Rama K Vasudevan
- Rebecca A Mills
- Rishi R Pillai
- Ritin Mathews
- Rob G Moore II
- Roger G Miller
- Santanu Roy
- Sarah M Graham
- Sargun Singh Rohewal
- Saurabh Prakash Pethe
- Singanallur V Venkatakrishnan
- Sudarsanam Babu
- Tao Wang
- Tolga Aytug
- Tomas Grejtak
- Trevor G Aguirre
- Uday K Vaidya
- Uvi I Premadasa
- Vera Bocharova
- Vincent C Paquit
- Vipin Kumar
- Vlastimil Kunc
- William G Carter
- William H Peter
- Xiang Lyu
- Yingzhong Ma
- Yiyu Wang
- Yukinori Yamamoto
- Zhenzhen Yang
- Zoriana Demchuk
A new family of singly phase solid solution alloys with high mixing entropy, (High Entropy Alloys, HEAs) is discovered.
There is a need for ferritic (Fe-based) steels that possess superior corrosion resistance while maintaining excellent hardness that is especially desired under high wear applications.
The new and herein described silicon-containing epoxy molding compound (Si-EMC) will possess a unique combination of having high thermal diffusivity, electrically insulative character, and low cost. Epoxy materials are inherently poor thermal conductors by themselves, so
This invention relates, in general, to the manufacture of carbon fibers and their composites materials.
This invention relates, in general, to the manufacture of carbon fibers and their composites materials.
The proposed invention uses inoculants to minimize, or eliminate, solidification undercooling of Sn and Sn-based solders in order to refine the microstructure and improve the mechanical properties of the solder joints.
Mesoporous carbon materials lack sufficient ordering at the atomic scale to exhibit good conductivity properties and good thermal stability.
Successful, economically feasible thermomechanical processing of rare earth free magnesium alloys has been accomplished by a novel rolling method.
The present invention comprises an alloy formulation for castings yielding superior high temperature oxidation and creep resistance in a range of energy production and chemical processing applications. Of particular interest are cast turbine and engine components.
The present invention comprises an alternative to conventional stabilization methods (functionalization methods) to chemically crosslink polyolefin-based carbon precursors. This method will help to reduce inter-filament bonding or fusion in carbonized fibers.