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Dr. Neu's research involves the understanding and prediction of the fatigue behavior of materials and closely related topics, typically when the material must resist degradation and failure in harsh environments. Specifically, he has published in areas involving thermomechanical fatigue, fretting fatigue, creep and environmental effects, viscoplastic deformation and damage development, and related constitutive and finite-element modeling with a particular emphasis on the role of the materials microstructure on the physical deformation and degradation processes. He has investigated a broad range of structural materials including steels, titanium alloys, nickel-base superalloys, metal matrix composites, molybdenum alloys, high entropy alloys, medical device materials, and solder alloys used in electronic packaging. His research has widespread applications in aerospace, surface transportation, power generation, machinery components, medical devices, and electronic packaging. His work involves the prediction of the long-term reliability of components operating in extreme environments such as the hot section of a gas turbine system for propulsion or energy generation. His research is funded by some of these industries as well as government funding agencies.
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论文共 162 篇作者统计合作学者相似作者
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FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURESno. 4 (2024): 1395-1416
WEAR (2023): 204844-204844
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The minerals, metals & materials seriespp.571-591, (2023)
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FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURESno. 4 (2023): 1554-1571
Zachary B. Towner, Kyle V. Smith,Sachin Shinde,Santosh B. Narasimhachary,Richard W. Neu,Christopher L. Muhlstein,Ashok Saxena
ASTM International eBookspp.63-82, (2023)
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Richard W. Neu, Alexander N. Caputo,Sanam Gorgannejad, Alvaro Espejo Albela, Michael N. Carpenter,Chuchu Zhang, Aman H. Tanna, Brett Peloke, Maxime Defay,James G. Collins,James C. Sobotka, Carl F. Popelar,
Mechanics of Materials (2022): 104459
FATIGUE & FRACTURE OF ENGINEERING MATERIALS & STRUCTURESno. 7 (2022): 1981-1994
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