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MAJOR RESEARCH AREAS
Advanced metallic alloys: metallic glasses and high-entropy alloys
In situ, under load, high-temperature computed tomography: Ceramic-matrix composites (SiC-SiC), nuclear graphite
Nature-inspired structural materials
Mechanical behavior of hard mineralized tissue: bone, teeth;
High-cycle fatigue of turbine engine alloys: Ti-6Al-4V; Ni-base alloys; grain-boundary engineering;
Fatigue and fracture of ceramic and intermetallic materials: Toughening mechanisms in monolithic and composite materials (e.g., SiC, gamma-TiAl); layered structures; mechanisms of fatigue-crack propagation at ambient to elevated temperatures; role of microstructure;
Ceramic/metal interfaces: Fracture mechanics of bimaterial interfaces; strength and toughness of interfaces; interfacial subcritical crack growth; crack path considerations;
Damage-tolerance and life prediction in biomedical implants: Fracture and fatigue properties of metallic and pyrolytic carbon materials for stents and prosthetic heart valve devices;
Fracture and fatigue of silicon films for MEMS devices: Micro- and nano-scale fatigue testing; protective coatings;
Mechanical propertites of carbon nanotubes
Fracture and fatigue in shape-memory alloys and bulk amorphous metals
Advanced metallic alloys: metallic glasses and high-entropy alloys
In situ, under load, high-temperature computed tomography: Ceramic-matrix composites (SiC-SiC), nuclear graphite
Nature-inspired structural materials
Mechanical behavior of hard mineralized tissue: bone, teeth;
High-cycle fatigue of turbine engine alloys: Ti-6Al-4V; Ni-base alloys; grain-boundary engineering;
Fatigue and fracture of ceramic and intermetallic materials: Toughening mechanisms in monolithic and composite materials (e.g., SiC, gamma-TiAl); layered structures; mechanisms of fatigue-crack propagation at ambient to elevated temperatures; role of microstructure;
Ceramic/metal interfaces: Fracture mechanics of bimaterial interfaces; strength and toughness of interfaces; interfacial subcritical crack growth; crack path considerations;
Damage-tolerance and life prediction in biomedical implants: Fracture and fatigue properties of metallic and pyrolytic carbon materials for stents and prosthetic heart valve devices;
Fracture and fatigue of silicon films for MEMS devices: Micro- and nano-scale fatigue testing; protective coatings;
Mechanical propertites of carbon nanotubes
Fracture and fatigue in shape-memory alloys and bulk amorphous metals
研究兴趣
论文共 1027 篇作者统计合作学者相似作者
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PHYSICAL REVIEW MATERIALSno. 1 (2024)
Louis G. Malito, Behrouz Haghgouyan, Matthew L. Bowers, Alfred Rosen, Behnam Amin-Ahmadi, Scott W. Robertson,Robert O. Ritchie
International Journal of Fatigue (2024): 108208
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY (2024): 63-71
Nature Communicationsno. 1 (2024): 1-9
Acta Materialia (2024): 119415-119415
Boyuan Feng, Jiaming Zhong, Yunchen Fu,Wen Yang,Zezhou Li,Jiawei Bao,Yangwei Wang, Huamin Zhou,Robert O. Ritchie, Xudong Liang,Wei Huang
crossref(2024)
ACTA MATERIALIA (2024)
Xiancheng Zhang, Yong Zhang,Chenyun He, Qin Yu, Xiao Li,Xiaogang Wang, Ji Wang,Chao Jiang,Yunfei Jia, Binhan Sun,Robert Ritchie,Shan-Tung Tu
crossref(2024)
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY (2024): 234-251
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