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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
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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)
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY (2024): 234-251
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)
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