Q
Qiang Guo
Researcher at Shanghai Jiao Tong University
Publications - 263
Citations - 6706
Qiang Guo is an academic researcher from Shanghai Jiao Tong University. The author has contributed to research in topics: Chemistry & Computer science. The author has an hindex of 35, co-authored 129 publications receiving 3992 citations. Previous affiliations of Qiang Guo include Massachusetts Institute of Technology & California Institute of Technology.
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Enhanced Mechanical Properties of Graphene (Reduced Graphene Oxide)/Aluminum Composites with a Bioinspired Nanolaminated Structure
TL;DR: Bulk graphene (reduced graphene oxide)-reinforced Al matrix composites with a bioinspired nanolaminated microstructure with significantly improved stiffness and tensile strength, and a similar or even slightly higher total elongation were shown.
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Matching glass-forming ability with the density of the amorphous phase.
TL;DR: In this paper, systematic deflection measurements using microcantilevers and a combinatorial deposition method show a correlation between glass-forming ability and the density change upon crystallization over a broad compositional range in the copper-zirconium binary system.
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Graphene-and-Copper Artificial Nacre Fabricated by a Preform Impregnation Process: Bioinspired Strategy for Strengthening-Toughening of Metal Matrix Composite.
TL;DR: The RGrO-and-Cu artificial nacres exhibited simultaneous enhancement on yield strength and ductility as well as increased modulus, attributed to R GrO strengthening, effective crack deflection and a possible combined failure mode of RGr O.
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Aligning graphene in bulk copper: Nacre-inspired nanolaminated architecture coupled with in-situ processing for enhanced mechanical properties and high electrical conductivity
Mu Cao,Ding-Bang Xiong,Zhan Qiu Tan,Gang Ji,Behnam Amin-Ahmadi,Qiang Guo,Genlian Fan,Cuiping Guo,Zhiqiang Li,Di Zhang +9 more
TL;DR: In this article, a bio-inspired nanolaminated architecture was used to enhance the efficiencies of two-dimensional (2D) graphene in mechanical strengthening and electrical conducting by aligning graphene to maximize performance for required loading and carrier transporting conditions.
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Balanced strength and ductility in CNT/Al composites achieved by flake powder metallurgy via shift-speed ball milling
Run Xu,Zhanqiu Tan,Ding-Bang Xiong,Genlian Fan,Qiang Guo,Jie Zhang,Yishi Su,Zhiqiang Li,Di Zhang +8 more
TL;DR: In this article, a shift-speed ball milling (SSBM) was proposed to combine the mechanisms of low-speed and high-speed Ball Milling (LSBM and HSBM) for carbon nanotube (CNT)-reinforced, strong and ductile aluminum composites.