Ding‐Bang Xiong
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View article: High strength and plasticity in disordered multilayer graphene reinforced copper composites
High strength and plasticity in disordered multilayer graphene reinforced copper composites Open
View article: Spatiotemporal Thermal Analysis of Large-Volume Concrete Girders: Distributed Fiber Sensing and Hydration Heat Simulation
Spatiotemporal Thermal Analysis of Large-Volume Concrete Girders: Distributed Fiber Sensing and Hydration Heat Simulation Open
To investigate the spatiotemporal distribution of early-age hydration heat-induced temperature fields, this study integrates distributed fiber optic sensing (DFOS) technology with a thermal parameter finite element model (FEM). First, a hi…
View article: Study on the Macro-Micro Mechanical Behavior of Freeze-Thaw Fissured Sandstone Under Uniaxial Compression
Study on the Macro-Micro Mechanical Behavior of Freeze-Thaw Fissured Sandstone Under Uniaxial Compression Open
View article: Research on the Application of UHPC in Steel-Concrete Composite Bridge Decks
Research on the Application of UHPC in Steel-Concrete Composite Bridge Decks Open
The high strength and toughness of ultra-high performance concrete (UHPC) show excellent performance in the steel-concrete composite bridge deck. This paper mainly discusses the application of UHPC in steel-concrete composite bridge deck. …
View article: Toward strength-ductility synergy in trimodal grain structured metal composites by actively tuning coarse domains
Toward strength-ductility synergy in trimodal grain structured metal composites by actively tuning coarse domains Open
Trimodal grain structure was effective to balance the strength-ductility trade-off in ultrafine-grained metals, but the relationship between microstructures and mechanical performance is unclear. Here the dimension of coarse grain (CG) dom…
View article: Fracture toughness of graphene/aluminum nanolaminated composites
Fracture toughness of graphene/aluminum nanolaminated composites Open
View article: Employment of Intragranular Reaction to Enhance Dispersion Strengthening Through Dispersoid Proliferation in Al Matrix Composite
Employment of Intragranular Reaction to Enhance Dispersion Strengthening Through Dispersoid Proliferation in Al Matrix Composite Open
View article: Simultaneously enhanced strength and ductility in graphene nanosheet/Al-Cu-Mg nano-laminated composites by incorporating coarse domains
Simultaneously enhanced strength and ductility in graphene nanosheet/Al-Cu-Mg nano-laminated composites by incorporating coarse domains Open
A heterogeneous structure by designing soft/hard domains with dramatically different strengths is effective to maintain the high ductility of metals but it sacrifices the yield strength. Here we first demonstrate a simultaneous enhancement…
View article: Trimodal grain structure enables high-strength CNT/Al-Cu-Mg composites higher ductility by powder assembly & alloying
Trimodal grain structure enables high-strength CNT/Al-Cu-Mg composites higher ductility by powder assembly & alloying Open
A grain structure tailoring strategy was implemented by powder assembly & alloying in carbon nanotube reinforced Al-Cu-Mg composites. Tensile tests revealed that composites with trimodal grain structure had an outstanding combination of st…
View article: Graphene interlayer for enhanced interface thermal conductance in metal matrix composites: An approach beyond surface metallization and matrix alloying
Graphene interlayer for enhanced interface thermal conductance in metal matrix composites: An approach beyond surface metallization and matrix alloying Open
View article: Graphene Interlayer for Much Enhanced Interface Thermal Conductance in Metal Matrix Composites: An Approach Beyond Surface Metallization and Matrix Alloying
Graphene Interlayer for Much Enhanced Interface Thermal Conductance in Metal Matrix Composites: An Approach Beyond Surface Metallization and Matrix Alloying Open
View article: Uniform Spherical Graphene/Monocrystal-Copper Powder Fabricated by the Low Wettability of Liquid/Solid Interface
Uniform Spherical Graphene/Monocrystal-Copper Powder Fabricated by the Low Wettability of Liquid/Solid Interface Open
Uniform spherical graphene/monocrystal-copper powder is fabricated by melting bulk laminated composite. Graphene, in the form of reduced graphene oxide (rGO), is uniformly dispersed on the surface of monocrystal Cu particle. A mechanism is…
View article: Composite structural modeling and tensile mechanical behavior of graphene reinforced metal matrix composites
Composite structural modeling and tensile mechanical behavior of graphene reinforced metal matrix composites Open
View article: Back stress in strain hardening of carbon nanotube/aluminum composites
Back stress in strain hardening of carbon nanotube/aluminum composites Open
As demonstrated by the loading–unloading tests and the modeling of the grain size effect and the composite effect, mainly owing to the back stress induced by CNTs, carbon nanotube/aluminum (CNT/Al) composites exhibit higher strain hardenin…
View article: Grain boundary-assisted deformation in graphene–Al nanolaminated composite micro-pillars
Grain boundary-assisted deformation in graphene–Al nanolaminated composite micro-pillars Open
Micro-pillars with diameters varying from 0.5 to 3.5 µm were fabricated from bulk nanolaminated graphene (in the form of reduced grapheme oxide, RGO)–Al composite. Upon uniaxial compression, the pillar strengths exhibited no obvious size e…
View article: High content reduced graphene oxide reinforced copper with a bioinspired nano-laminated structure and large recoverable deformation ability
High content reduced graphene oxide reinforced copper with a bioinspired nano-laminated structure and large recoverable deformation ability Open
View article: Biomimetic and Bioinspired Photonic Structures
Biomimetic and Bioinspired Photonic Structures Open
View article: Hybridized Phosphate with Ultrathin Nanoslices and Single Crystal Microplatelets for High Performance Supercapacitors
Hybridized Phosphate with Ultrathin Nanoslices and Single Crystal Microplatelets for High Performance Supercapacitors Open
View article: A Versatile Method for Uniform Dispersion of Nanocarbons in Metal Matrix Based on Electrostatic Interactions
A Versatile Method for Uniform Dispersion of Nanocarbons in Metal Matrix Based on Electrostatic Interactions Open