Search Results - "Cai, H.N."

Uniform dispersion of multi-layer graphene reinforced pure titanium matrix composites via flake powder metallurgy by Mu, X.N., Cai, H.N., Zhang, H.M., Fan, Q.B., Wang, F.C., Zhang, Z.H., Wu, Y., Ge, Y.X., Chang, S., Shi, R., Zhou, Y., Wang, D.D.

“…In this study, a micro-laminated structure of titanium matrix composite with uniformly dowel-like and aligned multi-layer graphene (MLG) was fabricated by…”
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Size effect of flake Ti powders on the mechanical properties in graphene nanoflakes/Ti fabricated by flake powder metallurgy by Mu, X.N., Cai, H.N., Zhang, H.M., Fan, Q.B., Wang, F.C., Cheng, X.W., Zhang, Z.H., Li, J.B., Jiao, X.L., Ge, Y.X., Chang, S., Liu, L., Liu, Y.N.

“…The effect of the size of the flake Ti powders on fabricating graphene nanoflakes (GNFs)/Ti composites were investigated in this work. By this, the flake Ti…”
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Localized amorphism after high-strain-rate deformation in TWIP steel by Li, N., Wang, Y.D., Lin Peng, R., Sun, X., Liaw, P.K., Wu, G.L., Wang, L., Cai, H.N.

“…The microstructural features of shear localization, generated by a high-strain-rate deformation (∼105s−1), of a twinning-induced plasticity (TWIP) steel…”
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Effect of loading rate on failure in Zr-based bulk metallic glass by Xue, Y.F., Cai, H.N., Wang, L., Wang, F.C., Zhang, H.F.

“…The uniaxial compressive behavior of Zr 38Ti 17Cu 10.5Co 12Be 22.5 bulk metallic glass was investigated over a wide strain rate range between 10 −4 and 10 2 s…”
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Fracture surface morphology of Mg-based bulk metallic glass and composite during quasi-static and dynamic compressive deformation by Li, J.Q., Wang, L., Cheng, H.W., Zhang, H.F., Hu, Z.Q., Cai, H.N.

“…The different fracture features developed during quasi-static and dynamic compressive deformation of Mg-based bulk metallic glass and composite reinforced by…”
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Microstructure evolution and superior tensile properties of low content graphene nanoplatelets reinforced pure Ti matrix composites by Mu, X.N., Zhang, H.M., Cai, H.N., Fan, Q.B., Zhang, Z.H., Wu, Y., Fu, Z.J., Yu, D.H.

“…Titanium matrix composites with the discontinuous reinforcement of graphene nanoplatelets (GNPs) were produced by powder metallurgy and subsequent hot-rolling…”
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Interface evolution and superior tensile properties of multi-layer graphene reinforced pure Ti matrix composite by Mu, X.N., Cai, H.N., Zhang, H.M., Fan, Q.B., Zhang, Z.H., Wu, Y., Ge, Y.X., Wang, D.D.

“…The interfacial structure and mechanical properties of multi-layer graphene (MLG)/pure Ti composites produced by spark plasma sintering (SPS) and subsequent…”
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Uniform dispersion and interface analysis of nickel coated graphene nanoflakes/ pure titanium matrix composites by Mu, X.N., Cai, H.N., Zhang, H.M., Fan, Q.B., Wang, F.C., Zhang, Z.H., Ge, Y.X., Shi, R., Wu, Y., Wang, Z., Wang, D.D., Chang, S.

“…An increasing number of reports have demonstrated enormous strength enhancements in titanium matrix composites (TiMCs) reinforced with graphene nanoflakes…”
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Novel high-entropy alloys with high-density ε-D019 and abnormal phase transformation by Xia, G.H., Ma, Z.L., Xu, Z.Q., Wang, M., Cheng, X.W., Cai, H.N.

“…Precipitation strengthening is considered to be one of the most effective ways to improve engineering structural materials. However, introducing high-density…”
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The role of interfacial reaction on the dynamic mechanical response in graphene nano-flake/Ti composites by Mu, X.N., Cai, H.N., Zhang, H.M., Fan, Q.B., Cheng, X.W., Wang, F.C., Zhang, Z.H., Ge, Y.X., Chang, S., Liu, Y.N., Liu, L., Duan, H.Q.

“…For the purpose of relating microscopic interface characteristics to macroscopic dynamic properties in carbon/metal nano-composites, the graphene nano-flakes…”
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Enhancement of La addition on glass forming ability and thermal stability of Al 85 Ni 7 Er 8−x La x ( x = 0–4) glassy alloys by Yin, J.M., Cai, H.N., Cheng, X.W., Xue, Y.F., Zhang, X.Q., Xu, Z.Q.

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Enhancement of La addition on glass forming ability and thermal stability of Al85Ni7Er8−xLax (x=0–4) glassy alloys by Yin, J.M., Cai, H.N., Cheng, X.W., Xue, Y.F., Zhang, X.Q., Xu, Z.Q.

“…We optimized the alloy compositions by adding La content in the Al85Ni7Er8−xLax (x=0, 1, 2, 3, 4) alloys to improve the glass forming ability (GFA) and thermal…”
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On the tungsten single crystal coatings achieved by chemical vapor transportation deposition by Shi, J.Q., Shen, Y.B., Yao, S.Y., Zhang, P.J., Zhou, Q., Guo, Y.Z., Tan, C.W., Yu, X.D., Nie, Z.H., Ma, H.L., Cai, H.N.

“…The tungsten single crystal has many excellent properties, namely a high melting point, high anti-creeping strength. Chemical vapor transportation deposition…”
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Microstructures of chemical vapor deposited high-purity tungsten achieved by two different precursors by Shi, J.Q., Yao, S.Y., Wang, F., Yu, X.D., Huang, H.T., Tan, C.W., Nie, Z.H., Ma, H.L., Cai, H.N.

“…Chemical vapor deposited (CVD) high-purity tungsten can be manufactured as electron emitters in thermionic fuel elements. Exposed surface planes of the emitter…”
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Dynamic compressive deformation and failure behavior of Zr-based metallic glass reinforced porous tungsten composite by Xue, Y.F., Cai, H.N., Wang, L., Wang, F.C., Zhang, H.F.

“…The dynamic compressive deformation and fracture behavior of the Zr-based metallic glass reinforced porous tungsten composite were investigated at room…”
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Role of {10–12} twinning and detwinning in the shock-hardening behavior of rolled Mg–3Al–1Zn alloy by Zhang, F., Hao, M., Wang, F.C., Tan, C.W., Yu, X.D., Ma, H.L., Cai, H.N.

“…Mg–3Al–1Zn alloy was subjected to shock loading along the rolling direction, and shock-deformed materials were reloaded. The reload yield stress was…”
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Deformation and failure behavior of a hydrostatically extruded Zr38Ti17Cu10.5Co12Be22.5 bulk metallic glass/porous tungsten phase composite under dynamic compression by XUE, Y. F, CAI, H. N, WANG, L, WANG, F. C, ZHANG, H. F, HU, Z. Q

“…Hydrostatic extrusion of a Zr38Ti17Cu10.5CO12Be22.5 bulk metallic glass/porous tungsten phase composite was performed, and the dynamic compressive deformation…”
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Synthesis and compressive deformation of rapidly solidified magnesium alloy and composites reinforced by SiC p by Li, J.Q., Wang, L., Cheng, H.W., Zhang, H.F., Hu, Z.Q., Cai, H.N.

“…In this paper, rapidly solidified magnesium–aluminum (AZ91HP) alloy and magnesium alloy matrix composites reinforced by SiC p were prepared successfully by the…”
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Deformation and failure behavior of a hydrostatically extruded Zr 38Ti 17Cu 10.5Co 12Be 22.5 bulk metallic glass/porous tungsten phase composite under dynamic compression by Xue, Y.F., Cai, H.N., Wang, L., Wang, F.C., Zhang, H.F., Hu, Z.Q.

“…Hydrostatic extrusion of a Zr 38Ti 17Cu 10.5Co 12Be 22.5 bulk metallic glass/porous tungsten phase composite was performed, and the dynamic compressive…”
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Synthesis and compressive deformation of rapidly solidified magnesium alloy and composites reinforced by SiCp by Li, J.Q., Wang, L., Cheng, H.W., Zhang, H.F., Hu, Z.Q., Cai, H.N.

“…In this paper, rapidly solidified magnesium-aluminum (AZ91HP) alloy and magnesium alloy matrix composites reinforced by SiCp were prepared successfully by the…”
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