Search Results - "Kang, L.M."

Bimodal titanium alloys with ultrafine lamellar eutectic structure fabricated by semi-solid sintering by Yang, C., Kang, L.M., Li, X.X., Zhang, W.W., Zhang, D.T., Fu, Z.Q., Li, Y.Y., Zhang, L.C., Lavernia, E.J.

“…We report on a novel approach to synthesize (Ti100-x-yFexCoy)82Nb12.2Al5.8 (at.%) bimodal alloys and provide fundamental insight into their underlying…”
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High-strength silicon brass manufactured by selective laser melting by Yang, C., Zhao, Y.J., Kang, L.M., Li, D.D., Zhang, W.W., Zhang, L.C.

“…•It is the first time silicon brass is fabricated successfully by SLM technique.•The SLM-produced silicon brass has a relatively high density of 98.8%.•Its…”
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Designing ultrafine lamellar eutectic structure in bimodal titanium alloys by semi-solid sintering by Kang, L.M., Yang, C., Wang, F., Li, X.X., Zhu, D.Z., Zhang, W.W., Chen, W.P., Huan, Y.

“…We report on a novel approach to design typical ultrafine lamellar eutectic structure in bimodal alloys fabricated by semi-solid sintering (SSS) of a eutectic…”
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Bimodal eutectic titanium alloys: Microstructure evolution, mechanical behavior and strengthening mechanism by Kang, L.M., Yang, C., Zhao, Y.J., Li, X.X., Qu, S.G., Zhang, W.W., Long, Y., Xiao, Z.Y.

“…We report a novel microstructure evolution and corresponding mechanical behavior of bimodal eutectic (Ti63.5Fe26.5Co10)82Nb12.2Al5.8 alloys processed by…”
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Changes of carbon and nitrogen nutrition during growth of ginger by Xu, K, Kang, L.M, Zheng, Y.Q, Su, H

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Bimorphic microstructure in Ti-6Al-4V alloy manipulated by spark plasma sintering and in-situ press forging by Kang, L.M., Cai, Y.J., Luo, X.C., Li, Z.J., Liu, X.B., Wang, Z., Li, Y.Y., Yang, C.

“…We report on a methodology of powder sintering and in-situ press forging, which can be used to manipulate a new bimorphic microstructure in Ti-6Al-4V alloy…”
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Nitric oxide stimulates embryonic somatotroph differentiation and growth hormone mRNA and protein expression through a cyclic guanosine monophosphate-independent mechanism by Chen, H.P, Zhang, L, Xu, B.H, Kang, L.M, Yang, S.L, Zeng, H.H, Shi, X.Y

“…Abstract In the pituitary gland, NO is locally synthesized by gonadotroph and folliculo-stellate cells. Many reports have shown that NO can modulate the growth…”
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Enhancing mechanical properties of AZ61 magnesium alloy via friction stir processing: Effect of processing parameters by Luo, X.C., Kang, L.M., Liu, H.L., Li, Z.J., Liu, Y.F., Zhang, D.T., Chen, D.L.

“…The purpose of this study was to modify the microstructure and mechanical properties of AZ61 cast magnesium alloy via solid-state friction stir processing…”
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Balanced strength-ductility combination and good recoverable strain of Ni50.7Ti49.3 alloy fabricated by high scanning velocity in selective laser melting by Cai, W.S., Luo, Y., Yan, A., Kang, L.M., Zhang, L.C., Suryanarayana, C., Yang, C.

“…Optimizing of process parameters such as high laser power combined with high scanning velocity during selective laser melting (SLM) caters to the demand of…”
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Tailoring phase transformation behavior, microstructure, and superelasticity of NiTi shape memory alloys by specific change of laser power in selective laser melting by Lu, H.Z., Ma, H.W., Yang, Y., Cai, W.S., Luo, X., Yan, A., Kang, L.M., Yin, S., Yang, C.

“…In this study, NiTi shape memory alloys (SMAs) were fabricated by selective laser melting (SLM), and it is found that specific change of laser power (from 55 W…”
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Designing shell-layer-core architecture in Ti-based composites to achieve enhanced strength and plasticity by Chen, T., Yao, Y.G., Cai, W.S., Kang, L.M., Ke, H.B., Wen, H.M., Wang, W.H., Yang, C.

“…•Fabricating Ti-based composites with multimodal shell-layer-core microstructure.•Achieving high compressive yielding strength of 1614 MPa with large 38.6%…”
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Circumventing the strength–ductility trade-off of β-type titanium alloys by defect engineering during laser powder bed fusion by Luo, X., Li, D.D., Yang, C., Gebert, A., Lu, H.Z., Song, T., Ma, H.W., Kang, L.M., Long, Y., Li, Y.Y.

“…In this study, we propose a novel defect engineering strategy for circumventing the strength–ductility trade-off of a β-type Ti–35Nb–7Zr–5Ta alloy and discuss…”
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Revealing dehydrogenation effect and resultant densification mechanism during pressureless sintering of TiH2 powder by Chen, T., Yang, C., Liu, Z., Ma, H.W., Kang, L.M., Wang, Z., Zhang, W.W., Li, D.D., Li, N., Li, Y.Y.

“…The use of TiH2 powder as a sintering precursor can produce nearly full-density titanium and titanium alloys with good mechanical properties. Unfortunately,…”
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Achieving isotropic microstructure in an additively manufactured Ti-6Al-4V alloy enabled by dual laser processing by Kang, L.M., Xu, S.Q., Bai, Y.K., Qiu, Y.F., Pang, X., Zheng, J.M., Luo, X.C., Liu, H.L., Xian, B.C., Yang, C.

“…With the development of science and technology and the popularization of intelligent manufacturing, laser additive manufacturing of titanium alloys is being…”
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Improvement in tensile plasticity of pressureless-sintered TiBw/Ti composites by evading Kirkendall's pore by Yang, C., Wang, J.C., Kang, L.M., Chen, T., Zhang, W.W., Liu, L.H., Li, Y.Y.

“…Room-temperature brittleness of pressureless sintered (PLS) titanium matrix composites is always a bottleneck for their engineering application. Herein, we…”
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Deformation induced precipitation of MgZn2-type laves phase in Ti-Fe-Co alloy by Kang, L.M., Yang, C., Wang, F., Qu, S.G., Li, X.Q., Zhang, W.W.

“…Generally, the formation of Laves phase precipitates is induced by heat treatment, and deformation-induced precipitation of these phases has not been reported…”
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Equiaxed Ti-based composites with high strength and large plasticity prepared by sintering and crystallizing amorphous powder by Liu, L.H., Yang, C., Kang, L.M., Long, Y., Xiao, Z.Y., Li, P.J., Zhang, L.C.

“…High-performance titanium alloys with an equiaxed composite microstructure were achieved by sintering and crystallizing amorphous powder. By introducing a…”
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Influence of discharge plasma modification on physical properties and resultant densification mechanism of spherical titanium powder by Liu, Z., Yang, C., Chen, T., Cai, W.S., Liu, L.H., Kang, L.M., Wang, Z., Li, X.Q., Zhang, W.W., Li, Y.Y.

“…During powder sintering, it is widely accepted that the three unfavorable features, i.e., closed-pore hollow powder, satellite powder, and low excess free…”
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Microstructure and mechanical properties of TiNbFeCoAl alloys prepared by semi-solid sintering assisted by thermo-mechanical field by Kang, L.M., Pang, X., Tan, H.G., Qiu, Y.F., Liu, H.L., Luo, X.C., Li, Z.J., Yang, C.

“…In this study, the semi-solid sintering of TiNbFeCoAl amorphous powder was carried out by hot isostatic pressing (HIP) and spark plasma sintering (SPS), both…”
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Enhanced thermal cycle stability and shape memory effect in NiTiHf shape memory alloys fabricated by laser powder bed fusion by Ma, H.W., Lu, H.Z., Kang, L.M., Cai, W.S., Chen, Y.C., Sittner, P., Yang, C.

“…We report on the fabrication of NiTiHf high temperature shape memory alloys (SMAs) via laser powder bed fusion (LPBF), which are almost free of micro-pores and…”
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