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LI Shufeng
LI Shufeng
在 xaut.edu.cn 的电子邮件经过验证
标题
引用次数
引用次数
年份
Length effect of carbon nanotubes on the strengthening mechanisms in metal matrix composites
B Chen, J Shen, X Ye, L Jia, S Li, J Umeda, M Takahashi, K Kondoh
Acta Materialia 140, 317-325, 2017
4052017
Load transfer strengthening in carbon nanotubes reinforced metal matrix composites via in-situ tensile tests
B Chen, S Li, H Imai, L Jia, J Umeda, M Takahashi, K Kondoh
Composites Science and Technology 113, 1-8, 2015
2682015
Powder metallurgy titanium metal matrix composites reinforced with carbon nanotubes and graphite
S Li, B Sun, H Imai, T Mimoto, K Kondoh
Composites Part A: Applied Science and Manufacturing 48, 57-66, 2013
2552013
Role of melt pool boundary condition in determining the mechanical properties of selective laser melting AlSi10Mg alloy
ZH Xiong, SL Liu, SF Li, Y Shi, YF Yang, RDK Misra
Materials Science and Engineering: A 740, 148-156, 2019
2502019
Strengthening behavior of in situ-synthesized (TiC–TiB)/Ti composites by powder metallurgy and hot extrusion
S Li, K Kondoh, H Imai, B Chen, L Jia, J Umeda, Y Fu
Materials & Design 95, 127-132, 2016
2062016
An approach for homogeneous carbon nanotube dispersion in Al matrix composites
B Chen, S Li, H Imai, L Jia, J Umeda, M Takahashi, K Kondoh
Materials & Design 72, 1-8, 2015
1812015
Powder metallurgy Ti–TiC metal matrix composites prepared by in situ reactive processing of Ti-VGCFs system
S Li, B Sun, H Imai, K Kondoh
Carbon 61, 216-228, 2013
1782013
Microstructure and mechanical properties of P/M titanium matrix composites reinforced by in-situ synthesized TiC–TiB
LI Shufeng, K Kondoh, H Imai, B Chen, L Jia, J Umeda
Materials Science and Engineering: A 628, 75-83, 2015
1412015
Fabrication of high-strength Ti materials by in-process solid solution strengthening of oxygen via P/M methods
B Sun, S Li, H Imai, T Mimoto, J Umeda, K Kondoh
Materials Science and Engineering: A 563, 95-100, 2013
1402013
In Situ Synthesized Al4C3 Nanorods with Excellent Strengthening Effect in Aluminum Matrix Composites.
B Chen, L Jia, S Li, H Imai, M Takahashi, K Kondoh
Advanced Engineering Materials 16 (8), 2014
1212014
Characteristics and machinability of lead-free P/M Cu60–Zn40 brass alloys dispersed with graphite
H Imai, Y Kosaka, A Kojima, S Li, K Kondoh, J Umeda, H Atsumi
Powder Technology 198 (3), 417-421, 2010
1012010
Regulation of interface between carbon nanotubes-aluminum and its strengthening effect in CNTs reinforced aluminum matrix nanocomposites
X Zhang, S Li, B Pan, D Pan, L Liu, X Hou, M Chu, K Kondoh, M Zhao
Carbon 155, 686-696, 2019
872019
Microstructure and synergistic-strengthening efficiency of CNTs-SiCp dual-nano reinforcements in aluminum matrix composites
X Zhang, S Li, D Pan, B Pan, K Kondoh
Composites Part A: Applied Science and Manufacturing 105, 87-96, 2018
852018
Carbon nanotube induced microstructural characteristics in powder metallurgy Al matrix composites and their effects on mechanical and conductive properties
B Chen, S Li, H Imai, L Jia, J Umeda, M Takahashi, K Kondoh
Journal of Alloys and Compounds 651, 608-615, 2015
742015
A novel strengthening effect of in-situ nano Al2O3w on CNTs reinforced aluminum matrix nanocomposites and the matched strengthening mechanisms
X Zhang, S Li, B Pan, D Pan, S Zhou, S Yang, L Jia, K Kondoh
Journal of Alloys and Compounds 764, 279-288, 2018
732018
Improved mechanical properties in titanium matrix composites reinforced with quasi-continuously networked graphene nanosheets and in-situ formed carbides
Q Yan, B Chen, L Cao, KY Liu, S Li, L Jia, K Kondoh, JS Li
Journal of Materials Science & Technology 96, 85-93, 2022
712022
Interfacial in-situ Al2O3 nanoparticles enhance load transfer in carbon nanotube (CNT)-reinforced aluminum matrix composites
B Chen, K Kondoh, J Umeda, S Li, L Jia, J Li
Journal of Alloys and Compounds 789, 25-29, 2019
682019
High-strength, lead-free machinable α–β duplex phase brass Cu–40Zn–Cr–Fe–Sn–Bi alloys
H Atsumi, H Imai, S Li, K Kondoh, Y Kousaka, A Kojima
Materials Science and Engineering: A 529, 275-281, 2011
612011
Comparison study on microstructure and mechanical properties of Ti-6Al-4V alloys fabricated by powder-based selective-laser-melting and sintering methods
Q Yan, B Chen, N Kang, X Lin, S Lv, K Kondoh, S Li, JS Li
Materials Characterization 164, 110358, 2020
602020
Size effect of B4C powders on metallurgical reaction and resulting tensile properties of Ti matrix composites by in-situ reaction from Ti–B4C system under a relatively low …
L Jia, S Li, H Imai, B Chen, K Kondoh
Materials Science and Engineering: A 614, 129-135, 2014
602014
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