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Fabrication of in-situ TiC–TiB2 reinforced Al foam with enhanced properties
Journal of Alloys and Compounds
◽
10.1016/j.jallcom.2020.153969
◽
2020
◽
Vol 825
◽
pp. 153969
Author(s):
Xuguang An
◽
Ying Liu
◽
Jinwen Ye
◽
Xun Li
Keyword(s):
Al Foam
◽
Enhanced Properties
◽
In Situ Tic
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In-situ hybrid Cr3C2 and γ′-Ni3(Al, Cr) strengthened Ni matrix composites: Microstructure and enhanced properties
Materials Science and Engineering A
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10.1016/j.msea.2021.141524
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2021
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Author(s):
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Zhenying Huang
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Xue Li
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Keyword(s):
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Enhanced Properties
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Tribological Behavior of In Situ TiC/Graphene/Graphite/Ti6Al4V Matrix Composite Through Laser Cladding
Acta Metallurgica Sinica (English Letters)
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10.1007/s40195-021-01215-3
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2021
◽
Author(s):
Zhanyong Zhao
◽
Lizheng Zhang
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Peikang Bai
◽
Wenbo Du
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Shaowei Wang
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...
Keyword(s):
Matrix Composite
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Laser Cladding
◽
Tribological Behavior
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In Situ Tic
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Microstructural evolution, mechanical properties and wear behavior of in-situ TiC-reinforced Ti matrix composite coating by induction cladding
Surface and Coatings Technology
◽
10.1016/j.surfcoat.2021.127048
◽
2021
◽
Vol 412
◽
pp. 127048
Author(s):
Min Wei
◽
Helong Yu
◽
Zhanyong Song
◽
Yanli Yin
◽
Xinyuan Zhou
◽
...
Keyword(s):
Mechanical Properties
◽
Composite Coating
◽
Matrix Composite
◽
Microstructural Evolution
◽
Wear Behavior
◽
In Situ Tic
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Preparation of in situ TiC@TiN core–shell and Ti2N–Al4C3 nanoparticles and their effects on Al–Zn–Mg–Cu alloy
Journal of Materials Science
◽
10.1007/s10853-021-06385-0
◽
2021
◽
Author(s):
Yuhang Xia
◽
Chunxiang Cui
◽
Binghao Han
◽
Hongtao Geng
◽
Lu Liu
Keyword(s):
Core Shell
◽
Cu Alloy
◽
In Situ Tic
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Effect of in situ TiC reinforcement and applied load on the high-stress abrasive wear behaviour of zinc–aluminum alloy
Wear
◽
10.1016/j.wear.2021.204082
◽
2021
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pp. 204082
Author(s):
Mohammad Mohsin Khan
◽
Mehak Nisar
Keyword(s):
Aluminum Alloy
◽
Abrasive Wear
◽
Applied Load
◽
High Stress
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Wear Behaviour
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Abrasive Wear Behaviour
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In Situ Tic
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Microstructure and mechanical properties of in-situ TiC reinforced FeCoNiCu2.0 high entropy alloy matrix composites
Materials Science and Engineering A
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10.1016/j.msea.2021.141671
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2021
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pp. 141671
Author(s):
Jifeng Zhang
◽
Ting Jia
◽
Heguo Zhu
◽
Zonghan Xie
Keyword(s):
Mechanical Properties
◽
High Entropy Alloy
◽
Matrix Composites
◽
Alloy Matrix
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High Entropy
◽
Microstructure And Mechanical Properties
◽
In Situ Tic
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Microstructure and texture evolution during the manufacturing of in situ TiC-NiCr cermet through selective laser melting process
Materials Characterization
◽
10.1016/j.matchar.2021.111289
◽
2021
◽
pp. 111289
Author(s):
Atefeh Aramian
◽
Zohreh Sadeghian
◽
Di Wan
◽
Yaroslav Holovenko
◽
Seyed Mohammad Javad Razavi
◽
...
Keyword(s):
Selective Laser Melting
◽
Texture Evolution
◽
Melting Process
◽
Laser Melting
◽
Selective Laser Melting Process
◽
In Situ Tic
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In Situ TiC Particle-Reinforced FeCoCrNiCu High Entropy Alloy Matrix Composites by Induction Smelting
Transactions of the Indian Institute of Metals
◽
10.1007/s12666-020-02135-z
◽
2021
◽
Author(s):
Haojie Wang
◽
Zhiyi Wu
◽
Hao Wu
◽
Heguo Zhu
◽
Wencheng Tang
Keyword(s):
High Entropy Alloy
◽
Matrix Composites
◽
Alloy Matrix
◽
High Entropy
◽
Tic Particle
◽
In Situ Tic
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Revealing the role of micron-sized in situ TiC particles on tensile properties and fracture mechanism of martensitic wear-resistant steel at elevated temperature
Materials Science and Engineering A
◽
10.1016/j.msea.2021.142503
◽
2021
◽
pp. 142503
Author(s):
Chengru Li
◽
Xiaolin Li
◽
Xiangtao Deng
◽
Zhaodong Wang
Keyword(s):
Elevated Temperature
◽
Tensile Properties
◽
Fracture Mechanism
◽
Resistant Steel
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Wear Resistant
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In Situ Tic
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In-situ TiC particles strengthen and ductilize Fe1.2MnNi0.8Cr high entropy alloy
Intermetallics
◽
10.1016/j.intermet.2021.107398
◽
2022
◽
Vol 140
◽
pp. 107398
Author(s):
Chenmeng Zhao
◽
Heguo Zhu
◽
Zonghan Xie
Keyword(s):
High Entropy Alloy
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High Entropy
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In Situ Tic
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