M
Ming Lv
Researcher at Taiyuan University of Technology
Publications - 59
Citations - 328
Ming Lv is an academic researcher from Taiyuan University of Technology. The author has contributed to research in topics: Honing & Machining. The author has an hindex of 7, co-authored 59 publications receiving 216 citations.
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Molecular dynamics research on ultra-high-speed grinding mechanism of monocrystalline nickel
TL;DR: In this paper, molecular dynamics modeling, calculation and analysis of the grinding process of monocrystalline nickel at various speeds and depths was conducted via molecular dynamics via simulations, and the formation mechanism of chips was revealed and the relationship between the subsurface defects and tangential forces after the processing of the monocrystaline nickel was indentified.
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Effects of TiC content and melt phase on microstructure and mechanical properties of ternary TiB2-based ceramic cutting tool materials
TL;DR: In this article, the effect of TiC content, (Mo,Ni) and Co on microstructure and mechanical properties of the ternary TiB 2 -WC-TiC ceramic composites was presented.
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Fabrication and tribological properties of WC-TiB2 composite cutting tool materials under dry sliding condition
Cheng Zhang,Jinpeng Song,Jiang Longkai,Jiaojiao Gao,Guoxing Liang,Cao Lei,Juncai Xie,Shiying Wang,Ming Lv +8 more
TL;DR: In this paper, the microstructure, mechanical properties and tribological properties of WC-TiB 2 composites sliding against 201 stainless steel were investigated, and they showed that with increasing TiB 2 content from 10-to 30-wt, the relative density and mechanical properties increased, and the defects in the micro-structure decreased.
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Strengthening and toughening of TiN-based and TiB2-based ceramic tool materials with HfC additive
Jinpeng Song,Jiang Longkai,Guoxing Liang,Jiaojiao Gao,An Jing,Lei Cao,Juncai Xie,Shiying Wang,Ming Lv +8 more
TL;DR: In this article, the effects of HfC addition on the microstructures and mechanical properties of TiN-based and TiB 2-based ceramic tool materials have been investigated.
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Study of subsurface damage of monocrystalline nickel in nanometric grinding with spherical abrasive grain
TL;DR: In this article, molecular dynamics is used to analyze monocrystalline nickel by spherical abrasive grinding and the effects of different grinding speeds, different grinding depths and different sizes of abrasive grains on subsurface defects are compared.