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Deformation in Mono-crystalline Silicon Caused by High Speed Single-Point Micro-cutting

机译：高速单点微切割在单晶硅中引起的形变

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This paper investigates the deformation in monocrystalline silicon subjected to singlepoint cutting with the cutting speed up to 46.78 m/s, the depth of cut of 2 μm, and the feed rate of 5 and 30 μm/rev. Raman spectroscopy and transmission electron microscopy were used to characterize the subsurface damages. It was found that the increase of either the feed rate or cutting speed increases the thickness of amorphous layer and penetration depth of dislocations. At the feed rate of 30 μm/rev and cutting speed of 12.48 m/s, a new dislocation system was initiated. An unknown peak was detected by Raman spectroscopy, which may indicate an unknown Si phase.

机译：本文研究了单点切割时单晶硅的变形，其切割速度高达46.78 m / s，切割深度为2μm，进给速度为5和30μm/ rev。拉曼光谱和透射电子显微镜被用来表征地下损伤。发现进给速度或切削速度的增加都会增加非晶层的厚度和位错的穿透深度。在进给速度为30μm/ rev和切割速度为12.48 m / s的情况下，启动了新的位错系统。通过拉曼光谱法检测到未知峰，其可能指示未知Si相。

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来源
《Progress of machining technology》|2009年|347-350|共4页
会议地点 Kunming(CN);Kunming(CN)
作者
A.Q.Biddut; J.Yan; L.C.Zhang; T.Ohta; T.Kuriyagawa; B.Shaun;
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作者单位

School of Aerospace, Mechanical and Mechatronic Engineering, The University of Sydney,Australia;

Department of Nanomechanics, Graduate School of Engineering, Tohoku University, Japan;

School of Aerospace, Mechanical and Mechatronic Engineering, The University of Sydney,Australia;

Mitsubishi Electric Corporations, Japan;

Department of Nanomechanics, Graduate School of Engineering, Tohoku University, Japan;

The Electron Microscope Unit, The University of Sydney, NSW 2006, Australia;

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会议组织
原文格式 PDF
正文语种 eng
中图分类金属加工、机械工业;
关键词
Silicon; single-point; nano-cutting; high speed; deformation; phase transformation; dislocation.;

机译：硅；单点；纳米切割；高速；变形；相变；位错;

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专利

1. Deformation in Mono-crystalline Silicon Caused by High Speed Single-Point Micro-cutting [J] . A.Q. Biddut, J. Yan, L.C. Zhang, Key Engineering Materials . 2009,第期

机译：高速单点微切割在单晶硅中引起的形变
2. Requirements for Ductile-mode Machining Based on Deformation Analysis of Mono-crystalline Silicon by Molecular Dynamics Simulation [J] . H. Tanaka, S. Shimada, L. Anthony CIRP Annals . 2007,第1期

机译：基于单晶硅变形分析的分子动力学模拟对延性模加工的要求
3. Towards a deeper understanding of plastic deformation in mono-crystalline silicon [J] . Liangchi Zhang, Irena Zarudi International Journal of Mechanical Sciences . 2001,第9期

机译：深入了解单晶硅中的塑性变形
4. Deformation in Mono-crystalline Silicon Caused by High Speed Single-Point Micro-cutting [C] . A.Q.Biddut, J.Yan, L.C.Zhang, International conference on progress of machining technology . 2009

机译：高速单点微切割引起单晶硅的变形
5. Deformation State of Aluminum-6% Silicon Alloy (319 Aluminum) Subjected to Orthogonal Cutting at Different Speeds and Feed Rates. [D] . Pratibha, Shilpi. 2010

机译：铝-6％硅合金（319铝）在不同速度和进给速率下的正交切削变形状态。
6. Investigation on an Innovative Method for High-Speed Low-Damage Micro-Cutting of CFRP Composites with Diamond Dicing Blades [O] . Zewei Yuan, Jintao Hu, Quan Wen, 2018

机译：金刚石切粒刀对CFRP复合材料高速低损伤微切削的创新方法研究
7. Erosion evolution in mono-crystalline silicon surfaces caused by acoustic cavitation bubbles [O] . David Fernandez Rivas, Joris Betjes, Bram Verhaagen, 2013

机译：声学空化气泡引起的单晶硅表面的侵蚀演变

Deformation in Mono-crystalline Silicon Caused by High Speed Single-Point Micro-cutting

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