Simulation of metal cutting using a physically based plasticity model

Svoboda A.; Wedberg D.; Lindgren L.-E.

首页> 外文期刊>Modelling and simulation in materials science and engineering >Simulation of metal cutting using a physically based plasticity model

【24h】

Simulation of metal cutting using a physically based plasticity model

机译：使用基于物理的可塑性模型模拟金属切削

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Metal cutting is one of the most common metal shaping processes. Specified geometrical and surface properties are obtained by break-up of the material removed by the cutting edge into a chip. The chip formation is associated with a large strain, high strain rate and a locally high temperature due to adiabatic heating which make the modelling of cutting processes difficult. This study compares a physically based plasticity model and the Johnson-Cook model. The latter is commonly used for high strain rate applications. Both material models are implemented into the finite element software MSC.Marc and compared with cutting experiments. The deformation behaviour of SANMAC 316L stainless steel during an orthogonal cutting process is studied.

机译：金属切削是最常见的金属成型工艺之一。通过将由切削刃去除的材料打碎成碎片，可以获得指定的几何和表面特性。由于绝热加热，切屑的形成与大应变，高应变速率和局部高温有关，这使得切削过程难以建模。这项研究比较了基于物理的可塑性模型和Johnson-Cook模型。后者通常用于高应变率应用。两种材料模型都在有限元软件MSC.Marc中实现，并与切削实验进行了比较。研究了SANMAC 316L不锈钢在正交切削过程中的变形行为。

著录项

来源
《Modelling and simulation in materials science and engineering》 |2010年第7期|共19页
作者
Svoboda A.; Wedberg D.; Lindgren L.-E.;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
入库时间 2022-08-18 11:51:51

相似文献

外文文献
中文文献
专利

1. Simulation of metal cutting using a physically based plasticity model [J] . Svoboda A., Wedberg D., Lindgren L.-E. Modelling and simulation in materials science and engineering . 2010,第7期

机译：使用基于物理的可塑性模型模拟金属切削
2. A physically based model of temperature and strain rate dependent yield in BCC metals: Implementation into crystal plasticity [J] . Hojun Lim, Corbett C. Battaile, Jay D. Carroll, Journal of the Mechanics and Physics of Solids . 2015,第jana期

机译：BCC金属中取决于温度和应变率的屈服的物理模型：实现晶体可塑性
3. A unified physically based crystal plasticity model for FCC metals over a wide range of temperatures and strain rates [J] . Haiming Zhang, Xianghuai Dong, Dapeng Du, Materials Science and Engineering . 2013,第MARa1期

机译：统一的基于物理的FCC金属在广泛的温度和应变速率下的晶体塑性模型
4. A Texture Component Crystal Plasticity Finite Element Method for Physically-Based Metal Forming Simulations Including Texture Update [C] . Dierk Raabe, Franz Roters, Zisu Zhao 8th International Conference on Aluminium Alloys 2002: Their Physical and Mechanical Properties Pt.1 ICAA8, Jul 2-5, 2002, Cambridge, UK . 2002

机译：用于包括纹理更新在内的基于物理的金属成形模拟的纹理成分晶体可塑性有限元方法
5. A Quantized Crystal Plasticity Model for Nanocrystalline Metals: Connecting Atomistic Simulations and Physical Experiments. [D] . Li, Lin. 2011

机译：纳米晶体金属的定量晶体可塑性模型：连接原子模拟和物理实验。
6. Simulation of Ti-6Al-4V Additive Manufacturing Using Coupled Physically Based Flow Stress and Metallurgical Model [O] . Bijish Babu, Andreas Lundbäck, Lars-Erik Lindgren 2019

机译：基于物理流动应力和冶金模型耦合的Ti-6Al-4V增材制造仿真
7. Simulation of metal cutting using the particle finite-element method and a physically based plasticity model [O] . 2017

机译：使用粒子有限元法和基于物理的可塑性模型模拟金属切削

Simulation of metal cutting using a physically based plasticity model

摘要

著录项

相似文献

相关主题

期刊订阅