首页> 外文会议>38th North American manufacturing research conference >ENERGY-BASED MODELING OF AN ELECTRICALLY-ASSISTED FORGING PROCESS

【24h】

ENERGY-BASED MODELING OF AN ELECTRICALLY-ASSISTED FORGING PROCESS

机译：电辅助锻造过程的基于能量的建模

获取原文

获取原文并翻译 | 示例

页面导航

摘要
著录项
相似文献
相关主题

摘要

A new approach to improving formability of metals using electrical current field application has been recently studied, and found to not only greatly improve achievable elongation, but also has a beneficial effect on residual stress levels and reduces elastic springback magnitude. The effect has been shown to be somewhat attributable to thermal softening, but there are also unaccounted electrical effects. This paper presents a formal quantification of the electrical field effect using an energy balance approach. A physical model incorporating the electrical field and mechanical energy input is derived, and a new electroplastic effect coefficient is introduced to account for the direct contribution of the current on material flow. The derived model is compared against experimental results and predicts the electroplastic behavior.

机译：最近研究了一种使用电流场施加来改善金属的可成形性的新方法，发现该方法不仅可以大大改善可达到的伸长率，而且对残余应力水平具有有益的作用并降低了弹性回弹量。已经显示出该效果在某种程度上归因于热软化，但是也存在未解释的电效应。本文介绍了使用能量平衡方法对电场效应的形式化量化。推导了一个包含电场和机械能输入的物理模型，并引入了新的电效应系数，以说明电流对材料流的直接贡献。将导出的模型与实验结果进行比较，并预测其塑性行为。

著录项

来源
《38th North American manufacturing research conference 》|2010年|p.647-654|共8页
会议地点 Kingston(CA);Kingston(CA)
作者
Cristina Bunget; Wesley A. Salandro; Laine Mears;
展开▼
作者单位

International Center for Automotive Research Clemson University Greenville, SC;

International Center for Automotive Research Clemson University Greenville, SC;

International Center for Automotive Research Clemson University Greenville, SC;

展开▼
会议组织
原文格式 PDF
正文语种 eng
中图分类机械制造工艺 ;
关键词
Energy Field Manufacturing; Energy Method; Deformation;

机译：能源领域制造；能量法形变;

相似文献

外文文献
中文文献
专利

1. Electrically-Assisted Manufacturing for Reduction in Forging Forces of Bearing Steels [J] . Christopher D. Lang, C.R. Hasbrouck, Austin S. Hankey, Procedia Manufacturing . 2020 ,第186期

机译：电气辅助制造，用于减少轴承钢的锻造力
2. Microstructural prediction of ferrite-pearlitic microalloyed steel in controlled forging - process modeling in controlled forging I [J] . Hiroaki Yoshida, Sachihiro Isogawa, Yoshinori Kaneko, 塑性と加工 . 2002 ,第498期

机译：受控锻造过程中铁素体-珠光体微合金钢的组织预测-受控锻造过程模型I
3. Microstructural prediction of ferrite-pearlitic microalloyed steel in controlled forging - process modeling in controlled forging I [J] . Hiroaki Yoshida, Sachihiro Isogawa, Yoshinori Kaneko, 塑性と加工 . 2002 ,第498期

机译：控制锻造中的铁素体 - 珠光体微合金钢的微观结构预测 - 控制锻造I
4. ENERGY-BASED MODELING OF AN ELECTRICALLY-ASSISTED FORGING PROCESS [C] . Cristina Bunget, Wesley A. Salandro, Laine Mears North American Manufacturing Research Institution of theSociety of Manufacturing Engineers Conference . 2010

机译：基于能量的电气辅助锻造过程建模
5. Thermo-mechanical modeling of the electrically-assisted manufacturing (EAM) technique during open die forging [D] . Salandro, Wesley A. 2012

机译：开模锻造期间电辅助制造（EAM）技术的热机械建模
6. Forging property processing map and mesoscale microstructural evolution modeling of a Ti-17 alloy with a lamellar (α+β) starting microstructure [O] . Hiroaki Matsumoto, Daiki Naito, Kento Miyoshi, 2017

机译：具有片状（α+β）起始组织的Ti-17合金的锻造性能加工图和中尺度组织演变建模
7. Hot Forging Process of Artificial Hip Joint Made of Ni-free Co-29Cr-6Mo-0.12NAlloy by Means of Intelligent Hot Forging Processing Method [O] . Emi ONODERA, Shingo KUROSU, Yunping LI, 2010

机译：通过智能热锻处理方法，由Ni-F-29Cr-6MO-0.12Nalloy制成的人造髋关节的热锻造工艺

ENERGY-BASED MODELING OF AN ELECTRICALLY-ASSISTED FORGING PROCESS

摘要

著录项

相似文献

相关主题

期刊订阅