报告问题（中文）：盘算工具增进质料开发
报告问题（英文）：Accelerating Materials Development by the Aid of Computational Tools
报告人姓名：Shuanglin chen and Fan Zhang
报告人单位(中文)：美国 CompuTherm 公司
报告时间：2014-05-29 09:00
报告所在：延伸校区质料学院日新楼410室

 

报告内容简介：The mission of Materials Genome Initiative (MGI) is to reduce the cost and development time of materials discovery, optimization, and deployment. Traditional trial-and-error-based experimental approach to screen potential candidates for a desired new application is very expensive and time-consuming. This is largely because the task of designing a new material is extremely complex, involving many factors that must be balanced. A few percent change in composition or slight modification in manufacturing processes can alter critical qualities significantly, while the investigation of all possible variations of the composition and manufacturing processes of such alloys would be prohibitively expensive due to the involvement of numerous tests of these properties. Computational materials by design has emerged as an effective approach for accelerating materials design and process optimization.

报告人简介(中文)：陈双林，，，美国 CompuTherm 公司副总裁，，，首席专家，，，8188cc威尼斯兼职教授
。。。。。。 CompuTherm, a spin-off company from University of Wisconsin-Madison, has been developing computational thermodynamics and kinetics simulation tools based on the CALPHAD approach since 1996. The Pandat software package and thermodynamic databases developed at CompuTherm are currently being used by hundreds of users worldwide. Especially, CompuTherm’s modeling tools are now being used by the US Air Force, NASA, aerospace industries including GE, P&W, and Rolls-Royce, and automobile industries, such as GM and Ford. The use of these modeling tools has resulted in shorter development cycles and significant cost savings through the elimination of shop/laboratory trials and tests.