研究生名师讲堂——美国肯塔基大学杨福前教授的学术报告的通知

2019-06-10          阅读：3次

       应工程技术学院王志乔副教授的邀请，美国肯塔基大学杨福前教授来我校进行学术交流，并做学术报告。

题目：Indentation Deformation of Thin Films

时间：2019年6月11日16:00-18:00

地点：探工楼708

摘要：

Surface damage and interfacial failure may deteriorate the performance of multilayer systems and limit the reliability of devices. Knowledge of the mechanical properties of multilayer structures is critical to design and fabricate these layered structures and devices. Indentation is one of the techniques used in measuring mechanical properties of small-volume structures, such as thin films and surface coatings. Analysis of the indentation tests is generally based on the Oliver-Pharr method, which uses the analytical solutions for the contact between two solid spheres or between a rigid indenter and an elastic half-space. This has limited the application of the O-P method in evaluating mechanical properties of small-volume structures. We present a rigorous analysis of an incompressible elastic thin film indented by a rigid spherical or conical indenter under conditions that the contact radius is much larger than the film thickness and the contact condition between the indenter and the film is frictionless. Closed-form solutions for the load–displacement relationship and the contact stiffness are derived in terms of the ratio of the contact radius to the film thickness and material properties. We use indentation to study the indentation deformation of low modulus, ultrathin polymeric films with thicknesses of 47, 125 and 3000 nm on a silicon wafer. The nominal reduced contact modulus increases with the indentation load and indentation depth due to the effect of substrate. The effect of substrate on the reduced contact modulus is described by an elastic contact model for indentations with larger contact radius than the film thickness.

报告人简介：

Prof. Fuqian Yang received his B.S. in Engineering Physics from Tsinghua University, M.S. in Mechanical Engineering and Ph.D in Materials Science and Engineering from the University of Rochester. He is a full professor in Department of Chemical and Materials Engineering at the University of Kentucky. Dr. Yang’s research focuses on electrical-chemical-mechanical behavior of advanced materials and published more than 250 scientific articles, including creep behavior of materials, adhesive deformation of materials, electromechanical interaction of materials, whisker growth, and stress-diffusion interaction in lithium-ion batteries.

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工程技术学院

2019年6月10日