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韩国首尔国立大学Heung Nam HAN教授学术讲座通知

发布时间:2019-08-22 点击数:

应装备所张琦教授和国际机械中心娄燕山教授邀请,韩国首尔国立大学 材料科学与工程学院Heung Nam Han教授与Myoung-Gyu Lee副教授将来我校访问交流并作学术报告。欢迎各位感兴趣的同学和老师参加。

讲座题目:Correlation between Macro-scale Mechanical Behavior and Small-scale Nanoindentation in Metallic Materials(Heung Nam Han教授)

讲座时间:2019年8月22日(周四),下午3:00-5:00

讲座地点:bat365官网登录入口第一会议室

讲座内容:

Recently, nanoindentation has been employed to probe the small-scale mechanical behavior of materials for a wide range of academic or engineering applications. The response of a material to the nanoindentation is usually represented as a form of the load-displacement curve. When metallic materials undergo irreversible permanent deformation, the discrete physical events, such as dislocation nucleation, dislocation source activation, phase transformation or mechanically-induced twinning, can be detected as discontinuities of displacement or load during nanoindentation. These are basically geometrical softening behaviors, and results in a sudden displacement excursion during load-controlled-instrumented nanoindentation, so-called pop-in.

In this talk, some experimental results of nanoindentation and microstructural studies will be presented to provide micromechanical insight into the strain-induced phase transformation of metastable austenite in steel.Themicrostructural changeswas observedby means of an automotive mapping technique with TEMthat the partial volume of prior austenite had transformed into several martensiteblocks with different variants.From a finite element calculation combined with phenomenological approach for martensitic transformation, it was confirmed that each variants corresponded to those for which the transformation strain effectively accommodates external stress.

As for another study usingnano-indentation,the remarkable ductility difference betweenthermo-mechanically treated and recrystallizedtungstens will be talked.The statistical distribution of the maximum shear stress of the pop-ins corresponding to the onset of plastic yielding were analyzed on the basis of dislocation nucleation or movement of pre-existing dislocation. In addition, we have performed a series of molecular dynamic simulations to obtain the grain boundary fracture strength of pure tungsten. The measured maximum shear stress and calculated fracture stress were compared for three specimens and the effect of pre-deformation on the ductile-brittle transition of tungsten was analyzed.

As for the last topic, the evaluation of single crystal elastic constants of austenite and ferrite phases in high-nitrogen duplex stainless steel will be presented. In this study, an elastic self-consistent model combined with optimization process for in-situ neutron diffraction data was utilized. The optimized elastic constants were validated by indentation moduli of each phase obtained by nanoindentation. In addition, the stacking fault energy of austenite was evaluated based on the neutron diffraction profile and the single crystal elastic constants, and correlated with the observed deformation microstructure.

Heung Nam Han博士简介:

Heung Nam Han教授:韩国首尔国立大学材料科学与工程学院教授,本硕博毕业于首尔国立大学,Innovative Process Design Center for Strategic Structural Materials中心主任,获Henry Marion Howe Metal、Suk Cheon Academic Award、Shinyang Award、Yoon Dong Suk Award等学术奖。发表论文近300篇,引用4800余次,H因子37。

Myoung-Gyu Lee教授简介:

Myoung-Gyu Lee博士:韩国首尔国立大学材料科学与工程学院副教授,本硕博毕业于首尔国立大学,博士导师Kwansoo Chung教授。2004-2007年期间,在美国俄亥俄州立大学从事博士后研究,合作导师R.H. Wagoner教授。2010-2014年在韩国浦项工业大学与F. Barlat教授一起从事塑性成形研究。获IJP Award, POSCO Young Researcher Award, KSTP Young Scientist Award等奖。发表论文250余篇,引用8000余次,H因子38。第39届国际薄板成型研究会IDDRG 2020主席。

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