晶粒细化对金属氧化膜的力学行为的影响

项目名称： 晶粒细化对金属氧化膜的力学行为的影响

项目编号： No.51271189

项目类型： 面上项目

立项/批准年度： 2013

项目学科： 一般工业技术

项目作者： 彭晓

作者单位： 中国科学院金属研究所

项目金额： 80万元

中文摘要： 晶粒细化能提高金属氧化膜的粘附性，其原因尚不清楚。本项目，用"单面弯曲+光杆法" 研究微米、亚微米和纳米晶等级的金属Ni镍分别在800-1000oC空气中氧化和冷却过程的力学行为、并辅以相应的氧化膜生长动力学，氧化膜、金属基体及两者界面结构的显微分析，阐明晶粒细化影响氧化膜力学行为的规律，建立"晶粒细化-氧化膜内应力（生长应力和热应力）-氧化膜生长动力学-氧化膜及膜/基体金属界面结构"之间的联系，深入揭示晶粒细化影响氧化膜内应力产生和释放机制；为金属材料热生长"高粘"氧化膜而进行晶粒细化提供实验数据和理论指导。

中文关键词： 高温氧化；晶粒细化；氧化膜；力学行为；热稳定性

英文摘要： Grain refinement helps to alloy metals to thermally grow oxide scales with greatly enhanced adhesion. The fundamental reason, however,remains to be clarifed. In the program proposed, pure Ni samples with the mean grains of micron-, submicron- and nano-size, respectively, will be developed. The mechanical behavior of the NiO scales on the different grain-sized Ni during oxidation in air at temperatures of 800-1000 oC and during cooling will be investigated and compared using the deflection apparatus which has been developed based on the principle of the one-side deflection in combination with an optical(laser beam) cantilever technique, together with both the analysis of the scaling kinetics using thermal balance and the microstructrual investigation of the formed scale,the underlying Ni substrate and interface between the scale and the substrate using scanning electron micorscope (SEM) and transmission electron microscope (TEM). The study will elucidate the variation of the mechanical behavior of the oxide scale with the grain refinement of the Ni substrate，and establish the relationship of the Ni grain refinement with the internal stresses and scaling kinetics of the oxide scale formed and microstructure of the oxide scale and the scale/Ni interface. The result will deeply disclose the effect of the Ni grain re

英文关键词： High temperature oxidation；Grain refinement；Oxide scale；Mechanical bahavior；Thermal stability