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张志杰, 蔡力勋, 陈辉, 包陈, 刘晓坤. 金属材料的强度与应力-应变关系的球压入测试方法[J]. 力学学报, 2019, 51(1): 159-169. DOI:10.6052/0459-1879-18-200
引用本文: 张志杰, 蔡力勋, 陈辉, 包陈, 刘晓坤. 金属材料的强度与应力-应变关系的球压入测试方法[J]. 力学学报, 2019, 51(1): 159-169.DOI:10.6052/0459-1879-18-200
Zhang Zhijie, Cai Lixun, Chen Hui, Bao Chen, Liu Xiaokun. SPHERICAL INDENTATION METHOD TO DETERMINE STRESS-STRAIN RELATIONS AND TENSILE STRENGTH OF METALLIC MATERIALS[J]. Chinese Journal of Theoretical and Applied Mechanics, 2019, 51(1): 159-169. DOI:10.6052/0459-1879-18-200
Citation: Zhang Zhijie, Cai Lixun, Chen Hui, Bao Chen, Liu Xiaokun. SPHERICAL INDENTATION METHOD TO DETERMINE STRESS-STRAIN RELATIONS AND TENSILE STRENGTH OF METALLIC MATERIALS[J].Chinese Journal of Theoretical and Applied Mechanics, 2019, 51(1): 159-169.DOI:10.6052/0459-1879-18-200

金属材料的强度与应力-应变关系的球压入测试方法

SPHERICAL INDENTATION METHOD TO DETERMINE STRESS-STRAIN RELATIONS AND TENSILE STRENGTH OF METALLIC MATERIALS

  • 摘要:压入法获取材料单轴应力-应变关系和抗拉强度对服役结构完整性评价有重要的基础意义.假定材料均匀连续、各向同性、应力应变关系符合Hollomon律,基于能量等效假定,即代表性体积单元(representativevolume element, RVE)的vonMises等效和有效变形域内能量中值等效假定,本文提出了关联材料载荷、深度、球压头直径和Hollomon律的四参数半解析球压入(semi-analyticalspherical indentation,SSI)模型.通过球压入载荷-深度试验关系获得材料的应力-应变关系和抗拉强度.考虑压入过程中的损伤效应,针对金属材料提出了用于球压入测试的材料弹性模量修正模型.对11种延性金属材料完成了球压入试验,采用本文提出的球压入试验方法测到的弹性模量、应力-应变关系和抗拉强度与单轴拉伸试验结果吻合良好.

    Abstract:It is significant to obtain the uniaxial stress-strain relations and tensile strength of materials by indentation method for evaluating the integrity of structures in service. Based on energy equivalent assumptions, i.e., the Von Mises equivalence about a RVE (representative volume element) and the median energy equivalence in the effective deformation region, a semi-analytical spherical indentation(SSI) model is proposed to describe the relation among indented load, depth, the diameter of spherical indenter and Hollomon-law parameters if indented materials are uniform, continuous, isotropic and power-law hardening. The stress-strain relations and tensile strengths of the materials were obtained by the tested load-depth curves under spherical indenter loading. Considering the damage effect in the indentation process, a correction model for determining elastic modulus of the metallic materials due to the spherical indentation tests is proposed . For eleven kinds of tested ductile metallic materials with spherical indentation, the Young's modulus, stress-strain relations and tensile strength predicted by SSI model are in good agreement with the uniaxial tensile results.

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