家 » 屈服强度

屈服强度

1920

For materials that do not have a distinct yield point on their stress-strain curve, like aluminum or high-strength steel, ‘proof stress’ is the engineering equivalent. It is defined as the 强调 required to produce a small, specified amount of permanent (plastic) deformation, typically 0.2% of the original gauge length. This value, [latex]\sigma_{0.2}[/latex], is used in design calculations as the material’s practical elastic limit.

Many engineering materials, particularly ductile metals like aluminum alloys, copper alloys, and certain types of steel, do not exhibit the clear, sudden yielding behavior seen in mild steel. Their stress-strain curve transitions from elastic to plastic behavior gradually. For design and safety purposes, engineers need a consistent point to define the onset of permanent deformation. This is where proof stress, also known as offset 屈服强度, becomes crucial. To determine it, a tensile test is performed while plotting stress versus strain. A line is drawn on this graph parallel to the initial linear (elastic) portion of the curve, but offset from the origin by a specified strain value, most commonly 0.2% (or 0.002 strain). The stress at which this offset line intersects the stress-strain curve is defined as the 0.2% proof stress ([latex]\sigma_{0.2}[/latex]).

This value is a practical and reproducible measure of the material’s elastic limit. It signifies that if the material is loaded to this stress level and then unloaded, it will have undergone a permanent deformation of 0.2%. While some plastic deformation has occurred, it is considered small enough to be acceptable for many structural applications. This convention allows engineers to design components using materials without a sharp yield point with the same safety and reliability principles as those with one, ensuring that structures do not permanently deform under their design loads.

材料, 材料科学, 机械性能, 概念验证 (PoC), 质量保证, 质量控制, 结构工程, 拉伸测试

UNESCO Nomenclature: 3322

- 材料科学

类型

Material Property

中断

实质性

使用方法

广泛使用

前体

hooke’s law of elasticity
拉力试验机的开发
应力和应变的概念
需要表征 19 世纪末和 20 世纪初开发的新合金的机械性能

应用

航空航天合金材料规范
汽车零部件设计
建筑物和桥梁的结构工程计算
金属生产中的质量控制
有限元素 analysis (fea) material models

专利：

潜在的创新想法

级别需要会员

您必须是！！等级！！会员才能访问此内容。

立即加入

已经是会员？在此登录

Related to: proof stress, offset yield strength, stress-strain curve, plastic deformation, elastic limit, tensile testing, materials science, ductility, 0.2% offset, yield point.