1) maximal peel off stress
极限剥离应力
2) stripping limit
剥离极限
3) peeling-off stress
剥离应力
1.
Discussion on methods of calculating peeling-off stress in midspan of RC beams strengthened with FRP sheets;
关于FRP加固钢筋混凝土梁跨中剥离应力计算方法的讨论
2.
The factors influencing peeling-off failure and failure criterion are summarized,and the characteristics of several methods for calculating the peeling-off stress are discussed.
指出纤维复合材料加固混凝土梁跨中剥离破坏的影响因素和破坏准则,讨论几种计算剥离应力方法的特点,提出更为简单可靠的直接对剥离块体进行有限元分析的新思路,并给出算例。
4) peeling stress
剥离应力
1.
Analysis of the peeling stress at the end of the reinforced concrete beam with prestressed carbon fiber reinforced polymer sheet;
预应力CFRP布加固混凝土梁的端部剥离应力分析
2.
Based on the linear elastic theory, this paper presents a method for calculating the peeling stress at the sheeting end of a RC beam with a strengthening sheeting under linear distributed loads.
在弹性理论的基础上,推导了任意线性分布荷载作用下混凝土梁粘贴加强片材加固时,片材端部剥离应力的计算公式。
3.
The characteristics of distribution of the shearing stresses,as well as normal and peeling stresses which influence the quality of bonded wafers are discussed.
对影响晶片键合的剪切应力、正应力以及剥离应力的分布特性进行了讨
5) normal stress against peeling
剥离正应力
1.
With regard to the RC beams strengthened by bonding steel sheet against the action of concentrated and evenly distributed load, an analysis is made on the factors influencing maximal normal stress against peeling of steel sheet.
在弹性理论的基础上 ,利用钢板剥离正应力计算公式 ,对在集中荷载或均布荷载作用下采用粘钢加固的混凝土梁 ,分析影响钢板最大剥离正应力的有关因数 。
6) limit stress
极限应力
1.
FEM design of cruciform biaxial tensile specimen based on limit stress analysis;
基于极限应力分析的十字形双向拉伸试件设计
2.
A new method for establishing forming limit stress diagram of sheet metals;
一种建立板料成形极限应力图的新方法
3.
The abrasion fatigue limit stress is about(3.
文章设计了材料的冲蚀疲劳特性试验以及通过特性曲线拟合决定弹性接触状态下材料冲蚀疲劳特性参数的方法 ,应用此方法测得环氧 -橡胶复合材料的冲蚀疲劳极限应力σ0 ≈ ( 3 。
补充资料:极限疲劳应力
分子式:
CAS号:
性质:当疲劳寿命曲线变得与lgN轴基本平行时相应的周期性应力振幅(N表示周期次数)。由于疲劳试验无法长时间无限制地进行下去,一般当周期次数N达到107时,材料仍未发生破坏,此时对应的周期性应力振幅上限值称极限疲劳应力,又称条件极限疲劳应力。
CAS号:
性质:当疲劳寿命曲线变得与lgN轴基本平行时相应的周期性应力振幅(N表示周期次数)。由于疲劳试验无法长时间无限制地进行下去,一般当周期次数N达到107时,材料仍未发生破坏,此时对应的周期性应力振幅上限值称极限疲劳应力,又称条件极限疲劳应力。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条