1) bending stress mathematical model
弯曲应力数学模型
2) bending stress/physical model tests
弯曲应力/物理模型试验
3) bending stress
弯曲应力
1.
Finite element analysis on the bending stress for roller spur bevel gear based on ANSYS;
基于ANSYS的滚齿直齿圆锥齿轮弯曲应力有限元分析
2.
Analysis of tooth root bending stress for spiral bevel gears;
弧齿锥齿轮齿根弯曲应力分析
3.
Calculation of bending stress of steel-concrete composite beam considering slippage effect;
考虑滑移效应的钢—混凝土组合梁弯曲应力计算
4) bend stress
弯曲应力
1.
The article anaylses the skew arch roofing s bend stress under symmetry and unsymmetrical loads,calculates the skew arch roofing critical load under the symmetry and unsymmetrical loads,the result indicates the skew arch roofing s resistance,and stability are sufficient for its use.
分析了在对称和非对称载荷作用下斜拱型屋面弯曲应力,计算了在对称载荷和非对称载荷作用下斜拱型屋面临界载荷。
2.
This paper demonstrate the way how to measure and control D max -D min of the pressure cylinder for its safe working,which is started with the circular additional bend stress which is caused by the non circularity of the pressure cylinder,then it points out a new method of controlling strength of the pressure cylinder.
从压力容器不圆度引起周向附加弯曲应力出发 ,推导出检测和控制不圆度值的方法 ,使其达到其安全工作的目的 ,为工业生产及检测部门提供依
3.
This paper points out a proplem in《Mechanial Design of Forestry Engirieer-ing》Writted by Fu Wenfan that formula in calculating the bend stress of the hook.
本文指出了傅文范等著《森林工程机械设计》(绞盘机)中涉及到的关于吊钩钩身弯曲应力公式存在的问题,并根据有关理论,提出比较符合实际的计算吊钩钩身弯曲应力的公式。
5) bending stresses
弯曲应力
1.
Software Development on Finite Element Analysis for Bending Stresses of Transmission Gears;
变速器齿轮弯曲应力分析有限元软件的开发
2.
It has been shown that bending stresses that inadvertently occur due to misalignment between the applied force and the specimen axes during the application of tensile and compressive forces can affect the test results.
在材料拉伸和压缩试验期间,由于加力轴线与试样轴线不同轴产生弯曲应力,影响试验结果。
6) bending model
弯曲模型
1.
Based on the bending model for thin film nonlinear peeling, three double-parameter criteria characterizing peeling process are introduced.
针对薄膜非线性撕裂的弯曲模型,引入了3种表征薄膜撕裂过程的双参数准则。
补充资料:弯曲应力
分子式:
CAS号:
性质:塑料标准样条在进行弯曲试验时,由于外加负荷发生弯曲而引起的纵向内部拉伸或压缩的应力。单位为N/m2或Pa。根据弯曲形变程度的不同,可分为:(1)定挠度的弯曲应力,即挠度为规定值时的弯曲应力;(2)弯曲破坏应力,即达规定挠度之时或之前,试样破坏瞬间所达到的弯曲应力;(3)最大负荷时的弯曲应力,即弯曲强度,表示在规定挠度时(或之前)负荷达到最大值时的弯曲应力。
CAS号:
性质:塑料标准样条在进行弯曲试验时,由于外加负荷发生弯曲而引起的纵向内部拉伸或压缩的应力。单位为N/m2或Pa。根据弯曲形变程度的不同,可分为:(1)定挠度的弯曲应力,即挠度为规定值时的弯曲应力;(2)弯曲破坏应力,即达规定挠度之时或之前,试样破坏瞬间所达到的弯曲应力;(3)最大负荷时的弯曲应力,即弯曲强度,表示在规定挠度时(或之前)负荷达到最大值时的弯曲应力。
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