1) bending stiffness
弯曲刚度,抗弯劲度
2) bending stiffness
弯曲劲度
3) bending rigidity
弯曲刚度
1.
Discussion on bending rigidity anisotropy of fabrics;
织物弯曲刚度各向异性探讨
2.
Bending deformation and bending rigidity of mechanical components;
机械构件的弯曲变形与弯曲刚度
3.
Approach to calculating bending rigidity of rubber-reinforced track of tractors and its experimental verification;
拖拉机橡胶钢筋履带弯曲刚度计算方法与试验验证
4) bending stiffness
弯曲刚度
1.
Applied investigation on the effects of bending stiffness of machine bed's simulating parts on its thermal geometrical precision;
机床床身模拟件的弯曲刚度对其热态几何精度影响规律的应用研究
2.
Analysing parameters of bending stiffness of FRP and designing its structure;
FRP弯曲刚度的参数分析与结构设计
3.
Engineering algorithm on bending stiffness of elastic rubber bushing of car suspension;
轿车悬架弹性橡胶衬套弯曲刚度的工程算法
5) Bend stiffness
弯曲刚度
1.
The mechanical models of bend stiffness and bend strength of the pallets girder and deck were established.
通过分析木托盘在均布载荷作用下的受力变形情况,建立了木托盘梁和铺板的弯曲强度和弯曲刚度的力学模型,提出了托盘弯曲强度和刚度的条件。
6) flexural stiffness
弯曲刚度
1.
The relationship between axial stiffness, torsional stiffness, flexural stiffness and deformation has been given.
通过非线性有限元方法对橡胶-钢球支座在轴向拉伸、扭转和弯曲的大变形载荷作用下的力学行为进行分析,得出支座的轴向刚度、扭转刚度和弯曲刚度与变形的关系。
2.
Based on the bifurcation buckling of abnormal beamcolumn steel frame,it was found that the way to ascertain column s effective length of normal steel frame can also be used in abnormal beam-column steel frame;the principle of virtual work was used to deduce the flexural stiffness of two kinds of Abnormal beams,and its effect on the effective length of rigid steel frame column was analyzed.
运用虚功原理推导了两种典型的非规则梁的弯曲刚度,并分析了其对钢框架柱计算长度的影响。
补充资料:弯曲工艺的概念及弯曲件
1.弯曲工艺:是根据零件形状的需要,通过模具和压力机把毛坯弯成一定角度,一定形状工件的冲压工艺方法。
2.弯曲成形工艺在工业生产中的应用:应用相当广泛,如汽车上很多履盖件,小汽车的柜架构件,摩托车上把柄,脚支架,单车上的支架构件,把柄,小的如门扣,夹子(铁夹)等。
弯曲的基本原理:以V形板料弯曲件的弯曲变形为例进行说明。其过程为:
1. 凸模运动接触板料(毛坯)由于凸,凹模不同的接触点力作用而产生弯矩, 在弯矩作用下发生弹性变形,产生弯曲。
2. 随着凸模继续下行,毛坯与凹模表面逐渐靠近接触,使弯曲半径及弯曲力臂均随之减少,毛坯与凹模接触点由凹模两肩移到凹模两斜面上。(塑变开始阶段)。
3.随着凸模的继续下行,毛坯两端接触凸模斜面开始弯曲。(回弯曲阶段)。
4.压平阶段,随着凸凹模间的间隙不断变小,板料在凸凹模间被压平。
5. 校正阶段,当行程终了,对板料进行校正,使其圆角直边与凸模全部贴合而成所需的形状。
弯曲变形的特点: 弯曲变形的特点是:板料在弯曲变形区内的曲率发生变化,即
弯 曲半径发生变化。从弯曲断面可划分为三个区:拉伸区、压缩区和中性层。
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