通过这种方式计算的轮廓,在正常的载荷情况下,内外圈之间的偏斜角度超过4'时不会发生缩减寿命的边缘应力(表5.2)。
The profiles are calculated in such a way that, under normal load conditions, life-reducing edge stresses do not occur at a tilting angle of up to 4' between inner ring and outer ring (Table 5.2).
结果表明,由偏心和偏斜所产生的应力集中位于接近过渡区的一个不大的范围内。
The result shows that the stress concentration caused by eccentricity and deflection located in a smail part near the transition region.
结果表明:在极限静载荷工况下,内、外圈相对偏斜对关节轴承的应力场分布产生明显影响;
The results indicate that the tilting of inner and outer ring has obviously influence on the stress distribution under limiting static load conditions.
利用非线性接触有限元方法对向心关节轴承进行应力场分析,在有限元模型中将心轴和轴承座作为柔性体处理,分别考察内、外圈相对偏斜工况下的应力场分布。
In the finite element model, the shaft and bearing house are set as flexible body, the stress field is investigate in the tilting case of inner ring and outer ring.
利用非线性接触有限元方法对向心关节轴承进行应力场分析,在有限元模型中将心轴和轴承座作为柔性体处理,分别考察内、外圈相对偏斜工况下的应力场分布。
In the finite element model, the shaft and bearing house are set as flexible body, the stress field is investigate in the tilting case of inner ring and outer ring.
应用推荐