然后将模型在危险载荷作用下,进行应力冻结、切片及应力分析。
The stress freezing under a uniform pressure, slicing and stress analysis are performed on the model.
结果表明,开裂点、开裂角、最大切向拉应力和临界载荷随椭圆的纵横轴比和倾角的不同而变化,由此可得到最危险的倾角。
The results show that opening point, opening angle, maximal tangential stress and critical load vary with aspect ratio and inclined angle. The most dangerous inclined angle is obtained accordingly.
而晃荡产生的冲击载荷压力使温度上升,会产生危险。
But the pressure from impacting loads caused by sloshing makes the liquid temperature rise and induces danger.
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