本文利用开口薄壁杆件约束扭转的应力分析理论,对一端固定而另一端刚性联接的开口薄壁圆筒,同时承受轴向力和横向力时的应力分量及复合应力,作了分析计算。而且,提出了利用应变电测技术,对各应力进行实验研究的方案。实验结果与计算值的误差在(0.5—10)％的范围内。理论与实验应力分析的结果表明,开口薄壁园筒,最大约束扭转正应力是最大弯曲正应力的3.6倍;弯曲—约束扭转所产生的最大剪应力是弯曲剪应力的4.4倍。可见,约束扭转是导致开口薄壁杆件破坏的主要因素。本文所列出的图表和实验结果,为这类构件的优化设计,以及对现有类似结构安全性的鉴定,提供了可靠的依据和有效的方法。 In this paper, the theory of stress analysis of open-ended thin-walled members restricting torsion is used to analyze and calculate the stress components and composite stresses of an open thin-walled cylinder with one end fixed and the other end rigidly connected, while receiving both axial and lateral forces. In addition, a scheme for the experimental investigation of each stress using strained electrical measurement technology was proposed. The error between the experimental results and the calculated values ​​is in the range of (0.5 - 10)%. The theoretical and experimental stress analysis results show that the maximum constrained torsional normal stress is 3.6 times the maximum normal bending stress for the open-walled cylinder, and 4.4 times the bending-constrained torsional stress. It can be seen that restraint twisting is the main factor that causes damage to open thin-walled rods. The charts and experimental results listed in this article provide a reliable basis and an effective method for the optimal design of such components and for the identification of existing similar structural safety.