本文用微分几何理论推导出纤维缠绕复合材料压力容器的非测地线缠绕轨迹、包角方程及绕丝头运动方程。
Non geodesic trajectory mandrel rotation and payout eye motion equations for fiber reinforced composite pressure vessels are derivated by theory of differential geometry.
因此常采用复合式或绕丝式的容器,使厚壁容器具有安全失效的性能。
So the compound or wire-wounded pressure vessels are often adopted to assure the fail safe of thick-wall vessels.
提出了一种新型绕丝式超高压容器的结构,并对其进行了应力状况分析,推导出了绕丝层的应力计算公式。
A new type structure of wire wound super-high pressure vessel was presented. By the analysis of new type wire wound force state, it formularizes the stress calculation.
提出了一种新型绕丝式超高压容器的结构,并对其进行了应力状况分析,推导出了绕丝层的应力计算公式。
The pre-tensile stress in wire layer of new type wire wound super high pressure vessel was analyzed, and yielding stress calculation of the wire layer was been formularized.
提出了一种新型绕丝式超高压容器的结构,并对其进行了应力状况分析,推导出了绕丝层的应力计算公式。
The pre-tensile stress in wire layer of new type wire wound super high pressure vessel was analyzed, and yielding stress calculation of the wire layer was been formularized.
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