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.
过去广泛深入地研究各向同性材料的压力容器,而复合材料压力容器有着与他们本质的不同——各向异性。
In the past, we extensively studied of isotropic materials pressure vessels, but the composite material pressure vessels have a fundamentally difference with them -anisotropy.
纤维缠绕复合材料压力容器封头部分沿其子午线方向其厚度在不断变化,且任意点的缠绕角度也各不相同。
The thickness of the head part is changing along its warp direction and the winding Angle of any point on it varies.
本文针对高压全缠绕复合材料压力容器,应用有限元分析系统对其应力偏大的筒身应力进行了弹塑性非线性数值模拟。
In this paper the finite element analysis is applied to simulate the elastic-plastic numerical value for the high-pressure full wrapped composite pressure-vessel.
复合材料压力容器的纤维缠绕预应力对容器的性能有很大的影响,合理设计这种纤维预应力可提高复合材料容器的综合性能。
The reasonably prestressing of carbon fiber wound on composite material vessel, which have great influence on vessel's capability, can improve the integrated performance of composite material vessel.
配橡胶内衬的复合材料板壳可以模拟真实纤维缠绕压力容器。
Composite plate and shell with rubber liners can analogize real filament wound pressure vessels.
复合材料环形压力容器以其特有的结构形状得到了日益广泛的应用。
Composite toroidal pressure vessels are recently gaining more attention because of their structural efficiency, new-fashioned configuration, and low aspect ratio.
配橡胶内衬的复合材料板壳可以模拟宇航飞行器的纤维缠绕压力容器。
Composite plate and shell with rubber liner can simulate filament wound pressure vessels of the aircraft.
介绍了聚醚醚酮复合材料的研制、性能及在压力容器、泵、压缩机、阀门等通用机械领域中的应用。
Research, performance and application in general machinery of PEEK composite material were introduced in this paper.
介绍了聚醚醚酮复合材料的研制、性能及在压力容器、泵、压缩机、阀门等通用机械领域中的应用。
Research, performance and application in general machinery of PEEK composite material were introduced in this paper.
应用推荐