THE EFFECTS OF LAYER-BY-LAYER THICKNESS AND FIBER VOLUME FRACTION VARIATION ON THE MECHANICAL PERFORMANCE OF A PRESSURE VESSEL

机译：层副层厚度和纤维体积分数变化对压力容器的机械性能的影响

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Due to high stiffness/weight ratio, composite materials are widely used in aerospace applications such as motor case of rockets which can be regarded as a pressure vessel. The most commonly used method to manufacture the pressure vessels is the wet filament winding. However, the mechanical performance of a filament wound pressure vessel directly depends on the manufacturing process, manufacturing site environmental condition and material properties of matrix and fiber. The designed ideal pressure vessel may not be manufactured because of the mentioned issues. Therefore, manufacturing of filament wound composite structures are based on manufacturing experience and experiment. In this study, the effect of layer-by-layer thickness and fiber volume fraction variation due to manufacturing process on the mechanical performance was investigated for filament wound pressure vessel with unequal dome openings. First, the finite element model was created for designed thickness dimensions and constant material properties for all layers. Then, the model was updated. The updated finite element model considered the layer-by-layer thickness and fiber volume fraction variation. Effects of the thickness and fiber volume fraction on the stress distribution along the motor axial direction were shown. Also hydrostatic pressurization test was performed to verify finite element analysis in terms of fiber direction strain through the motor case outer surface. Important aspects of analyzing a filament wound pressure vessel were addressed for designers.

机译：由于高刚度/重量比，复合材料广泛用于航空航天应用，例如火箭的电机壳体，其可以被视为压力容器。制造压力容器的最常用方法是湿丝绕组。然而，长丝缠绕压力容器的机械性能直接取决于制造过程，制造部位环境条件和基质和纤维的材料性质。由于提到的问题，设计的理想压力容器可能不会被制造。因此，长丝缠绕复合结构的制造基于制造经验和实验。在该研究中，针对具有不等圆顶开口的长丝伤口压力容器研究了由制造过程引起的逐层厚度和纤维体积分数变化的影响。首先，为所有层设计为设计的厚度尺寸和恒定材料特性而产生有限元模型。然后，该模型已更新。更新的有限元模型认为是逐层厚度和纤维体积分数变化。示出了厚度和纤维体积分数对电动机轴向应力分布的影响。还进行静水加压试验，以验证通过电机外表面的纤维方向应变的有限元分析。分析灯丝伤口压力容器的重要方面是为设计人员寻址的。

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《ASME International Mechanical Engineering Congress and Exposition》|2019年|v.p.|共6页
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Emre Ozaslan; Ali Yetgin; Volkan Coskun; Bulent Acar; Tank Olgar;
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中图分类 TH-53;
关键词
Fiber volume fraction; Manufacturing processes; Pressure vessels; Composite materials;

机译：纤维体积分数;制造工艺;压力容器;复合材料;

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8. STUDY OF THE EFFECTS OF THICKNESS ON THE PROPERTIES OF LAMINATES FOR UNDERWATER PRESSURE VESSELS [R] . 1963

机译：厚度对水下压力容器层合板性能影响的研究

THE EFFECTS OF LAYER-BY-LAYER THICKNESS AND FIBER VOLUME FRACTION VARIATION ON THE MECHANICAL PERFORMANCE OF A PRESSURE VESSEL

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