This paper presents the development of a low-cost water-soluble core material, which is suitable for producing hollow composite structures via high pressure moulding processes, such as compression moulding and resin transfer moulding. The bulk material of the core is sodium chloride (NaCl), which is held together by a watersoluble trehalose binder. The composition of the core has been optimised to provide acceptable dissolution rates and mechanical properties for high volume structural composite applications.udThe compressive strength of the NaCl core was 57 MPa at ambient temperature, which reduced to 20 MPa when tested at 120 °C. The compressive strength at elevated temperature was approximately 4 times higher than for a water-soluble commercial benchmark and 33 times higher than a conventional structural closed-cell foam. The specific dissolution rate of the NaCl core was between 0.14 and 1.23 kg/(min·m2), depending on processing parameters and the coefficient of thermal expansion was approximately 43 × 10−6/K. A practical example has been presented to demonstrate how the removable core can be used to produce a representative hollow section of an integrally stiffened panel.
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机译:本文介绍了一种低成本的水溶性芯材的开发,该材料适用于通过高压成型工艺(如压缩成型和树脂传递成型)生产中空复合结构。芯的主体材料是氯化钠(NaCl),其通过水溶性海藻糖粘合剂保持在一起。芯子的组成经过优化,可为大体积结构复合材料应用提供可接受的溶解速率和机械性能。 udNaCl芯子的抗压强度在环境温度下为57 MPa,在120°C下测试时降低到20 MPa。高温下的抗压强度比水溶性商业基准高约4倍,比常规结构闭孔泡沫高约33倍。根据处理参数的不同,NaCl核的比溶解速率在0.14和1.23 kg /(min·m2)之间,并且热膨胀系数约为43×10-6 / K。已经给出了一个实际的例子来说明可移除的芯子如何可以用于产生整体加劲板的代表性的空心部分。
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