Investigation of the effects of varying the processing parameters in diaphragm forming of advanced thermoplastic composite laminates

Composites Manufacturing Pub Date : 1995-01-01 DOI:10.1016/0956-7143(95)95005-J

Michael A. Keane, Margaret B. Mulhern, Patrick J. Mallon

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引用次数: 13

Abstract

Diaphragm forming offers several advantages over other forming techniques in the manufacture of advanced thermoplastic composites. The technique can be used in the forming of parts with complex curvature and can produce excellent surface finish. This work investigates the effect of buckling in both single- and double-curvature moulds, while forming carbon fibre-reinforced poly(ether ether ketone) (APC-2). A control system was set up to provide linear displacement of parts at rates of 1–100 mm min⁻¹. Buckling was established for both cross-ply and quasi-isotropic lay-ups in a double-curvature elliptical dish mould. Forming rate experiments were also carried out on a single-curvature 90° mould, with no buckling occurring at forming rates up to 100 mm min⁻¹ The conditions likely to cause buckling were calculated for the 90° female mould, using both the tensile properties of the diaphragm material and interply shear data for APC-2 laminates. An investigation was also made into the spring-forward effect on 90° parts formed using male and female tools for both APC-2 and carbon fibre-reinforced poly(ether imide) materials. The parts made from the male tool using these materials had a larger spring-forward effect in each case. The influence of part thickness was investigated and found to reduce the spring forward which occurred. The effect of mould radius of curvature was also investigated and found to be negligible. The effect on part quality when varying the consolidation pressure was investigated for [0°/90°]_2S and [0°/±45°/90°]_S APC-2 lay-ups in the male 90° mould. The parts were ultrasonically C-scanned to assess their quality; interlaminar shear tests were also carried out to validate the ultrasonic tests. It was found that a consolidation pressure in excess of 200 kPa was required to fully consolidate these parts.

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不同工艺参数对高级热塑性复合材料层合板膜片成形影响的研究

在制造高级热塑性复合材料方面，膜片成型比其他成型技术有几个优点。该工艺可用于复杂曲率零件的成形，具有良好的表面光洁度。本研究研究了单曲率和双曲率模具在成形碳纤维增强聚醚醚酮(APC-2)时屈曲的影响。建立了一个控制系统，以提供零件的线性位移速率为1 - 100 mm min - 1。建立了双曲率椭圆碟形模具中交叉铺层和准各向同性铺层的屈曲现象。在单曲率90°模具上也进行了成形速率实验，在高达100 mm min - 1的成形速率下没有发生屈曲。使用膜片材料的拉伸性能和APC-2层压板的间隙剪切数据，计算了90°母模可能导致屈曲的条件。还研究了APC-2和碳纤维增强聚醚亚胺材料用公、母工具成形的90°零件的弹簧前向效应。在每种情况下，使用这些材料制成的男性工具的部件都具有更大的弹簧向前效应。研究了零件厚度对弹簧前倾的影响，发现零件厚度对弹簧前倾的影响较小。研究了模具曲率半径的影响，发现曲率半径的影响可以忽略不计。研究了90°模内[0°/90°]2S和[0°/±45°/90°]S APC-2铺层不同固结压力对零件质量的影响。对零件进行超声c扫描以评估其质量;还进行了层间剪切试验来验证超声试验的正确性。研究发现，要使这些部分完全固结，固结压力必须超过200千帕。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Composites Manufacturing

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