Mohanad Idrees, Giuseppe R. Palmese, Nicolas J. Alvarez
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引用次数: 0
摘要
交错是一种公认的提高复合材料层间断裂韧性的方法。然而,由于裂纹往往会通过韧性较低的区域传播,因此理论上的韧性往往无法实现。大多数研究都集中在层间特性(如厚度和层间树脂特性)对复合材料层间断裂韧性的影响上,而基体树脂特性对交错复合材料韧性的影响却被忽视了。最近,我们假设韧性平移与基体和层间树脂韧性的比例之间存在关系。在这项工作中,我们利用快速成型技术,对交错复合材料中的一系列树脂进行了测试。韧性通过模式 I 分层阻力进行量化。我们的结果证实了我们的假设,即基体与夹层树脂断裂韧性之比(即[公式:见正文]之比)与韧性平移程度直接相关。更具体地说,有效交错所需的比率约为 0.5;低于 0.5 时,韧性平移将大大低于理论值。这种方法对于通过选择树脂来设计和制造韧性复合材料具有重要意义。
The effect of resin properties on toughness translation in interleaved composites
Interleaving is a well-recognized method for enhancing the interlaminar fracture toughness of composite materials. However, theoretical toughness is often not realized since cracks tend to propagate through regions of lower toughness. While most studies have focused on the effect of interleaf properties, e.g., thickness and interleaf resin properties, on composite interlaminar fracture toughness, the effect of matrix resin properties on interleaved composite toughness has been overlooked. Recently, we hypothesized that there is a relationship between toughness translation and the ratio of matrix to interleaf resin toughness. In this work, we use additive manufacturing to test this hypothesis with a range of resins in interleaved composite. Toughness is quantified via mode I delamination resistance. Our results confirm our hypothesis that the ratio of matrix to interleaf resin fracture toughness, i.e., the ratio of [Formula: see text], is directly correlated to the degree of toughness translation. More specifically, a ratio of approximately 0.5 is required for effective interleaving; below 0.5, the toughness translation is significantly below the theoretical value. This approach has important implications for the design and fabrication of tough composites via choice of resins.
期刊介绍:
Consistently ranked in the top 10 of the Thomson Scientific JCR, the Journal of Composite Materials publishes peer reviewed, original research papers from internationally renowned composite materials specialists from industry, universities and research organizations, featuring new advances in materials, processing, design, analysis, testing, performance and applications. This journal is a member of the Committee on Publication Ethics (COPE).