A press forming benchmark to isolate deformation mechanisms for simulation validation

IF 2.6 3区材料科学 Q2 ENGINEERING, MANUFACTURING

International Journal of Material Forming Pub Date : 2025-03-19 DOI:10.1007/s12289-025-01891-x

Dennis Brands, Wouter J. B. Grouve, Sebastiaan Wijskamp, Remko Akkerman

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引用次数: 0

Abstract

Predictive simulations of the press forming process for thermoplastic composites are invaluable tools for designing tool geometry and determining processing parameters. Ensuring the reliability of these simulations requires thorough validation, which can be challenging due to the wide range of possible geometries and the time and costs associated with obtaining validation data. This study presents and interprets press forming results for thermoplastic composites, with a specific focus on their application to simulation model validation. Experiments were conducted by forming blanks made from two unidirectional fiber-reinforced thermoplastic composite materials over a dome-shaped geometry. By varying the blank width and layup, the deformations and wrinkling behavior were systematically influenced. It is demonstrated that a careful selection of the forming conditions enables targeted analysis and validation of individual deformation mechanisms, including in-plane shear, bending and interply friction. Finally, a structured strategy is proposed for using these experimental results to validate forming simulations, offering an approach to evaluate the used constitutive models.

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一个压力成形基准隔离变形机制的仿真验证

热塑性复合材料冲压成形过程的预测模拟是设计模具几何形状和确定加工参数的宝贵工具。确保这些模拟的可靠性需要彻底的验证，由于可能的几何形状范围广泛，并且与获得验证数据相关的时间和成本，这可能具有挑战性。本研究介绍并解释了热塑性复合材料的压成形结果，并特别关注其在仿真模型验证中的应用。实验是用两种单向纤维增强热塑性复合材料在一个圆顶几何形状上成形坯料进行的。通过改变坯料宽度和铺层，系统地影响了变形和起皱行为。结果表明，仔细选择成形条件可以有针对性地分析和验证单个变形机制，包括面内剪切，弯曲和相互摩擦。最后，提出了一种结构化策略，利用这些实验结果来验证成形模拟，为评估使用的本构模型提供了一种方法。

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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来源期刊

International Journal of Material Forming ENGINEERING, MANUFACTURING-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

5.10

自引率

4.20%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal publishes and disseminates original research in the field of material forming. The research should constitute major achievements in the understanding, modeling or simulation of material forming processes. In this respect ‘forming’ implies a deliberate deformation of material. The journal establishes a platform of communication between engineers and scientists, covering all forming processes, including sheet forming, bulk forming, powder forming, forming in near-melt conditions (injection moulding, thixoforming, film blowing etc.), micro-forming, hydro-forming, thermo-forming, incremental forming etc. Other manufacturing technologies like machining and cutting can be included if the focus of the work is on plastic deformations. All materials (metals, ceramics, polymers, composites, glass, wood, fibre reinforced materials, materials in food processing, biomaterials, nano-materials, shape memory alloys etc.) and approaches (micro-macro modelling, thermo-mechanical modelling, numerical simulation including new and advanced numerical strategies, experimental analysis, inverse analysis, model identification, optimization, design and control of forming tools and machines, wear and friction, mechanical behavior and formability of materials etc.) are concerned.