Model order reduction for fast phase-field fracture simulations

快速相场断裂模拟的模型降阶

• 批准号: EP/Y002474/1
• 负责人: Konstantinos Agathos
• 金额: $ 15.96万
• 依托单位: UNIVERSITY OF EXETER
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2024
• 资助国家: 英国
• 起止时间: 2024 至 无数据
• 项目状态: 未结题
• 来源: https://gtr.ukri.org/projects?ref=EP%2FY002474%2F1
• 关键词: Model; order; reduction; fast; phase; Model; order; reduction; fast; phase

This collaboration will develop techniques to accelerate fracture mechanics simulations of both academic and industrial interest. Through research visits and the organisation of a workshop, the PI's expertise in numerical fracture and model order reduction methods will be combined with the Partner's leading research in phase-field methods to address the challenges involved. Fracture mechanics simulations play an important role in the development of materials and structural components across several industries, such as the aerospace, composites and automotive. However the use of such simulations is often limited due to the complexity of the phenomena involved, which include complex material behaviour and topological changes associated with the formation, propagation and coalescence of cracks. Recent developments in the field have resulted in new approaches, such as phase-field models, that can very effectively tackle all associated challenges, at the cost of producing very large, and therefore computationally expensive models. The project will leverage established numerical tools to develop novel methods to reduce the size of such models by exploiting i) the localised nature and ii) progressive evolution of fracture.

这项合作将开发技术，以加快学术和工业兴趣的断裂力学模拟。通过研究访问和研讨会的组织，PI在数值断裂和模型订购方法方面的专业知识将与合作伙伴在相位场方法方面的领先研究相结合，以应对所涉及的挑战。断裂力学模拟在多个行业（例如航空航天，复合材料和汽车）的材料和结构组件的开发中起着重要作用。但是，由于涉及现象的复杂性，通常会限制这种模拟的使用，其中包括复杂的材料行为和与裂纹的形成，传播和聚结有关的拓扑变化。该领域的最新发展导致了新的方法，例如相田模型，这些方法可以非常有效地应对所有相关挑战，以产生非常大的，因此计算昂贵的模型。该项目将利用已建立的数值工具来开发新的方法来通过利用i）局部性质和ii）裂缝的逐步演变来减少此类模型的大小。