Compressive behaviour and micromechanical modelling of steel-reinforced resin under monotonic and cyclic loading

IF 9.8 1区材料科学 Q1 MATERIALS SCIENCE, COMPOSITES

Composites Science and Technology Pub Date : 2025-09-15 DOI:10.1016/j.compscitech.2025.111387

Angeliki Christoforidou , Abishek Baskar , Entela Kane , Marko Pavlovic

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Abstract

Steel-Reinforced Resin (SRR) is a particulate material originally developed as an injectant for anchoring applications. More recently, it has been proposed as a filler material for cavities embedding mechanical connectors in FRP–steel hybrid bridges. In this context, the compressive behaviour of SRR becomes critical due to the multiaxial stress states and fatigue demands at a joint scale. This paper presents a comprehensive experimental and numerical investigation of SRR under monotonic, incremental cyclic, and fatigue compressive loading in unconfined conditions. A custom triaxial setup is also used to evaluate pressure sensitivity and strength enhancement due to confinement under monotonic loading. In parallel, micromechanical finite element models are developed to simulate the interactions between the resin matrix and the steel balls at the microscale, incorporating interface damage, friction, and cohesive failure. The models reproduce the observed nonlinear behaviour and reveal distinct Poisson's ratio responses in tension and compression, offering deeper insight into the mechanisms governing stiffness degradation, strain softening, and plateau behaviour.

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单调和循环加载下钢增强树脂的压缩行为和微观力学模型

钢增强树脂（SRR）是一种颗粒材料，最初是作为锚固应用的注入剂开发的。最近，它被提出作为一种填充材料，用于在frp -钢混合桥中嵌入机械连接器的空腔。在这种情况下，由于多轴应力状态和关节尺度的疲劳需求，SRR的压缩行为变得至关重要。本文对无侧限条件下单调、增量循环和疲劳压缩载荷下的SRR进行了全面的实验和数值研究。定制的三轴装置也用于评估压力敏感性和强度增强，因为约束在单调载荷下。同时，开发了微力学有限元模型来模拟树脂基体与钢球在微观尺度上的相互作用，包括界面损伤、摩擦和内聚破坏。这些模型再现了观察到的非线性行为，并揭示了拉伸和压缩中不同的泊松比响应，为控制刚度退化、应变软化和平台行为的机制提供了更深入的见解。

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来源期刊

Composites Science and Technology 工程技术-材料科学：复合

CiteScore

16.20

自引率

9.90%

发文量

611

审稿时长

33 days

期刊介绍： Composites Science and Technology publishes refereed original articles on the fundamental and applied science of engineering composites. The focus of this journal is on polymeric matrix composites with reinforcements/fillers ranging from nano- to macro-scale. CSTE encourages manuscripts reporting unique, innovative contributions to the physics, chemistry, materials science and applied mechanics aspects of advanced composites. Besides traditional fiber reinforced composites, novel composites with significant potential for engineering applications are encouraged.