Shanyue Guan, Jiucheng Zhao, Liya Tian, Shizhong Zhang, Hongwei Zhao
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引用次数: 0
摘要
层压竹材是一种新型绿色建筑材料,了解其在使用温度下的力学性能对于结构安全和优化设计至关重要。然而,目前还没有一种构成模型能够有效预测层压竹材在使用温度影响下的压缩应力-应变关系。本文研究了使用温度对层压竹材压应力-应变关系的影响。层压竹材的压缩性能随着温度的升高而严重下降。根据 Weibull 累积分布的基本形式,提出了一个构成模型。此外,还对之前成功应用于层压竹材或其他竹复合材料的四个构成模型进行了修改和分析,以确定它们在不同温度下预测竹基材料压缩应力-应变关系的能力。在所有模型中,所提出的 Weibull 模型和修改后的 RA 模式具有更高的精度,并且都能模拟层压竹材的应变硬化和热软化特性。该研究结果不仅能指导竹基工程材料在实际工程结构中的应用,提高结构设计的精度和安全性,还能为其他竹木复合材料的研究和应用提供有价值的参考。
Compressive stress–strain relationships of laminated bamboo under service temperature
Laminated bamboo is a novel green building material, understanding its mechanical properties at service temperatures is essential for structural safety and optimal design. However, currently there is no constitutive model capable of effectively predicting the compressive stress–strain relationship of laminated bamboo under the influence of service temperatures. This paper examines the influence of service temperature on the compressive stress–strain relationship in laminated bamboo. The compressive properties of laminated bamboo severely decreased as the temperature rises. Based on the fundamental form of the Weibull cumulative distribution, a constitutive model is proposed. Additionally, four constitutive models previously successfully applied to laminated bamboo or other bamboo composites were modified and analyzed for their capability to predict the compressive stress–strain relationship of bamboo-based materials under different temperature. Among all the models, the proposed Weibull model and the modified RA mode have higher accuracy, and both can simulate strain hardening and thermal softening characteristics of laminated bamboo. The findings of this study not only guide the application of bamboo-based engineered materials in actual engineering structures, enhancing the precision and safety of structural designs but also provide valuable references for the research and application of other bamboo composite materials.
期刊介绍:
Materials and Structures, the flagship publication of the International Union of Laboratories and Experts in Construction Materials, Systems and Structures (RILEM), provides a unique international and interdisciplinary forum for new research findings on the performance of construction materials. A leader in cutting-edge research, the journal is dedicated to the publication of high quality papers examining the fundamental properties of building materials, their characterization and processing techniques, modeling, standardization of test methods, and the application of research results in building and civil engineering. Materials and Structures also publishes comprehensive reports prepared by the RILEM’s technical committees.
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