An RH-based non-uniform shrinkage prediction model considering the environmental humidity fluctuations and decorative layer sealing effect for steel-recycled aggregate concrete composite slabs

IF 8 1区工程技术 Q1 CONSTRUCTION & BUILDING TECHNOLOGY

Construction and Building Materials Pub Date : 2025-04-07 DOI:10.1016/j.conbuildmat.2025.141087

Xuepeng Chen , Yu-Yin Wang , Chunsheng Zhou , Yue Geng , Huan Zhang

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引用次数: 0

Abstract

Steel-recycled aggregate concrete (RAC) composite slabs, a feasible component to apply RAC, can quickly consume construction and demolition waste, helping to protect the environment and promote sustainable development. However, the design of composite slabs is often influenced by long-term deflection caused by significant non-uniform shrinkage. At the microscopic level, shrinkage is primarily driven by relative humidity (RH). For composite slabs, moisture cannot escape from the underside due to steel decking, which leads to non-uniform RH and shrinkage throughout the slab. Furthermore, environmental humidity fluctuations and decorative layer installation can affect RH distribution, leading to a complex non-uniform shrinkage prediction problem. However, traditional regression models cannot predict the influences of environmental humidity fluctuations, decorative layer installation, and recycled aggregate (RA) properties. To solve this problem, this paper develops a theoretical model for predicting non-uniform shrinkage in steel-RAC composite slabs based on the RH model. A theoretical framework for linking RH to free shrinkage was derived, and mechanical equilibrium equations were used to consider the interlayer constraint effects in the specimen. To validate the proposed model, 16 tests were conducted for 270 days, examining autogenous shrinkage and non-uniform shrinkage under constant and fluctuating humidity conditions and the condition with decorative layer installation; 22 test results from five related studies were also used for validation. The proposed model can well predict the influences of environmental humidity fluctuations, decorative layer installation, and RA properties on non-uniform shrinkage development. Results indicate that the maximum discrepancy between the predicted and test shrinkage at the exposed surface is 14.8 % at the end of the test. This research quantifies the beneficial effects of decorative layers on the shrinkage of steel-RAC slabs, which can extend RAC's application and promote its sustainable development.

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考虑环境湿度波动和装饰层止水效果的钢筋再生骨料混凝土叠合板非均匀收缩预测模型

钢-再生骨料混凝土（RAC）组合板是一种可行的应用RAC的构件，可以快速消耗建筑和拆除废物，有助于保护环境和促进可持续发展。然而，由于显著的不均匀收缩而引起的长期挠曲往往会影响组合板的设计。在微观水平上，收缩主要是由相对湿度（RH）驱动的。对于复合板，由于钢甲板，水分不能从底面逸出，这导致整个板的相对湿度不均匀和收缩。此外，环境湿度波动和装饰层安装都会影响相对湿度分布，从而导致复杂的非均匀收缩预测问题。然而，传统的回归模型不能预测环境湿度波动、装饰层安装和再生骨料（RA）性能的影响。为了解决这一问题，本文建立了基于RH模型的钢- rac复合楼板非均匀收缩预测理论模型。推导了RH与自由收缩的理论框架，并采用力学平衡方程来考虑试件的层间约束效应。为了验证该模型，进行了为期270天的16次试验，研究了恒定湿度和波动湿度条件下的自收缩和非均匀收缩以及安装装饰层的条件；来自5个相关研究的22个检验结果也被用于验证。该模型可以较好地预测环境湿度波动、装饰层安装和RA性能对非均匀收缩发展的影响。结果表明，试验结束时，预测值与试验值之间的最大误差为14.8 %。本研究量化了装饰层对钢-RAC板收缩的有益影响，可以扩大RAC的应用范围，促进其可持续发展。

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来源期刊

Construction and Building Materials 工程技术-材料科学：综合

CiteScore

13.80

自引率

21.60%

发文量

3632

审稿时长

82 days

期刊介绍： Construction and Building Materials offers an international platform for sharing innovative and original research and development in the realm of construction and building materials, along with their practical applications in new projects and repair practices. The journal publishes a diverse array of pioneering research and application papers, detailing laboratory investigations and, to a limited extent, numerical analyses or reports on full-scale projects. Multi-part papers are discouraged. Additionally, Construction and Building Materials features comprehensive case studies and insightful review articles that contribute to new insights in the field. Our focus is on papers related to construction materials, excluding those on structural engineering, geotechnics, and unbound highway layers. Covered materials and technologies encompass cement, concrete reinforcement, bricks and mortars, additives, corrosion technology, ceramics, timber, steel, polymers, glass fibers, recycled materials, bamboo, rammed earth, non-conventional building materials, bituminous materials, and applications in railway materials.