Cracking behavior of ultra-high strength mortar with CaO-based expansive agent and superabsorbent polymer

高吸水性高分子 收缩率 灰浆 膨胀的 开裂 材料科学 复合材料 变形(气象学) 聚合物 抗压强度 水泥
作者
Guo Yang,Hao Wang,Roman Wan‐Wendner,Zhangli Hu,Jiaping Liu
出处
期刊:Construction and Building Materials [Elsevier BV]
卷期号:357: 129281-129281 被引量:19
标识
DOI:10.1016/j.conbuildmat.2022.129281
摘要

• The shrinkage cracking behavior of ultra-high strength mortar (UHSM) with CaO-based expansive agent (CaO-based EA) and superabsorbent polymer (SAP) was observed based on the temperature stress testing machine (TSTM) tests. • The coupling mechanism of EA and SAP was investigated by comparing the cracking process to hydration progress, hydration product and internal water distribution. • Although the addition of EA and SAP can significantly increase the expansive deformation of UHSM at early age, cracking still occurs due to the post-peak shrinkage. • “Time-zero” of shrinkage should be redefined in UHSM with EA and SAP due to the change in early age deformation rate. Employing CaO-based expansive agent (CaO-based EA) and superabsorbent polymer (SAP) in ultra-high performance concrete (UHPC) is a effective strategy to mitigate the shrinkage. The cracking identification can help to verify whether the cracking risk can be reduced. In this paper, the shrinkage cracking behavior of ultra-high strength mortar (UHSM, UHPC matrix) with different dosage of CaO-based EA and SAP was observed based on the temperature stress testing machine (TSTM) tests. The coupling mechanism of EA and SAP was investigated by comparing the cracking process to hydration progress, hydration product and internal water distribution at each stage. Furthermore, the creep and elastic modulus were also calculated to clarify the cracking risk development of UHSM with EA and SAP. Unlike ordinary concrete, “Time-zero” of shrinkage should also be redefined in UHSM with EA and SAP due to the change in early age deformation rate. Although the addition of EA and SAP can significantly increase the expansive deformation of UHSM at early age, cracking still occurs due to the post-peak shrinkage.
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