by GCO | May 24, 2024 | Materials
Brief Discover how palm leaves ash improves concrete strength and workability when mixed with seawater, achieving up to an 84.188% increase in compressive strength. Abstract This study delves into the innovative use of palm leaves ash as a partial replacement...
by GCO | Apr 12, 2024 | Materials
Author(s) Hussein M. Hamada, , Alyaa Al-Attar, Farid Abed, Salmia Beddu, Ali M. Humada, Ali Majdi, Salim. Yousif, Blessen Skariah Thomas Abstract With the proliferation of the population and the evolution of lifestyles, the issue of plastic waste has emerged...
by GCO | Apr 5, 2024 | Materials
Author(s) Fei Chen, Zhaohui Min, Mingyue Li, Zhiyong Shi, Yingqin Zhao and Jiliang Feng Abstract Post-doping construction technology overcomes the difficulties of demanding construction requirements of warm-mix epoxy asphalt mixture (EAM) that limit its...
by GCO | Feb 23, 2024 | Materials
Author(s) Qiqi Tan, Hongzhou Zhu, Hongduo Zhao, Ning Zhao, Song Yang, and Xiaosi Yang Abstract This study aims to develop a prefabricated flexible ultrathin overlay that can quickly and effectively repair cracks, particularly reticulation cracks, in old asphalt...
by GCO | Feb 16, 2024 | Materials
Author(s) Menghan Jiang, Keren Zheng, Hao Yao, and Ghimire Prateek Abstract How to realize hydrophobic modification of the capillary wall of cement-based materials is still a challenge. The hydrophobic modifier in the emulsion type is more promising than the...
by GCO | Jan 12, 2024 | Materials
Author(s) Xutao Zhang, Chao Lou & Xikuan Lyu Abstract Conducting research on the fatigue performance of concrete materials is of great significance for the anti fatigue design of concrete structures. Currently, indirect tensile or compressive strength tests...
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