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For solid waste-based cementitious materials, most scholars focus their research on the hydration reaction of cementitious materials, but there is still a lack of solid waste design that comprehensively considers mechanical properties and durability. Therefore, this article focuses on exploring the mix of design and the microscopic and macroscopic...
Contexts in source publication
Context 1
... the material ages, significant shrinkage deformations occur [30,31]. Figure 7 illustrates the test results of the drying shrinkage properties for the SS10SP20 group, SS5SP15 group, and OPC group. the material ages, significant shrinkage deformations occur [30,31]. ...
Context 2
... material ages, significant shrinkage deformations occur [30,31]. Figure 7 illustrates the test results of the drying shrinkage properties for the SS10SP20 group, SS5SP15 group, and OPC group. From Figure 7, it can be observed that the drying shrinkage coefficient follows the order of the SS5SP15 group > OPC group > SS10SP20 group. ...
Context 3
... 7 illustrates the test results of the drying shrinkage properties for the SS10SP20 group, SS5SP15 group, and OPC group. From Figure 7, it can be observed that the drying shrinkage coefficient follows the order of the SS5SP15 group > OPC group > SS10SP20 group. This indicates that the drying shrinkage performance of the SS10SP20 group is superior to that of the OPC group, representing a 8.9% improvement in drying shrinkage performance. ...
Context 4
... 8 displays the results of the chloride ion penetration resistance tests conducted on the SS10SP20, SS5SP15, and OPC groups, and as can be seen from the figure, the SS10SP20 group exhibits a 9.8% increase in chloride ion resistance compared to the OPC group. From Figure 7, it can be observed that the drying shrinkage coefficient follows the order of the SS5SP15 group > OPC group > SS10SP20 group. This indicates that the drying shrinkage performance of the SS10SP20 group is superior to that of the OPC group, representing a 8.9% improvement in drying shrinkage performance. ...
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