WANG, Y.; ZHANG, C.; WANG, J.; XU, Y.; JIN, F.; WANG, Y.; YAN, Q.; LIU, T.; GAN, X.; XIONG, Z. Experimental Study on Foci Development in Mortar Using Seawater and Sand. Materials2019, 12, 1799.
WANG, Y.; ZHANG, C.; WANG, J.; XU, Y.; JIN, F.; WANG, Y.; YAN, Q.; LIU, T.; GAN, X.; XIONG, Z. Experimental Study on Foci Development in Mortar Using Seawater and Sand. Materials 2019, 12, 1799.
WANG, Y.; ZHANG, C.; WANG, J.; XU, Y.; JIN, F.; WANG, Y.; YAN, Q.; LIU, T.; GAN, X.; XIONG, Z. Experimental Study on Foci Development in Mortar Using Seawater and Sand. Materials2019, 12, 1799.
WANG, Y.; ZHANG, C.; WANG, J.; XU, Y.; JIN, F.; WANG, Y.; YAN, Q.; LIU, T.; GAN, X.; XIONG, Z. Experimental Study on Foci Development in Mortar Using Seawater and Sand. Materials 2019, 12, 1799.
Abstract
Marine mortar was the goal material and its multi-scale physical-chemical-mechanical characteristics were the principal interest in this study. The on-line multi-scale damage detection experiments art was designed to quantify the characteristics mathematically and graphically. The normal cylinder specimen with 70-day age was produced and investigated by dynamically global MSHCT scan and local detection of EDS, SEM and XRD. The experiments results indicated that the marine mortar offered the appreciable strength at the early age at least, although some saline minerals were generated during the preparation. The micro-interfacial behavior and the parental foci controlled the damage development of the marine mortar the performance of which was still the adjustable one by the composition optimization.
Chemistry and Materials Science, Materials Science and Technology
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