Rock bursts occur frequently in coal mines, and the mechanical properties of saturated coal specimens under coupled static-dynamic loading need to be studied in detail. Comparative tests of coal specimens having different water content under static and static-dynamic loading are conducted using the split Hopkinson pressure bar (SHPB) and RMT-150C test systems. The results demonstrate that the natural specimen strength is greater than that of seven-day (7D) saturated specimens under both uniaxial compression and triaxial static compression loading; however, the dynamic strength of 7D saturated specimens is lower than that of natural specimens under one-dimensional static-dynamic loading. The particle size of the 7D saturated specimens is relatively small under uniaxial static compression and one-dimensional static-dynamic loading, and the specimen particle sizes before and after static triaxial loading tests and three-dimensional static-dynamic loading tests do not exhibit an obvious difference.

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dynamic coupled staticdynamic loading coal natural specimen rmt150c test split hopkinson pressure bar shpb triaxial static compression

Wen Wang,Heng Wang,Dongyin Li,Huamin Li,Zhumeng Liu,.Strength and Failure Characteristics of Natural and Water-Saturated Coal Specimens under Static and Dynamic Loads. 2018 (),.

Wen Wang,Heng Wang,Dongyin Li,Huamin Li,Zhumeng Liu,"Strength and Failure Characteristics of Natural and Water-Saturated Coal Specimens under Static and Dynamic Loads" 2018

Wen Wang,Heng Wang,Dongyin Li,Huamin Li,Zhumeng Liu,"Strength and Failure Characteristics of Natural and Water-Saturated Coal Specimens under Static and Dynamic Loads"