Abstract
In order to study the effect of cement-sand ratio on the dynamic mechanical properties of the full tailings cemented backfilling, three sets of full tailings cemented backfilling specimens with different cement-sand ratios were prefabricated. The uniaxial impact of the prefabricated specimens was performed by the Ф50 mm SHPB test system. Test results showed that full tailings cemented backfilling had strong reflection and damping effects on elastic wave propagation. At lower strain rates, specimens presented strength hardening, and at higher strain rates, the test specimens presented rapid-softening strength; the strength-hardened specimen reached the peak stress at 40 μs, and the softening specimen reached the peak stress at about 18 μs; with the increase of strain rate, dynamic compressive strength, growth factor of dynamic strength, peak strain, and dynamic-static strain ratio of specimens increased totally. When the cement-sand ratio increased, ultimate dynamic compressive strength, limit dynamic strength growth factor, and ultimate peak strain of the specimen were higher; at the same strain rate, with the increase of cement content, the dynamic compressive strength, dynamic strength growth factor, and dynamic-static strain ratio of the test piece all decreased. The failure mode of the specimen was crushing failure. Under the same strain rate, when the cement content decreased, there was a higher damage degree of specimens.
Highlights
Filling mining method has the advantages of high recovery rate, high safety, and low pollution degree, which has been widely used in underground mines at home and abroad [1,2,3]. e full tailings cemented backfilling is a commonly used filling material in metal mine
In order to study the effect of cement-sand ratio on the dynamic mechanical properties of the full tailings cemented backfilling, three sets of full tailings cemented backfilling specimens with different
Advances in Civil Engineering cement-sand ratio were prefabricated, and uniaxial impact tests were performed on precast specimens by V50 mm split-Hopkinson pressure bar (SHPB) test system, so as to investigate the dynamic mechanical properties of specimens at high strain rates
Summary
Filling mining method has the advantages of high recovery rate, high safety, and low pollution degree, which has been widely used in underground mines at home and abroad [1,2,3]. e full tailings cemented backfilling is a commonly used filling material in metal mine. Many scholars have conducted relevant research studies on the dynamic and static mechanical properties of full tailings cemented backfilling. E literature [7] could not reflect mechanical properties of the full tailings cemented backfilling at high strain rates. The relationship between the dynamic stress-strain rate of the material was studied by using the split-Hopkinson pressure bar (SHPB) [8,9,10]. In order to study the effect of cement-sand ratio on the dynamic mechanical properties of the full tailings cemented backfilling, three sets of full tailings cemented backfilling specimens with different. Advances in Civil Engineering cement-sand ratio were prefabricated, and uniaxial impact tests were performed on precast specimens by V50 mm SHPB test system, so as to investigate the dynamic mechanical properties of specimens at high strain rates.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
