Experiment Study of Stemming Length and Stemming Material Impact on Rock Fragmentation and Dynamic Strain

Shi, Xiuzhi; Zhang, Zongguo; Qiu, Xianyang; Luo, Zhihua

doi:10.3390/su151713024

Sustainability

2023

DOI: 10.3390/su151713024

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Experiment Study of Stemming Length and Stemming Material Impact on Rock Fragmentation and Dynamic Strain

Xiuzhi Shi,

Zongguo Zhang,

Xianyang Qiu

et al.

Abstract: Stemming length and stemming materials are crucial factors in blasting design, which affect the sustainability of mining. This study investigates the influence of stemming length and stemming material on rock fragmentation, stemming recoil, and surface strain response through 15 small-scale model blasting tests. The results indicate that when using clay as a stemming material, increasing the stemming length facilitates rock fragmentation and reduces the stemming recoil area. The strain measurements show that b… Show more

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Cited by 4 publications

References 49 publications

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In Situ Tests Comparing the Support Effects of Thin Spray-on Liner and Shotcrete on a Roadway Subjected to Blasting

Zhang,

Shi,

Qiu

et al. 2023

Rock Mech Rock Eng

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In Situ Tests Comparing the Support Effects of Thin Spray-on Liner and Shotcrete on a Roadway Subjected to Blasting

Zhang,

Shi,

Qiu

et al. 2023

Rock Mech Rock Eng

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Optimization of the matching relationship between the stemming length and minimum burden in cut blasting of large-diameter long-hole stopes

Zhang,

Qiu,

Shi

et al. 2023

Geomech. Geophys. Geo-energ. Geo-resour.

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Cut blasting, in which new surfaces and relief space for subsequent blasting are created, is one of the most critical steps in the establishment of large-diameter long-hole (LDL) stopes. To reduce the damage to the chamber roof caused by stemming recoil and improve the rock breaking effect, 15 groups of small-scale model tests with minimum burdens of 3, 4, 5, 6, and 7 cm and stemming lengths of 0, 2, 4, 5, 6, and 7 cm were designed to optimize the matching relationship between the stemming length and minimum burden. First, through the model tests, values were obtained for ten evaluation indexes related to the total mass of fragments, crate size, fragment size, fragmentation energy consumption, and stemming recoil area. Then, the normal cloud combination weighting method was used to combine six subjective and objective weighting methods, and combined weights were obtained. Finally, the test schemes were optimized according to the Euclidean distance and similarity. The test results showed that the best blasting scheme involves a burden of 5 cm and a stemming length of 5 cm, followed by that involving a burden of 4 cm and a stemming length of 4 cm, and the optimal stemming length is approximately equal to the minimum burden. A field test of LDL stope cut blasting was conducted, with a stemming length of 2.2 m and a minimum burden of 2.2 m in the boreholes. The highly satisfactory field blasting effect indicates that the stemming length and minimum burden are reasonable.

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Assessment of the optimized stemming length considering rock fragmentation and escape of explosive gases using actual large-scale results

Moomivand,

Soltanalinejad,

Karwansara

2025

Results in Engineering

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Experiment Study of Stemming Length and Stemming Material Impact on Rock Fragmentation and Dynamic Strain

Cited by 4 publications

References 49 publications

In Situ Tests Comparing the Support Effects of Thin Spray-on Liner and Shotcrete on a Roadway Subjected to Blasting

In Situ Tests Comparing the Support Effects of Thin Spray-on Liner and Shotcrete on a Roadway Subjected to Blasting

Optimization of the matching relationship between the stemming length and minimum burden in cut blasting of large-diameter long-hole stopes

Assessment of the optimized stemming length considering rock fragmentation and escape of explosive gases using actual large-scale results

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