The Experts below are selected from a list of 99 Experts worldwide ranked by ideXlab platform
Z.x. Zhang - One of the best experts on this subject based on the ideXlab platform.
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Chapter 4 – Effect of Loading Rate on Rock Fracture
Rock Fracture and Blasting, 2016Co-Authors: Z.x. ZhangAbstract:Various types of rock fracture occur at different Loading rates. For example, rock destruction by a boring machine, a jaw or cone crusher, and a grinding roll machine are within the extent of low Loading rates, often called Quasistatic Loading Condition. On the contrary, rock fracture in percussive drilling and blasting happens under high Loading rates, usually named dynamic Loading Condition. This chapter presents Loading rate effects on rock strengths, rock fracture toughness, rock fragmentation, energy partitioning, and energy efficiency. Finally, some of engineering applications of Loading rate effects are discussed.
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Effects of Loading rate on rock fracture
International Journal of Rock Mechanics and Mining Sciences, 1999Co-Authors: Z.x. Zhang, Shaoquan Kou, L. G. Jiang, Per-arne LindqvistAbstract:Various types of rock fracture occur at different Loading rates. For example, rock destruction by a boring machine, a jaw or cone crusher, and a grinding roll machine are within the extent of low Loading rates, often called Quasistatic Loading Condition. On the contrary, rock fracture in percussive drilling and blasting happens under high Loading rates, usually named dynamic Loading Condition. This chapter presents Loading rate effects on rock strengths, rock fracture toughness, rock fragmentation, energy partitioning, and energy efficiency. Finally, some of engineering applications of Loading rate effects are discussed.
Per-arne Lindqvist - One of the best experts on this subject based on the ideXlab platform.
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Effects of Loading rate on rock fracture
International Journal of Rock Mechanics and Mining Sciences, 1999Co-Authors: Z.x. Zhang, Shaoquan Kou, L. G. Jiang, Per-arne LindqvistAbstract:Various types of rock fracture occur at different Loading rates. For example, rock destruction by a boring machine, a jaw or cone crusher, and a grinding roll machine are within the extent of low Loading rates, often called Quasistatic Loading Condition. On the contrary, rock fracture in percussive drilling and blasting happens under high Loading rates, usually named dynamic Loading Condition. This chapter presents Loading rate effects on rock strengths, rock fracture toughness, rock fragmentation, energy partitioning, and energy efficiency. Finally, some of engineering applications of Loading rate effects are discussed.
Shaoquan Kou - One of the best experts on this subject based on the ideXlab platform.
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Effects of Loading rate on rock fracture
International Journal of Rock Mechanics and Mining Sciences, 1999Co-Authors: Z.x. Zhang, Shaoquan Kou, L. G. Jiang, Per-arne LindqvistAbstract:Various types of rock fracture occur at different Loading rates. For example, rock destruction by a boring machine, a jaw or cone crusher, and a grinding roll machine are within the extent of low Loading rates, often called Quasistatic Loading Condition. On the contrary, rock fracture in percussive drilling and blasting happens under high Loading rates, usually named dynamic Loading Condition. This chapter presents Loading rate effects on rock strengths, rock fracture toughness, rock fragmentation, energy partitioning, and energy efficiency. Finally, some of engineering applications of Loading rate effects are discussed.
L. G. Jiang - One of the best experts on this subject based on the ideXlab platform.
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Effects of Loading rate on rock fracture
International Journal of Rock Mechanics and Mining Sciences, 1999Co-Authors: Z.x. Zhang, Shaoquan Kou, L. G. Jiang, Per-arne LindqvistAbstract:Various types of rock fracture occur at different Loading rates. For example, rock destruction by a boring machine, a jaw or cone crusher, and a grinding roll machine are within the extent of low Loading rates, often called Quasistatic Loading Condition. On the contrary, rock fracture in percussive drilling and blasting happens under high Loading rates, usually named dynamic Loading Condition. This chapter presents Loading rate effects on rock strengths, rock fracture toughness, rock fragmentation, energy partitioning, and energy efficiency. Finally, some of engineering applications of Loading rate effects are discussed.
