Testing study of subcritical crack growth rate and fracture toughness in different rocks

Subcritical crack growth of double torsion specimens made of ore, lherzolite, marble and granite was studied using Instron1342 type electro hydraulic servo test machine. The relations of the mode-I stress intensity factor K1 versus the subcritical crack growth velocity v and the fracture toughness K...

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Published inTransactions of Nonferrous Metals Society of China Vol. 16; no. 3; pp. 709 - 713
Main Author 曹平 李江腾 袁海平
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.06.2006
School of Resources and Safety Engineering, Central South University, Changsha 410083, China
Subjects
constant displacement load relaxation method
double-torsion specimens
fracture toughness
rocks
subcritical crack growth
亚临界裂纹扩展
加载方法
岩石试验
断裂韧度
subcritical crack growth
fracture toughness
rocks
constant displacement load relaxation method
double-torsion specimens
Online AccessGet full text
ISSN1003-6326
DOI10.1016/S1003-6326(06)60126-X

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Abstract Subcritical crack growth of double torsion specimens made of ore, lherzolite, marble and granite was studied using Instron1342 type electro hydraulic servo test machine. The relations of the mode-I stress intensity factor K1 versus the subcritical crack growth velocity v and the fracture toughness K IC were obtained by the double torsion constant displacement load relaxation method. The behavior of subcritical crack growth was analyzed for different rocks. The results show that lgKI--lgv relations of four kinds of rocks measured by this method accord with linear rule, i.e. the relations between subcritical crack growth velocity and stress intensity factor have a power law, which is in good agreement with CHARLES theory, lgKI--lgv curves move to top left comer with the decrease of the elastic modulus, which implies that the subcritical crack growth velocity speeds up. The maximum subcritical crack growth velocity exhibits negative exponential increase, and mode-I fracture toughness KIC decreases with the decrease of elastic modulus. The testing results provide a basis for time-dependence of rock engineering stability.
AbstractList Subcritical crack growth of double torsion specimens made of ore, lherzolite, marble and granite was studied using Instron 1342 type electro hydraulic servo test machine. The relations of the mode-I stress intensity factor K(I) versus the subcritical crack growth velocity v and the fracture toughness K(IC) were obtained by the double torsion constant displacement load relaxation method. The behavior of subcritical crack growth was analyzed for different rocks. The results show that lgK(I)-lgv relations of four kinds of rocks measured by this method accord with linear rule, i.e. the relations between subcritical crack growth velocity and stress intensity factor have a power law, which is in good agreement with CHARLES theory. lgK(I)-lgv curves move to top left corner with the decrease of the elastic modulus, which implies that the subcritical crack growth velocity speeds up. The maximum subcritical crack growth velocity exhibits negative exponential increase, and mode-I fracture toughness K(IC) decreases with the decrease of elastic modulus. The testing results provide a basis for time-dependence of rock engineering stability.
Subcritical crack growth of double torsion specimens made of ore, 1herzolite, marble and granite was studied using Instron1342 type electro hydraulic servo test machine. The relations of the mode-I stress intensity factor K 1 versus the subcritical crack growth velocity v and the fracture toughness K IC were obtained by the double torsion constant displacement load relaxation method. The behavior of subcritical crack growth was analyzed for different rocks. The results show that 1g K I—1g v relations of four kinds of rocks measured by this method accord with linear rule, i.e. the relations between subcritical crack growth velocity and stress intensity factor have a power law, which is in good agreement with CHARLES theory. 1g K I—1g v curves move to top left corner with the decrease of the elastic modulus, which implies that the subcritical crack growth velocity speeds up. The maximum subcritical crack growth velocity exhibits negative exponential increase, and mode-I fracture toughness 1g K IC decreases with the decrease of elastic modulus. The testing results provide a basis for time-dependence of rock engineering stability.
Subcritical crack growth of double torsion specimens made of ore, lherzolite, marble and granite was studied using Instron1342 type electro hydraulic servo test machine. The relations of the mode-I stress intensity factor K1 versus the subcritical crack growth velocity v and the fracture toughness K IC were obtained by the double torsion constant displacement load relaxation method. The behavior of subcritical crack growth was analyzed for different rocks. The results show that lgKI--lgv relations of four kinds of rocks measured by this method accord with linear rule, i.e. the relations between subcritical crack growth velocity and stress intensity factor have a power law, which is in good agreement with CHARLES theory, lgKI--lgv curves move to top left comer with the decrease of the elastic modulus, which implies that the subcritical crack growth velocity speeds up. The maximum subcritical crack growth velocity exhibits negative exponential increase, and mode-I fracture toughness KIC decreases with the decrease of elastic modulus. The testing results provide a basis for time-dependence of rock engineering stability.
TG1; Subcritical crack growth of double torsion specimens made of ore, lherzolite, marble and granite was studied using Instron1342 type electro hydraulic servo test machine. The relations of the mode-Ⅰ stress intensity factor KI versus the subcritical crack growth velocity v and the fracture toughness KIC were obtained by the double torsion constant displacement load relaxation method. The behavior of subcritical crack growth was analyzed for different rocks. The results show that lgKI-lgv relations of four kinds of rocks measured by this method accord with linear rule, i.e. the relations between subcritical crack growth velocity and stress intensity factor have a power law, which is in good agreement with CHARLES theory. lgKI-lgv curves move to top left corner with the decrease of the elastic modulus, which implies that the subcritical crack growth velocity speeds up. The maximum subcritical crack growth velocity exhibits negative exponential increase, and mode-Ⅰ fracture toughness KIC decreases with the decrease of elastic modulus. The testing results provide a basis for time-dependence of rock engineering stability.
Author 曹平 李江腾 袁海平
AuthorAffiliation School of Resources and Safety Engineering, Central South University, Changsha 410083, China
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10.1520/JTE10015J
10.1016/S1365-1609(00)00045-9
10.1016/0148-9062(77)90200-5
10.1016/S0377-0273(99)00154-7
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Issue 3
Keywords subcritical crack growth
fracture toughness
rocks
constant displacement load relaxation method
double-torsion specimens
Language English
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Notes fracture toughness
43-1239/TG
rocks
constant displacement load relaxation method
TU452
subcritical crack growth
rocks; fracture toughness; subcritical crack growth; double-torsion specimens; constant displacement load relaxation method
double-torsion specimens
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SSID ssj0044661
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Snippet Subcritical crack growth of double torsion specimens made of ore, lherzolite, marble and granite was studied using Instron1342 type electro hydraulic servo...
Subcritical crack growth of double torsion specimens made of ore, 1herzolite, marble and granite was studied using Instron1342 type electro hydraulic servo...
Subcritical crack growth of double torsion specimens made of ore, lherzolite, marble and granite was studied using Instron 1342 type electro hydraulic servo...
TG1; Subcritical crack growth of double torsion specimens made of ore, lherzolite, marble and granite was studied using Instron1342 type electro hydraulic...
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SubjectTerms constant displacement load relaxation method
double-torsion specimens
fracture toughness
rocks
subcritical crack growth
亚临界裂纹扩展
加载方法
岩石试验
断裂韧度
Title Testing study of subcritical crack growth rate and fracture toughness in different rocks
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