Measurement of joint roughness coefficient by using profilograph and roughness ruler
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- 作者:Shigui Du (1)
Yunjin Hu (2)
Xiaofei Hu (3) - 关键词:joint roughness coefficient ; profilograph ; roughness ruler ; empirical estimation ; directional statistical measurement
- 刊名:Journal of Earth Science
- 出版年:2009
- 出版时间:October 2009
- 年:2009
- 卷:20
- 期:5
- 页码:890-896
- 全文大小:684KB
- 参考文献:1. Bandis, S. C., 1980. Experimental Studies of Scale Effects on Shear Strength, and Deformation of Rock Joints [Dissertation]. University of Leeds, Leeds
2. Barton, N., Choubey, V., 1977. The Shear Strength of Rock Joints in Theory and Practice. / Rock Mech., 10(1-): 1-4 CrossRef
3. Beer, A. J., Stead, D., Coggan, J. S., 2002. Estimation of the Joint Roughness Coefficient ( / JRC) by Visual Comparison. / Rock Mech. Rock Engng., 35(1): 65-4 CrossRef
4. Brown, E. T., 1981. Rock Characterization Testing and Monitoring (ISRM Suggested Methods). Pergamon Press, Oxford. 129-40
5. Du, S. G., 1994. The Directional Statistical Evaluation of Rock Joint Roughness Coefficient. / Journal of Engineering Geology, 2(3): 62-1 (in Chinese with English Abstract)
6. Du, S. G., 1997. The Practicability of Fractal Methods on Estimating Rock Joint Roughness Coefficient. / Earth Science-Journal of China University of Geosciences, 22(6):665-68 (in Chinese with English Abstract)
7. Du, S. G., 2004. Empirical Estimation for the Shear Strength of Rock Discontinuities. Seismic Press, Beijing. 103-10 (in Chinese)
8. Du, S. G., Chen, Y., Fang, L. B., 1996. Mathematical Expression of / JRC Modified Straight Edge. / Journal of Engineering Geology, 4(2): 36-3 (in Chinese with English Abstract)
9. Fecker, E., Rengers, N., 1971. Measurement of Large Scale Roughnesses of Rock Planes by Means of Profilograph and Geological Compass. Proceedings Symposium on Rock Fracture, Nancy. 1-8
10. Hass, C. J., Keith, H. D., Nitzsche, R. N., et al., 1975. An Investigation of the Interaction of Rock and Types of Rock Bolts for Selected Loading Conditions. Second Annual Report, U. S. Bureau of Mines Contract, Missouri Univ., Rolla, USA. 76-8
11. Milne, D., 1990. Standardized Joint Descriptions for Improved Rock Classification. In: Hustrulid, W. A., Johnson, G. A., eds., Rock Mechanics Contributions and Challenges. Proceedings of the 31st U.S. Symposium on Rock Mechanics, Balkema, Rotterdam. 35-1
12. Stimpson, B., 1982. A Rapid Filed Method for Recording Joint Roughness. / Int. J. Roc. Mech. Min. Geomech., 19: 345-46 CrossRef
13. Tse, R., Cruden, D. M., 1979. Estimating Joint Roughness Coefficients. / Int. J. Rock Mech. Min. Sci. Geomech., 16: 303-07 CrossRef
14. Yang, Z. Y., Lo, S. C., Di, C. C., 2001. Reassessing the Joint Roughness Coefficient ( / JRC) Estimation Using / Z 2. / Rock Mech. Rock Engng., 34(3): 243-51 CrossRef - 作者单位:Shigui Du (1)
Yunjin Hu (2)
Xiaofei Hu (3)
1. Zhejiang Industry Polytechnic College, Shaoxing, 312000, China
2. College of Civil Engineering and Architecture, Zhejiang University, Hangzhou, 310027, China
3. Jinhua University, Jinhua, 321007, China - ISSN:1867-111X
文摘
Joint roughness coefficient (JRC) is the key parameter for the empirical estimation of joint shear strength by using the JRC-JCS (joint wall compressive strength) model. Because JRC has such characteristics as nonuniformity, anisotropy, and unhomogeneity, directional statistical measurement of JRC is the precondition for ensuring the reliability of the empirical estimation method. However, the directional statistical measurement of JRC is time-consuming. In order to present an ideal measurement method of JRC, new profilographs and roughness rulers were developed according to the properties of rock joint undulating shape based on the review of measurement methods of JRC. Operation methods of the profilographs and roughness rulers were also introduced. A case study shows that the instruments and operation methods produce an effective means for the statistical measurement of JRC.