Small faults formed as deformation bands in sandstone

Anderson, E. M.,The dynamics of faulting, Oliver and Boyd, London 1942, 183 pp.

Argon, A. S.,Plastic deformation in glassy polymers, inPolymeric materials (Relationship between structure and mechanical behavior), (Baer, E., and Radeliffe, S. V., eds.), Metals Park, Ohio 1975, ASM monograph, pp. 412–486.

Aydin, A.,Feild study and theoretical analysis of some small faults inMontana, Wyoming and Utah [M. S. Report], Stanford, California, Branner Library, Stanford University 1973, 51 pp.

Aydin, A. andJohnson, A. M.,Analysis of faults as deformation bands, zones of deformation bands, and slip surfaces in porous sandstone, submitted to Tectonophysics (in prep.).

Berg, C. A.,Plastic dilation and void interaction inInelastic behavior of solids (Kanninen, M. F., Adler, W. F., Rosenfield, A. R., and Jaffee, R. I., eds.), McGraw-Hill, New York 1970, pp. 171–210.

Berg, C. A. (1971),On plane dilatational plasticity, Studies Appl. Math.1, 193–203.

Borg, I. Y. andMaxwell, J. C. (1956),Interpretation of fabrics of experimentally deformed sands, Am. Jour. Sci.254, 71–81.

Borg, I. Y., Friedman, M., Handin, J. andHiggs, D. V. (1960),Experimental deformation of St. Peter sand: A study of cataclastic flow, inRock deformation (Griggs, D., and Handin, J., eds.), Geol. Soc. America Mem.79, 133–191.

Brace, W. F. (1960),An extension of the Griffith theory of fracture to rocks, Jour. Geophys. Research65, 3466–3480.

Brace, W. F.,Brittle fracture of rocks inState of stress in the earth's crust (Judd, W. R., ed.), Elsevier, New York 1964, pp. 110–174.

Carniglia, S. C. (1972),Working model for porosity effects on the uniaxial strength of ceramics, Am. Ceram. Soc. Jour.55, 610–618.

Cleary, M. P. andRudnicki, J. W. (1976),The initiation and propagation of dilatant rupture zones in geological materials inThe effects of voids on material deformation (Cowin, S. C., and Carroll, M. M., eds.), Am. Soc. Mech. Eng., Appl. Mech. Div.16, 13–30.

Dotson, B. J., Slobod, R. L., McCreery, P. N. andSpurlock, J. W. (1951),Porosity-measurement comparisons by five laboratories, Trans. AIME,192, 344.

Duckworth, W. (1953),Discussion of Ryshkewitch paper, Am. Ceram. Soc. Jour.36, 68.

Dunn, D. E., Lafountain, L. J. andJackson, R. E. (1973),Porosity dependence and mechanism of brittle fracture in sandstone, Jour. Geophys. Research78, 2403–2317.

Engelder, J. T. (1974),Caraclasis and the generation of fault gouge, Geol. Soc. America Bull.85, 1515–1522.

Friedman, M. (1963),Petrofabric analysis of experimentally deformed calcite-cemented sandstones, Jour. Geology71, 12–37.

Friedman, M. Porosity, permeability, and rock mechanics: A review, Seventeenth Symp. Rock Mech., Snowbird, Utah, August 1976, Proc.

Friedman, M. andLogan, J. M. (1973),Lüders' bands in experimentally deformed sandstone and limestone, Geol. Soc. America Bull.84, 1465–1476.

Gallagher, L. L., Friedman, M., Handin, J. andSowers, G. M. (1974),Experimental studies relating to microfracture in sandstone, Tectonophysics21, 203–247.

Hoshino, K. andKoide, H. (1970),Process of deformation of the sedimentary rocks, Second Conf. Internat. Soc. Rock Mech., Beograd, 1970, Proc.1, 2–3.

Hubbert, M. K. (1951),Mechanical basis for certain familiar geologic structures, Geol. Soc. America Bull.62, 355–372.

Johnson, A. M. andPollard, D. D. (1973),Mechanics of growth of some laccolithic intrusions in the Henry Mountains, Utah, I, Tectonophysics18, 261–309.

Kaufman, S. M. (1972),The role of pore size in the ultimate densification achievable during P/M forging, Internat. Jour. Powder Metall.8, 183–190.

Knudsen, I. P. (1959),Dependence of mechanical strength of brittle polycrystalline specimens on porosity and grain size. Am. Ceram. Soc. Jour.42, 376–387.

Logan, J. M. andTeufel, L. W. (1976),Comparison of contact areas and temperatures measured during frictional sliding of a sandstone and limestone: Part 2, Effect of normal stress on the real area of contact, Geol. Soc. America, Abs. with Programs (Ann. Mtg.)8, 982.

McClintock, F. A. (1968),A criterion for ductile fracture by the growth of holes, Jour. Appl. Mech.35, 363–371.

McClintock, F. A. andWalsh, B.,Friction on Griffith cracks in rocks under pressure, Fourth U.S. Natl. Cong. Appl. Mech., Berkeley, 1962, Proc., pp. 1015–1021.

Nadai, A.,Theory of flow and fracture of solids, McGraw-Hill, New York 1950, 571 pp.

Palmer, A. C. andRice, J. R. (1973),The growth of slip surfaces in the progressive failure of overconsolidated clay, Proc. Roy. Soc., London A 332, pp. 527–548.

Peng, S. andJohnson, A. M. (1972),Crack growth and faulting in cylindrical specimens of Chelmsford Granite, Internat. Jour. Rock Mech. Min. Sci.9, 37–86.

Rice, J. R.,The initiation and growth of shear bands inPlasticity and soil mechanics (Palmer, A. C., ed.), Proc. Symp. on the role of plasticity in soil mechanics, Cambridge, Sept. 1973, pp. 263–274.

Rice, J. R.,The localization of plastic deformation in Proc. Internat. Cong. Theoret. Appl. Mech. (Koiter, W. T., ed.), Delft, The Nederlands, 30 Aug.–4 Sept. 19761, 207–220, North Holland, Amsterdam.

Rodine, J. D. andJohnson, A. M. (1976),The ability of debris, heavily freighted with coarse clastic materials, to flow on gentle slopes, Sedimentology23, 213–234.

Rudnicki, J. W. andRice, J. R. (1975),Conditions for the localization of deformation in pressure-sensitive dilatant materials, Jour. Mech. Phys. Solids23, 371–394.

Ryshkewitch, E. (1953),Compression strength of porous alumina and zirconia, Am. Ceram. Soc. Jour36, 65–68.

Schatz, J. F. (1976),Models in inelastic volume deformation for porous geologic materials inThe effects of voids on material deformation (Cowin, S. C. and Carroll, M. M., eds.), Am. Soc. Mech. Eng., Appl. Mech. Div.16, 141–170.

Sprunt, E. S. (1976),Pressure solution, cementation and cathodoluminescence with emphasis on quartz, Ph.D. thesis, Stanford Univ., Stanford, Calif., 123 pp.

Stearns, D. W. (1968),Fracture as a mechanism of flow in naturally deformed layered rocks in Proc. Conf. Research in Tectonics (Baer, A. J. and Norris, D. K., eds.), Ottawa, March 1968, pp. 79–90.

Weinbrandt, R. M. andFatt, I. (1970),Scanning electron microscope study of the pore structure of sandstone inRock mechanics: theory and practice (Somerton, W. H., ed.), Proc. 11th Symp. Rock Mech., Berkeley, June 1969, pp. 629–641.

Wilkes, G. K., Samuels, S. L. andCrystal, R. (1974),Scanning and transmission electron microscopy studies on a model series of spherulitic segmented polyurethanes, Jour. Macromol. Sci.-Phys. B.10, 203–229.