The influence of faults on the engineering behavior of rock masses

Kaaki, Ahmad Abdullah

January 1990

No description available.

551

Friction; Shear strength

In vitro comparison of the immediate adhesive strength in dentin of three universal adhesive systems

Acurio-Benavente, Mariana, Kinoshita-Rivas, Haru, Acurio-Benavente, Paloma, Casas-Apayco, Leslie

05 1900

Objective: To compare the adhesive strength in dentin of three universal adhesive systems in vitro by means of the shear test. Materials and methods: Seventy-five bovine teeth were selected and cut. Dentin was exposed from the buccal surface of the crowns with 220 grit sandpaper, and samples were then inserted in transparent acrylic bases (15x10mm). The samples were randomly divided in 3 groups (n=25): G1-Universal adhesive system Scotchbond™ Universal (3M ESPE-USA); G2-Universal adhesive system Peak Universal Bond (Ultradent); G3-Universal adhesive system Tetric N-Bond (Ivoclar Vivadent). The adhesive procedures were carried out according to the instructions of each manufacturer and the restorative procedures were carried out with micro-cylinders (made of Tygon type tubing 0.79x1.5mm) of the composite resin Filtek™ Z350XT-A2 (3M ESPE-USA). The samples were incubated at 37ºC (+/-5ºC) for 24 hours. Adhesive strength was evaluated in a universal test machine by means of the shear test (0.5mm/ min, 500N) and the resulting fracture type was evaluated with a Dinolite digital microscope (x200). The results were analyzed by descriptive statistics (Mean±SD), and inferential statistics by a one-way ANOVA. Results: No statistically significant differences were found between the universal adhesive systems evaluated G1 (14.91±4.76), G2 (16.90±4.11) and G3 (17.34±4.04)/(p=0.114). Conclusions: The shear test resulted in similar values of immediate adhesive strength of the three universal adhesive systems used. / Revisión por pares

Dentin

Adhesives

Shear strength

The effective shear strength of artificially fissured overconsolidated clays.

Sabzalisenejani, Ali

January 1998

The effective shear strength of artificially overconsolidated clays with continuous fissures, or with discontinuous or partial fissuring, has been discussed from both the experimental and numerical points of view.Direct shear and triaxial tests have been conducted on a range of unfissured, partially and fully fissured specimens of artificially overconsolidated clay samples in the laboratory. Specimens subjected to direct shear tests have been prepared in three different preconsolidation pressures and two or three different Overconsolidation ratios (OCR) for unfissured, partially and fully fissured specimens. Specimens subjected to triaxial tests also were prepared for three different preconsolidation pressures and overconsolidation ratios. In order to investigate the effect of orientation of fissures, artificially overconsolidated fissured triaxial specimens were prepared in three different orientations at 30 degrees, 45 degrees and 60 degrees to the direction of minimum principal stress (sigma[subscript]3).For both direct shear and triaxial tests, special tools and devices were designed and constructed to prepare unfissured, partially and fully fissured specimens.Taking into account the number of parameters which influence the effective shear strength of overconsolidated clays, and the time which is needed to artificially prepare the overconsolidated specimens and to run drained tests, as well as the impossibility or impracticality of the laboratory simulations for some specific cases, numerical methods were used to complement the experimental component of the investigation.Numerical modelling of direct shear and triaxial specimens utilised the FLAC (Fast Lagrangian Analysis of Continua, Itasca, 1993) program for two dimensional simulation of the direct shear tests and the ANSYS (1996) program for three dimensional simulation of triaxial tests. The experimental ++ / results have been used to calibrate the coefficients of the numerical models and to verify the results obtained from numerical models.Strain softening behaviour was simulated numerically for unfissured and fully fissured specimens subjected to direct shear tests. Using the obtained experimental and numerical results of the study of direct shear tests with respect to the effects of different parameters on the effective shear strength of the spacing subjected to direct shear tests and also FLAC programming, FLACish (FISH), a model was written designated as the Homogenised Strain Softening Model (HSSM). In this model the effects of different parameters discussed in this thesis, are applied to the Mohr Coulomb parameters (c'[subscript]u and phi'[subscript]u) of unfissured specimens. This model was used to predict the effective shear strength of cases in which laboratory simulation was impractical or not feasible.The advantage of this model (HSSM) is that it relates the effective shear strength of the fissured mass to the corresponding Coulomb parameters (c'[subscript]u and phi'[subscript]u) of the intact or unfissured overconsolidated clay specimen with reduction functions relating to the parameters discussed in this thesis.The numerical models developed by ANSYS were calibrated and verified by the experimental results, and then used to predict or estimate the effects of confining pressure, orientation of fissures on the three dimensional modelling of the partially and fully fissured overconsolidated triaxial specimens.In this thesis the effects of the type of clay, preconsolidation (P'[subscript]c) pressure, Overconsolidation ratio (OCR), size of sample, rate of shearing and fissure parameters, such as spacing, width and orientation of fissure were discussed and identified or quantified to estimate the effective shear strength of the artificially overconsolidated ++ / fissured samples. These results are applicable for the estimation of the effective shear strength of the naturally overconsolidated fissured mass by homogenising the effects of the parameters on the Mohr Coulomb parameters (c'[subscript]u and phi'[subscript]u) of the intact or unfissured clay mass.

fissured clay, shear strength.

Finite element slope analysis by limiting equilibrium

Hoskins, William Norman, 1943-

January 1973

No description available.

Shear strength of soils -- Testing.

Saturation effects on shear strength of unsaturated soil under consolidated drained conditions

Tang, Kwok Ming.

January 1984

No description available.

Shear strength of soils -- Testing.

Some considerations of the shear strength of a fabric anisotropic soil

Liao, Chung-Lon.

January 1979

No description available.

Shear strength of soils -- Testing.

The stability of geosynthetics in landfill lining systems

Jones, David Russell Vaughan

January 1999

No description available.

628.44

Shear strength; Interface

Test procedures for low-confining stress, multistage triaxial testing of compacted cohesive soils /

Kliewer, Julie E.

January 1992

Thesis (M.S.)--Oregon State University, 1993. / Typescript (photography). Includes bibliographical references (leaves 64-66). Also available on the World Wide Web.

Soils Shear strength of soils

Experimental study of shear behavior of soils with abundant coarse particles associated with slip zones of large landslides in the Three Gorges reservoir, China

Li, Yanrong,

January 2009

Thesis (Ph. D.)--University of Hong Kong, 2009. / Includes bibliographical references (leaves 190-205). Also available in print.

Shear strength of soils Landslides

Laboratory and field studies of drying-wetting effects on shear strength, SDSWCC and permeability of an unsaturated saprolite /

Tse, Yin Man.

January 2008

Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2008. / Includes bibliographical references (leaves 180-203). Also available in electronic version.

Saprolites. Shear strength of soils