Viscous normal stresses and fingertip tripling in radial Hele-Shaw flows

The study of the implementation of the Saint-Venant principle for restrained rods of the I-section exposed to various loads at its free end is carried out. When using the program complex LIRA SAPR are defined zones of disturbance of normal stresses.

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Nonlinear Theory for Flexural Motions of Thin Elastic Plate, Part 3: Numerical Evaluation of Boundary Layer Solutions

Journal of Applied Mechanics ◽

10.1115/1.3162102 ◽

1982 ◽

Vol 49 (2) ◽

pp. 409-416

Author(s):

N. Sugimoto

Keyword(s):

Boundary Layer ◽

Stress Singularity ◽

Free Edge ◽

Thin Elastic Plate ◽

Normal Stresses ◽

Interior Region ◽

First Order ◽

Plausible Values ◽

Bending Stresses ◽

Order Stress

The boundary layer solutions previoulsy obtained in Part 2 of this series for the cases of the built-in edge and the free edge are evaluated numerically. For the built-in edge, a characteristic penetration depth of the boundary layer toward the interior region is given by 0.13 εh, εh being the normalized thickness of the plate, while for the free edge, it is given by 0.32 εh. Thus the boundary layer for the free edge penetrates more deeply toward the interior region than that for the built-in edge. The first-order stress distribution in each boundary layer is displayed. For the built-in edge, the stress singularity appears on the edge. It is shown that, in the boundary layer, the shearing and normal stresses become comparable with the bending stresses. Similarly for the free edge, the shearing stress also becomes comparable with the twisting stress. It should be remarked that, in the boundary layer, the shearing or the normal stress plays a primarily important role as the bending or the twisting stress. But the former decays toward the interior region and remains higher order than the latter. Finally owing to these numerical results, the coefficients involved in the “reduced” boundary conditions for the built-in edge are evaluated for the various plausible values of Poisson’s ratio.

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Rock Stress Measurements for Unlined Pressure Tunnels: A True Triaxial Laboratory Experiment to Investigate the Ability of a Simplified Hydraulic Jacking Test to Assess Fracture Normal Stress

Rock Mechanics and Rock Engineering ◽

10.1007/s00603-021-02452-9 ◽

2021 ◽

Author(s):

Henki Ødegaard ◽

Bjørn Nilsen

Keyword(s):

Normal Stress ◽

Test Method ◽

Sudden Increase ◽

Normal Stresses ◽

True Triaxial ◽

Step Rate ◽

Stress Measurements ◽

Fracture Closure ◽

Rate Test ◽

Hydraulic Jacking

AbstractTo avoid hydraulic failure of unlined pressure tunnels, knowledge of minimum principal stress is needed. Such knowledge is only obtainable from in situ measurements, which are often time-consuming and relatively costly, effectively limiting the number of measurements typically performed. In an effort to enable more stress measurements, the authors propose a simplified and cost-effective stress measuring method; the Rapid Step-Rate Test (RSRT), which is based on existing hydraulic testing methods. To investigate the ability of this test to measure fracture normal stresses in field-like conditions, a true triaxial laboratory test rig has been developed. Hydraulic jacking experiments performed on four granite specimens, each containing a fracture, have been performed. Interpretation of pressure-, flow- and acoustic emission (AE) data has been used to interpret fracture behaviour and to assess fracture normal stresses. Our experimental data suggest that the proposed test method, to a satisfactory degree of reliability, can measure the magnitude of fracture normal stress. In addition, a clear correlation has been found between fracture closure and sudden increase in AE rate, suggesting that AE monitoring during testing can serve as a useful addition to the test. The rapid step-rate test is also considered relevant for field-scale measurements, with only minor adaptions. Our findings suggest that the RSRT can represent a way to get closer to the ideal of performing more testing along the entire length of pressure tunnel, and not only at key locations, which requires interpolation of stress data with varying degree of validity.

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Reduction of Free-Edge Stress Concentration

Journal of Applied Mechanics ◽

10.1115/1.3169149 ◽

1985 ◽

Vol 52 (4) ◽

pp. 801-805 ◽

Cited By ~ 15

Author(s):

P. R. Heyliger ◽

J. N. Reddy

Keyword(s):

Finite Element ◽

Stress Concentration ◽

Finite Element Model ◽

Three Dimensional ◽

Element Model ◽

Free Edge ◽

Shear Stresses ◽

Normal Stresses ◽

Interlaminar Shear ◽

Three Dimensional Elasticity

A quasi-three dimensional elasticity formulation and associated finite element model for the stress analysis of symmetric laminates with free-edge cap reinforcement are described. Numerical results are presented to show the effect of the reinforcement on the reduction of free-edge stresses. It is observed that the interlaminar normal stresses are reduced considerably more than the interlaminar shear stresses due to the free-edge reinforcement.

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Experimental Determination of the Two-Dimensional State of Stress and the Orthotropic Elasticity Coefficients for Coatings

MRS Proceedings ◽

10.1557/proc-203-129 ◽

1990 ◽

Vol 203 ◽

Cited By ~ 2

Author(s):

Richard J. Farris ◽

M. A. Maden ◽

K. Tong

Keyword(s):

Elastic Constants ◽

Physical Property ◽

The State ◽

Normal Stresses ◽

Free Standing ◽

Vibrationally Excited ◽

Plane Shear ◽

Plane Normal ◽

State Of Stress ◽

The One

ABSTRACTThe state of stress for a uniform coating away from the edges reduces to that of plane stress, two in-plane normal stresses, and an in-plane shear stress. For this state, the interface between the coating and the substrate is totally stress free. Since the substrate and the coating are not interacting mechanically, an internal section of the substrate can be removed creating a tensioned drum-like membrane without altering the stress state. Holographic interferometry of vibrationally excited membranes is used to evaluate the stress. Using this technique, up to thirty vibrational modes can be obtained. This high degree of redundancy enables one to determine the one shear and two normal stresses that act in the plane of the coating. The only physical property requires is the coating density. The density is obtained from commonly reported literature values. Simple variations on the membrane vibration scheme, e.g., cutting the membrane to create a uniaxially tensioned ribbon, enables one to determine the in-plane Poisson's ratio and shearmodulus.In separate but related experiments on commercially made free-standing films with residual orientation, the above techniques, combined with special free and axially constrainedcompressibility experiments should enable all of the Poisson's ratios and elasticmoduli for an orthotropic material (nine elastic constants) to be determined. Methods for measuring the state of stress and the elastic constants are required to predict the state of stress in complex coating geometries.

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Effect of filling on the first difference of the normal stresses in a melt of low-density polyethylene with steady-state shear flow

Polymer Mechanics ◽

10.1007/bf00858220 ◽

1973 ◽

Vol 6 (3) ◽

pp. 490-491

Author(s):

L. A. Faitel'son ◽

A. I. Alekseenko

Keyword(s):

Steady State ◽

Shear Flow ◽

Low Density Polyethylene ◽

Low Density ◽

Normal Stresses

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Shear strength and dilative characteristics of an unsaturated compacted completely decomposed granite soil

Canadian Geotechnical Journal ◽

10.1139/t10-015 ◽

2010 ◽

Vol 47 (10) ◽

pp. 1112-1126 ◽

Cited By ~ 42

Author(s):

Md. Akhtar Hossain ◽

Jian-Hua Yin

Keyword(s):

Shear Strength ◽

Normal Stress ◽

Matric Suction ◽

Water Retention Curve ◽

Direct Shear ◽

Normal Stresses ◽

Soil Water Retention Curve ◽

Strength Data ◽

Decomposed Granite ◽

Completely Decomposed Granite

Shear strength and dilative characteristics of a re-compacted completely decomposed granite (CDG) soil are studied by performing a series of single-stage consolidated drained direct shear tests under different matric suctions and net normal stresses. The axis-translation technique is applied to control the pore-water and pore-air pressures. A soil-water retention curve (SWRC) is obtained for the CDG soil from the equilibrium water content corresponding to each applied matric suction value for zero net normal stress using a modified direct shear apparatus. Shear strength increases with matric suction and net normal stress, and the failure envelope is observed to be linear. The apparent angle of internal friction and cohesion intercept increase with matric suction. A greater dilation angle is found at higher suctions with lower net normal stresses, while lower or zero dilation angles are observed under higher net normal stresses with lower suctions, also at a saturated condition. Experimental shear strength data are compared with the analytical shear strength results obtained from a previously modified model considering the SWRC, effective shear strength parameters, and analytical dilation angles. The experimental shear strength data are slightly higher than the analytical results under higher net normal stresses in a higher suction range.

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Residual shear strength of fine-grained soils and soil–solid interfaces at low effective normal stresses

Canadian Geotechnical Journal ◽

10.1139/cgj-2014-0019 ◽

2015 ◽

Vol 52 (2) ◽

pp. 198-210 ◽

Cited By ~ 23

Author(s):

Hisham T. Eid ◽

Ruslan S. Amarasinghe ◽

Khaled H. Rabie ◽

Dharma Wijewickreme

Keyword(s):

Shear Strength ◽

Large Strain ◽

Laboratory Research ◽

Normal Stresses ◽

Interface Shear ◽

Residual Shear Strength ◽

Fine Grained ◽

Solid Interface ◽

Wide Range ◽

Shear Area

A laboratory research program was undertaken to study the large-strain shear strength characteristics of fine-grained soils under low effective normal stresses (∼3–7 kPa). Soils that cover a wide range of plasticity and composition were utilized in the program. The interface shear strength of these soils against a number of solid surfaces having different roughness was also investigated at similar low effective normal stress levels. The findings contribute to advancing the knowledge of the parameters needed for the design of pipelines placed on sea beds and the stability analysis of shallow soil slopes. A Bromhead-type torsional ring-shear apparatus was modified to suit measuring soil–soil and soil–solid interface residual shear strengths at the low effective normal stresses. In consideration of increasing the accuracy of assessment and depicting the full-scale field behavior, the interface residual shear strengths were also measured using a macroscale interface direct shear device with a plan interface shear area of ∼3.0 m2. Correlations are developed to estimate the soil–soil and soil–solid interface residual shear strengths at low effective normal stresses. The correlations are compared with soil–soil and soil–solid interface drained residual shear strengths and correlations presented in the literature.

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