Stress-strain behavior of soil-rock mixture at medium strain rates – Response to seismic dynamic loading

During hot working, deformation of metals such as copper or austenitic steels involves features of both diffusional flow and dislocation motion. As such, the true stress-true strain relationship depends on the strain rate. At low strain rates (or high temperatures), the stress-strain curve displays an oscillatory behavior with multiple peaks. As the strain rate increases (or as the temperature is reduced), the number of peaks on the stress-strain curve decreases, and at high strain rates, the stress rises to a single peak before settling at a steady-state value. It is understood that dynamic recovery is responsible for the stress-strain behavior with zero or a single peak, whereas dynamic recrystallization causes the oscillatory nature. In the past, most predictive models are based on either modified Johnson-Mehl-Avrami kinetic equations or probabilistic approaches. In this work, a delay differential equation is utilized for modeling such a stress-strain behavior. The approach takes into account for a delay time due to diffusion, which is expressed as the critical strain for nucleation for recrystallization. The solution shows that the oscillatory nature depends on the ratio of the critical strain for nucleation to the critical strain for completion for recrystallization. As the strain ratio increases, the stress-strain curve changes from a monotonic rise to a single peak, then to a multiple peak behavior. The model also predicts transient flow curves resulting from strain rate changes.

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Stress-Strain Behavior and Statistical Continuous Damage Model of Cement Mortar under High Strain Rates

Journal of Materials in Civil Engineering ◽

10.1061/(asce)mt.1943-5533.0000570 ◽

2013 ◽

Vol 25 (1) ◽

pp. 120-130 ◽

Cited By ~ 33

Author(s):

Jikai Zhou ◽

Xudong Chen

Keyword(s):

High Strain ◽

Cement Mortar ◽

Damage Model ◽

Strain Rates ◽

High Strain Rates ◽

Stress Strain ◽

Strain Behavior

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High Strain-Rate Compressive Behavior and Constitutive Modeling of Selected Polymers Using Modified Ramberg-Osgood Equation

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.566.80 ◽

2014 ◽

Vol 566 ◽

pp. 80-85

Author(s):

Kenji Nakai ◽

Takashi Yokoyama

Keyword(s):

High Strain Rate ◽

Strain Rate ◽

Compressive Stress ◽

Constitutive Modeling ◽

High Strain ◽

Strain Rates ◽

Stress Strain ◽

Strain Behavior ◽

Least Squares Fit ◽

Wide Range

The present paper is concerned with constitutive modeling of the compressive stress-strain behavior of selected polymers at strain rates from 10-3 to 103/s using a modified Ramberg-Osgood equation. High strain-rate compressive stress-strain curves up to strains of nearly 0.08 for four different commercially available extruded polymers were determined on the standard split Hopkinson pressure bar (SHPB). The low and intermediate strain-rate compressive stress-strain relations were measured in an Instron testing machine. Six parameters in the modified Ramberg-Osgood equation were determined by fitting to the experimental stress-strain data using a least-squares fit. It was shown that the monotonic compressive stress-strain behavior over a wide range of strain rates can successfully be described by the modified Ramberg-Osgood constitutive model. The limitations of the model were discussed.

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Master Curve for Tensile Stress—Strain Behavior of Amorphous Elastomers at Small and Large Deformations

Rubber Chemistry and Technology ◽

10.5254/1.3540442 ◽

1974 ◽

Vol 47 (2) ◽

pp. 318-332 ◽

Cited By ~ 4

Author(s):

N. Nakajima ◽

E. A. Collins ◽

H. H. Bowerman

Keyword(s):

Tensile Stress ◽

Master Curve ◽

Large Deformations ◽

Strain Rates ◽

Stress Strain ◽

Strain Behavior

Abstract A master curve scheme for small and large deformations was developed for tensile stress-strain behavior of butadiene—acrylonitrile uncrosslinked elastomers. Measurements were carried out at strain rates of 267 to 26,700 per cent/sec at temperatures of 25 to 97° C.

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Analysis of the tensile stress-strain behavior of elastomers at constant strain rates. I. Criteria for separability of the time and strain effects

Polymer Engineering & Science ◽

10.1002/pen.760211110 ◽

1981 ◽

Vol 21 (11) ◽

pp. 688-695 ◽

Cited By ~ 6

Author(s):

S. D. Hong ◽

R. F. Fedors ◽

F. Schwarzl ◽

J. Moacanin ◽

R. F. Landel

Keyword(s):

Tensile Stress ◽

Strain Rates ◽

Stress Strain ◽

Strain Effects ◽

Strain Behavior

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Tensile Stress—Strain and Stress Relaxation Behavior of Raw Elastomers Using a High Speed Tester

Rubber Chemistry and Technology ◽

10.5254/1.3540441 ◽

1974 ◽

Vol 47 (2) ◽

pp. 307-317 ◽

Cited By ~ 6

Author(s):

H. H. Bowerman ◽

E. A. Collins ◽

N. Nakajima

Keyword(s):

Stress Relaxation ◽

High Speed ◽

Strain Rates ◽

Time Behavior ◽

Stress Strain ◽

Strain Behavior ◽

Relaxation Measurements ◽

Ultimate Properties ◽

Short Time ◽

Acrylonitrile Copolymers

Abstract A high-speed, tensile-testing device was used to determine the stress—strain behavior of uncompounded butadiene—acrylonitrile copolymers over a range of temperatures and deformation rates. The strain rates were varied from 267 to 26,700 per cent/sec and the temperature was varied from 25 to 97° C. The high-speed tester was also used for stress—relaxation measurements by applying the strain nearly instantly in conformity with theoretical requirements in order to obtain the short time behavior. The WLF equation was obtained from the stress—relaxation data and then used to reduce the ultimate properties to one temperature over four decades of the strain rates. The ultimate properties could be represented by a failure envelope similar to those obtained for vulcanizates.

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Stress–strain behavior of a polyurea and a polyurethane from low to high strain rates

Polymer ◽

10.1016/j.polymer.2007.02.058 ◽

2007 ◽

Vol 48 (8) ◽

pp. 2208-2213 ◽

Cited By ~ 207

Author(s):

Sai S. Sarva ◽

Stephanie Deschanel ◽

Mary C. Boyce ◽

Weinong Chen

Keyword(s):

High Strain ◽

Strain Rates ◽

High Strain Rates ◽

Stress Strain ◽

Strain Behavior

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Estimation of Stress-Strain behavior of polyethylene terephthalate (PET) at different strain rates by Artificial Neural Network under simultaneous stretch scenario

10.25518/esaform21.1995 ◽

2021 ◽

Author(s):

Fei Teng ◽

Gary Menary ◽

Savko Malinov ◽

Shiyong Yan

Keyword(s):

Neural Network ◽

Artificial Neural Network ◽

Strain Rate ◽

Strain Rates ◽

Stress Strain ◽

Strain Behavior ◽

Strain And Strain Rate ◽

Artificial Neural ◽

Artificial Neural Network Ann ◽

High Degree

In this paper, an Artificial Neural Network (ANN) is used to predict the stress-strain behavior of PET at conditions relevant to Stretch Blow Moulding i.e. Large equibiaxial deformation at elevated temperature and high strain rate. The input vectors considered are temperature, strain, and strain rate with a corresponding output parameter of stress. In the present work, a feed-forward back backpropagation algorithm was used to train the ANN. The ANN is able to approximate the relationship between stress and strain at various strain rates & temperatures to a high degree of accuracy for all conditions tested.

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Loading rate effect on mechanical properties of an unsaturated silty sand

MATEC Web of Conferences ◽

10.1051/matecconf/202133701018 ◽

2021 ◽

Vol 337 ◽

pp. 01018

Author(s):

Christian Barahona ◽

Luis Sandi ◽

Juan Carlos Rojas ◽

Di Emidio Gemmina ◽

Adam Bezuijen ◽

...

Keyword(s):

Specific Volume ◽

Loading Rate ◽

Silty Sand ◽

Triaxial Tests ◽

Strain Rates ◽

Soil Behavior ◽

Stress Strain ◽

Loading Rates ◽

Strain Behavior ◽

Strain Paths

This paper presents the results of an experimental study on the effects of testing rate on stress-strain behavior and volumetric changes of soil. A series of suction-controlled triaxial tests has been performed on reconstituted specimens of a silty sand (SM), at different stress-rates and strain-rates, respectively. The stress-strain paths were applied by using a modified version of a Bishop and Wesley device (USPv2), capable of applying independently pore-water and air pressure at both ends of the soil sample. During the isotropic compression stages loading rates of 2 and 32 kPa/h have been applied under constant suction values of 15 and 45 kPa. The drained deviator stages were conducted at the same suction levels under strain rates of 0.25 and 2.50 %/h. Results are presented in terms of applied loading rates as a function of the specimens specific volume, preconsolidation pressure, soil compressibility and deviatoric stress against strain rate. A comparison of results was made to a former study, under similar testing conditions of suction and loading rates at University of Napoli Federico II. The effect of loading rate on the soil behavior seems to have an insignificant effect on the specific volume variations, for the imposed values during the testing campaign.

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