Experimental and theoretical study of mechanical behavior of 1100 aluminum in the strain rate range 10−5−104s−1

Uni-axial quasi-static tests at strain rates 10-5, 10-4, 10-3,10-2 and 10-1 s-1 and dynamic compressive tests at strain rates 1679, 2769,5000 and 8200 s-1 have been carried out to study the mechanical behavior for polycarbonate used in the avigation industry. The stress–strain curves of polycarbonate in the strain-rate range from 10-5 to 8200 s-1 have been obtained. The effects of the strain rate on yield phenomenon and rate-dependent mechanical behavior are discussed. A plastic flow law based on the DSGZ rate-temperature-dependent constitutive model was used to describe the mechanical behavior of polycarbonate in the strain-rate range from 10-5 to 103 s-1. The results at the six strain rates are in excellent agreement with the experimental data, which illustrates that the constitutive model can describe the mechanical behavior for polycarbonate at low and high strain rates perfectly.

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Deformation resistance and fracture of iron over a wide strain rate range

Physics of the Solid State ◽

10.1134/s1063783414080113 ◽

2014 ◽

Vol 56 (8) ◽

pp. 1569-1573 ◽

Cited By ~ 18

Author(s):

G. I. Kanel ◽

S. V. Razorenov ◽

G. V. Garkushin ◽

S. I. Ashitkov ◽

P. S. Komarov ◽

...

Keyword(s):

Strain Rate ◽

Strain Rate Range ◽

Deformation Resistance ◽

Rate Range

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Extension of Flow Behaviour and Damage Models for Cast Iron Alloys with Strain Rate Effect

10.21203/rs.3.rs-113055/v1 ◽

2020 ◽

Author(s):

Chuang Liu ◽

Dongzhi Sun ◽

Xianfeng Zhang ◽

Florence Andrieux ◽

Tobias Gerster

Keyword(s):

Cast Iron ◽

Constitutive Model ◽

Strain Rate ◽

Mechanical Behavior ◽

Damage Model ◽

Iron Alloys ◽

Strain Rate Range ◽

Strain Rates ◽

Damage Models ◽

Rate Dependent

Abstract Cast iron alloys with low production cost and quite good mechanical properties are widely used in the automotive industry. To study the mechanical behavior of a typical ductile cast iron (GJS-450) with nodular graphite, uni-axial quasi-static and dynamic tensile tests at strain rates of 10− 4, 1, 10, 100, and 250 s− 1 were carried out. In order to investigate the effects of stress state, specimens with various geometries were used in the experiments. Stress–strain curves and fracture strains of the GJS-450 alloy in the strain-rate range of 10− 4 to 250 s− 1 were obtained. A strain rate-dependent plastic flow law based on the Voce model is proposed to describe the mechanical behavior in the corresponding strain-rate range. The deformation behavior at various strain rates is observed and analyzed through simulations with the proposed strain rate-dependent constitutive model. The available damage model from Bai and Wierzbicki is extended to take the strain rate into account and calibrated based on the analysis of local fracture strains. The validity of the proposed constitutive model including the damage model was verified by the corresponding experimental results. The results show that the strain rate has obviously nonlinear effects on the yield stress and fracture strain of GJS-450 alloys. The predictions with the proposed constitutive model and damage models at various strain rates agree well with the experimental results, which illustrates that the rate-dependent flow rule and damage models can be used to describe the mechanical behavior of cast iron alloys at elevated strain rates.

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Tensile Stress-Strain Curves Modeling of Four Kinds of Solders with Temperature and Rate Dependence

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.297-300.905 ◽

2005 ◽

Vol 297-300 ◽

pp. 905-911 ◽

Cited By ~ 2

Author(s):

Xu Chen ◽

Li Zhang ◽

Masao Sakane ◽

Haruo Nose

Keyword(s):

Tensile Stress ◽

Constitutive Model ◽

Strain Rate ◽

Constant Strain Rate ◽

Tensile Tests ◽

Strain Rate Range ◽

Rate Dependence ◽

Strain Rates ◽

Stress Strain ◽

Rate Range

A series of tensile tests at constant strain rate were conducted on tin-lead based solders with different Sn content under wide ranges of temperatures and strain rates. It was shown that the stress-strain relationships had strong temperature- and strain rate- dependence. The parameters of Anand model for four solders were determined. The four solders were 60Sn-40Pb, 40Sn-60Pb, 10Sn-90Pb and 5Sn-95Pb. Anand constitutive model was employed to simulate the stress-strain behaviors of the solders for the temperature range from 313K to 398K and the strain rate range from 0.001%sP -1 P to 2%sP -1 P. The results showed that Anand model can adequately predict the rate- and temperature- related constitutive behaviors at all test temperatures and strain rates.

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Study on Plastic Deformation Behavior of Mo-10Ta under Ultra-High Strain Rate

Metals ◽

10.3390/met10091153 ◽

2020 ◽

Vol 10 (9) ◽

pp. 1153

Author(s):

Ping Song ◽

Wen-Bin Li ◽

Yu Zheng ◽

Jiu-Peng Song ◽

Xiang-Cao Jiang ◽

...

Keyword(s):

Activation Energy ◽

High Strain Rate ◽

Strain Rate ◽

Strain Rate Sensitivity ◽

Deformation Behavior ◽

High Strain ◽

Rate Sensitivity ◽

Strain Rate Range ◽

Rate Range ◽

Strain Relationship

This study investigated the deformation behavior of the Mo-10Ta alloy with a strain rate range of 102–105 s−1. The Split Hopkinson pressure bar (SHPB) experiments were conducted to investigate the influence of deformation conditions on the stress-strain relationship and strain rate sensitivity of the material within a strain rate range of 0.001–4500 s−1. The Shaped Charge Jet (SCJ) forming experiments under detonation loading was conducted to clarify the dynamic response and microstructure evolution of the material within an ultra-high strain rates range of 104–105 s−1. Based on the stress-strain relationship of Mo-10Ta alloy at high temperature (286–873 K) and high strain rate (460–4500 s−1), the influence of temperature and strain rate on the activation energy Q was analyzed. The results indicate that the material strain rate sensitivity increased with the increase in strain rate and strain. Meanwhile, the activation energy Q decreased as the temperature and strain rate increased. The plasticity of the Mo-10Ta alloy under the condition of SCJ forming was substantially enhanced compared with that under quasi-static deformation. The material grain was also refined under ultra-high strain rate, as reflected by the reduction in grain size from 232 μm to less than 10 μm.

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Extraordinary High Strain Rate Superplasticity of an Al-Mg-Sc-Zr Alloy Subjected to Equal Channel Angular Pressing

Materials Science Forum ◽

10.4028/www.scientific.net/msf.735.295 ◽

2012 ◽

Vol 735 ◽

pp. 295-300

Author(s):

Elena Avtokratova ◽

Oleg Sitdikov ◽

Michael Markushev ◽

Radik R. Mulyukov

Keyword(s):

Strain Rate ◽

Equal Channel Angular Pressing ◽

High Strain ◽

Strain Rate Range ◽

Rate Range ◽

Angular Pressing ◽

Ultrafine Grained ◽

Excess Phases ◽

Ultrafine Grained Microstructure ◽

Zr Alloy

Unique superplastic elongations up to 4100% were achieved at 450°C in the strain rate range of 10-2-10-1s-1for Al-Mg-Sc-Zr alloy with a grain size ~1 μm processed by warm-to-hot equal channel angular pressing. Such a behavior is attributed to the synergy of complementary factors resulted in high homogeneity and stability of ultrafine-grained microstructure and superplastic flow, involving large proportion of high-angle grain boundaries, presence of dispersoids of aluminides of transition metals and negligible amount of coarse excess phases.

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Modeling of the Strain Rate Dependency of Polycarbonate’s Yield Stress: Evaluation of Four Constitutive Equations

Journal of Engineering ◽

10.1155/2016/6315421 ◽

2016 ◽

Vol 2016 ◽

pp. 1-9 ◽

Cited By ~ 5

Author(s):

Abdullah A. Al-Juaid ◽

Ramzi Othman

Keyword(s):

Experimental Data ◽

Strain Rate ◽

Yield Stress ◽

Power Law ◽

Constitutive Relations ◽

Stress Sensitivity ◽

Strain Rate Range ◽

Rate Dependency ◽

Rate Range ◽

Strain Rate Dependency

The main focus of this paper is in evaluating four constitutive relations which model the strain rate dependency of polymers yield stress. Namely, the two-term power-law, the Ree-Eyring, the cooperative, and the newly modified-Eyring equations are used to fit tensile and compression yield stresses of polycarbonate, which are obtained from the literature. The four equations give good agreement with the experimental data. Despite using only three material constants, the modified-Eyring equation, which considers a strain rate-dependent activation volume, gives slightly worse fit than the three other equations. The two-term power-law and the cooperative equation predict a progressive increase in the strain rate sensitivity of the yield stress. Oppositely, the Ree-Eyring and the modified-Eyring equations show a clear transition between the low and high strain rate ranges. Namely, they predict a linear dependency of the yield stress in terms of the strain rate at the low strain rate range. Crossing a threshold strain rate, the yield stress sensitivity sharply increases as the strain rate increases. Hence, two different behaviors were observed though the four equations fit well the experimental data. More experimental data, mainly at the intermediate strain rate range, are needed to conclude which, of the two behaviors, is more appropriate for polymers.

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