Hybrid method of determining strain-rate-dependent constants for Johnson-Cook failure and plasticity model

We review the development of a strain rate and temperature dependent plasticity model for finite deformation. In particular we address both the method of determining the parameters of the model and the engineering meaning of the parameters in terms of uniaxial stress-strain curves. The ability of the model to predict some aspects of anisotropic hardening, strain rate history effects, and thermal softening are then illustrated by comparison with experimental data.

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Strain Rate Dependent Plasticity Model for Precipitate Hardened Aerospace Aluminum Alloy Produced with Solid-State Additive Manufacturing

Journal of Dynamic Behavior of Materials ◽

10.1007/s40870-021-00325-4 ◽

2021 ◽

Author(s):

C. J. T. Mason ◽

D. Z. Avery ◽

B. J. Phillips ◽

J. B. Jordon ◽

P. G. Allison

Keyword(s):

Aluminum Alloy ◽

Additive Manufacturing ◽

Solid State ◽

Strain Rate ◽

Plasticity Model ◽

Dependent Plasticity ◽

Rate Dependent

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Development of a strain-rate dependent progressive damage model for crash analysis of composite laminates

DYMAT 2009 - 9th International Conferences on the Mechanical and Physical Behaviour of Materials under Dynamic Loading ◽

10.1051/dymat/2009178 ◽

2009 ◽

Author(s):

M. M. Shokrieh ◽

M. O. Jamal

Keyword(s):

Strain Rate ◽

Composite Laminates ◽

Damage Model ◽

Progressive Damage ◽

Crash Analysis ◽

Rate Dependent ◽

Progressive Damage Model

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Strain-rate dependent material properties of selective laser melted AlSi10Mg and AlSi3.5Mg2.5

Materials Testing ◽

10.3139/120.111518 ◽

2020 ◽

Vol 62 (6) ◽

pp. 573-583

Author(s):

Andreas Lutz ◽

Lukas Huber ◽

Claus Emmelmann

Keyword(s):

Strain Rate ◽

Material Properties ◽

Rate Dependent

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Strain-Rate Dependent Deformation Behavior in WC-10 wt%Ni 3Al Cermet Micropillars Under Uniaxial Compression

SSRN Electronic Journal ◽

10.2139/ssrn.3396276 ◽

2019 ◽

Author(s):

Minai Zhang ◽

Xin Wang ◽

Alexander D. Dupuy ◽

Julie M. Schoenung ◽

Xiaoqiang Li

Keyword(s):

Strain Rate ◽

Uniaxial Compression ◽

Deformation Behavior ◽

Rate Dependent

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Ballistic penetration simulation of a 3D woven fabric using high strain-rate dependent yarn model

Journal of the Textile Institute ◽

10.1080/00405000.2021.1929706 ◽

2021 ◽

pp. 1-10

Author(s):

Qingsong Wei ◽

Dan Yang ◽

Bo Gao

Keyword(s):

High Strain Rate ◽

Strain Rate ◽

High Strain ◽

Woven Fabric ◽

Rate Dependent ◽

Ballistic Penetration

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Identification of the LLDPE Constitutive Material Model for Energy Absorption in Impact Applications

Polymers ◽

10.3390/polym13101537 ◽

2021 ◽

Vol 13 (10) ◽

pp. 1537

Author(s):

Luděk Hynčík ◽

Petra Kochová ◽

Jan Špička ◽

Tomasz Bońkowski ◽

Robert Cimrman ◽

...

Keyword(s):

Strain Rate ◽

Material Model ◽

Low Density Polyethylene ◽

Low Density ◽

Linear Low Density Polyethylene ◽

Stress Strain ◽

Rate Dependent ◽

Constitutive Material Model ◽

Principal Directions ◽

Constitutive Material

Current industrial trends bring new challenges in energy absorbing systems. Polymer materials as the traditional packaging materials seem to be promising due to their low weight, structure, and production price. Based on the review, the linear low-density polyethylene (LLDPE) material was identified as the most promising material for absorbing impact energy. The current paper addresses the identification of the material parameters and the development of a constitutive material model to be used in future designs by virtual prototyping. The paper deals with the experimental measurement of the stress-strain relations of linear low-density polyethylene under static and dynamic loading. The quasi-static measurement was realized in two perpendicular principal directions and was supplemented by a test measurement in the 45° direction, i.e., exactly between the principal directions. The quasi-static stress-strain curves were analyzed as an initial step for dynamic strain rate-dependent material behavior. The dynamic response was tested in a drop tower using a spherical impactor hitting a flat material multi-layered specimen at two different energy levels. The strain rate-dependent material model was identified by optimizing the static material response obtained in the dynamic experiments. The material model was validated by the virtual reconstruction of the experiments and by comparing the numerical results to the experimental ones.

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A Modified Peric Model for Al-Mg Alloy Sheet with Rate-Independent Initial Yield Stress at Warm Temperatures

Solid State Phenomena ◽

10.4028/www.scientific.net/ssp.287.3 ◽

2019 ◽

Vol 287 ◽

pp. 3-7

Author(s):

Yong Zhang ◽

Qing Zhang ◽

Yuan Tao Sun ◽

Xian Rong Qin

Keyword(s):

Flow Stress ◽

Plastic Strain ◽

Strain Rate ◽

Yield Stress ◽

Constitutive Models ◽

Mg Alloy ◽

Initial Yield Stress ◽

Initial Yield ◽

Rate Dependent ◽

Dependent Flow

The constitutive modeling of aluminum alloy under warm forming conditions generally considers the influence of temperature and strain rate. It has been shown by published flow stress curves of Al-Mg alloy that there is nearly no effect of strain rate on initial yield stress at various temperatures. However, most constitutive models ignored this phenomenon and may lead to inaccurate description. In order to capture the rate-independent initial yield stress, Peric model is modified via introducing plastic strain to multiply the strain rate, for eliminating the effect of strain rate when the plastic strain is zero. Other constitutive models including the Wagoner, modified Hockett–Sherby and Peric are also considered and compared. The results show that the modified Peric model could not only describe the temperature-and rate-dependent flow stress, but also capture the rate-independent initial yield stress, while the Wagoner, modified Hockett–Sherby and Peric model can only describe the temperature-and rate-dependent flow stress. Moreover, the modified Peric model could obtain proper static yield stress more naturally, and this property may have potential applications in rate-dependent simulations.

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A Study of Strain and Strain-Rate Dependent Properties of a Superplastic Zn-Al Alloy Under Biaxial Stresses

Journal of Engineering Materials and Technology ◽

10.1115/1.3225034 ◽

1982 ◽

Vol 104 (1) ◽

pp. 41-46

Author(s):

T. C. Hsu ◽

I. M. Bidhendi

Keyword(s):

Strain Rate ◽

Stress Ratio ◽

Local Stress ◽

Biaxial Stress ◽

Al Alloy ◽

Local Geometry ◽

Forming Process ◽

Rate Dependent ◽

Strain And Strain Rate ◽

Liquid Behavior

A superplastic Zn-Al alloy in sheet form is formed into a bulge over a circular hole by pneumatic pressure. The geometry, the stress, the strain, and the strain-rate are determined at various points covering the whole specimen and at various stages of the forming process. The complicated shape, and its complicated changes, are represented by introducing an index for the local geometry, called “prolateness,” which is also related to the local stress ratio in a simple way. The biaxial stress is analyzed into a strain-proportional and a strain-rate-proportional component, which represent, respectively, the quasi-solid and the quasi-liquid behavior of the superplastic material.

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Strain Rate Dependent Ductility and Strain Hardening in Q&P Steels

Metallurgical and Materials Transactions A ◽

10.1007/s11661-020-06127-y ◽

2021 ◽

Author(s):

Christopher B. Finfrock ◽

Melissa M. Thrun ◽

Diptak Bhattacharya ◽

Trevor J. Ballard ◽

Amy J. Clarke ◽

...

Keyword(s):

Strain Rate ◽

Strain Hardening ◽

Rate Dependent

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