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Статті в журналах з теми "Viscoplastic deformation"

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Автор: Grafiati
Опубліковано: 30 травня 2022
Оновлено: 31 травня 2022

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1

Aleksandrov, A. S., T. V. Semenova, and N. P. Aleksandrova. "MATERIALS USED IN THE ROAD BASES: METHOD OF THE RESIDUAL DEFORMATIONS’ CALCULATION." Russian Automobile and Highway Industry Journal 16, no. 4 (September 8, 2019): 456–71. http://dx.doi.org/10.26518/2071-7296-2019-4-456-471.

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Materials and methods. The authors performed the analysis of the models for calculating residual deformations accumulated by granular materials and under the influence of repeated loads. The research showed the hereditary nature of the strain granular materials’ accumulation. Therefore, the authors used integral calculus for analytical solution of the residual deformation’s dependence on the number of repeated loads and on the magnitude of the main stresses. Moreover, the authors obtained the solution in the form of logarithmic and power functions, which associated the accumulated deformation with the deformation arising from the first load application. In determining the deformation from the first load application, the authors took into account the model of the theory of plasticity, in which the elastoplastic deformation was determined by the sum of two components elastic and plastic, as well as rheological models considering the deformation as the sum of three or four components. Generalizing the model for various materials, the authors gave the preference to the model, in which the elastoplastic deformation was determined by four components: instantaneous elastic and residual deformations, elastic (elastic-viscous) deformation and a viscoplastic component. Therefore, the residual strain from the first load application was represented by the sum of the two components, instantaneous irreversible and viscoplastic. The viscoplastic component of the deformation was a result of stress relaxation in a relatively short period of time equal to the duration of the load impact. Such research allowed taking into account the effect of speed on the duration of the load and the magnitude of the viscoplastic component of the residual deformation. The authors emphasized that taking into account the viscous-plastic component of residual deformation was most appropriate when calculating residual deformations of soils and materials treated with an organic binder. Granular materials were less sensitive to viscoplastic deformation under a single load application, but, when the voltage exceeded the elastic limit, and the more plastic adaptability of crushed stone, gravel, etc. viscoplastic deformation made a significant contribution to the accumulated residual deformation.Results. As a result, the authors carried out the analysis of experimental data on the triaxial compression of various granular materials and determined the parameters obtained for the power and logarithmic functions. The authors studied such materials as granite, gneissic, granodiorite and diorite crushed stone, sand, gravel and crushed stone, gravel mixtures with a mineral part from various rocks and fortified sands.Discussion and conclusions. The paper demonstrates the possibility of using the solutions for calculation of the surface displacement of the pavement layers of granular materials. The authors formulate the tasks for further research.
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2

Kosorukov, S. N. "Viscoplastic deformation of annular plates." Journal of Applied Mechanics and Technical Physics 26, no. 5 (1986): 746–51. http://dx.doi.org/10.1007/bf00915330.

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3

Zhang, Yuqing, Fan Gu, Bjorn Birgisson, and Robert L. Lytton. "Viscoelasticplastic–Fracture Modeling of Asphalt Mixtures Under Monotonic and Repeated Loads." Transportation Research Record: Journal of the Transportation Research Board 2631, no. 1 (January 2017): 20–29. http://dx.doi.org/10.3141/2631-03.

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Rutting and cracking occur simultaneously in asphalt mixtures as observed in the field and in the laboratory. Existing mechanical models have not properly addressed viscoelastic and viscoplastic deformation together with cracking attributable to model deficiencies, parameter calibration, and numerical inefficiency. This study developed viscoelasticplastic–fracture (VEPF) models for the characterization of viscoelasticity by Prony model and viscoplasticity by Perzyna’s flow rule with a generalized Drucker–Prager yield surface and a nonassociated plastic potential. Viscofracture damage was modeled by a viscoelastic Griffith criterion and a pseudo J-integral Paris’s law for crack initiation and propagation, respectively. The VEPF models were implemented in a finite element program by using a weak form partial differential equation modeling technique without the need for programming user-defined material subroutines. Model parameters were derived from fundamental material properties by using dynamic modulus, strength, and repeated load tests. Simulations indicated that the viscoelastic–viscoplastic–viscofracture characteristics were effectively modeled by the VEPF models for asphalt mixtures at different confinements and temperatures. An asphalt mixture under monotonic compressive loads exhibited a sequenced process including a pure viscoelastic deformation stage, a coupled viscoelastic–viscoplastic deformation stage, a viscoelastic–viscoplastic deformation coupled with a viscofracture initiation and a propagation stage, and then a viscoelastic–viscofracture rupture stage with saturated viscoplastic deformation. The asphalt mixture under repeated loads yielded an increasing viscoplastic strain at an increasing rate during the first half of the haversine load, while the increment of the viscoplastic strain (per load cycle) decreased with load cycles. The finite element program, which is based on a partial differential equation, effectively modeled the coupled viscoelastic–viscoplastic–viscofracture behaviors of the asphalt mixtures.
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4

Miguel, M. Carmen, Alessandro Vespignani, Stefano Zapperi, Jérôme Weiss, and Jean-Robert Grasso. "Intermittent dislocation flow in viscoplastic deformation." Nature 410, no. 6829 (April 2001): 667–71. http://dx.doi.org/10.1038/35070524.

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5

Pan, Wen-Fung. "Endochronic simulation for finite viscoplastic deformation." International Journal of Plasticity 13, no. 6-7 (January 1997): 571–86. http://dx.doi.org/10.1016/s0749-6419(97)00026-0.

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6

Drozdov, A. D. "Multi-cycle viscoplastic deformation of polypropylene." Computational Materials Science 50, no. 7 (May 2011): 1991–2000. http://dx.doi.org/10.1016/j.commatsci.2011.01.045.

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7

Song, Yongjun, Leitao Zhang, Huimin Yang, Jianxi Ren, and Yongxin Che. "Experimental Study on the Creep Behavior of Red Sandstone under Low Temperatures." Advances in Civil Engineering 2019 (October 9, 2019): 1–9. http://dx.doi.org/10.1155/2019/2328065.

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In cold regions, the deformation characteristics and long-term mechanical properties of rocks under low-temperature conditions are considerably different from those in other regions. To study the deformation characteristics and long-term mechanical properties of rocks in a low-temperature environment and the effect of different temperatures, we perform a multilevel loading-unloading uniaxial creep test on red sandstone samples and obtain the creep curves at different temperatures (20°C, −10°C, and −20°C). The results demonstrate that the total strain at each temperature can be divided into instantaneous and creep strains; the instantaneous strain includes instantaneous elastic and plastic strains, and the creep strain includes viscoelastic and viscoplastic strains. Temperature has a significant effect on the deformation properties of red sandstone. A decrease in temperature reduces the instantaneous and creep deformations of the rocks at all levels of stress. In addition, a decrease in temperature exponentially attenuates the total creep and viscoplastic strains of the rocks. 0°C is a critical point for the reduction of the total creep and viscoplastic strains of the rocks. When the temperature is greater than 0°C, the total creep and viscoplastic strains of the rocks decrease rapidly and linearly with decrease in temperature; however, when the temperature is less than 0°C, the decrease in the total creep and viscoplastic strains of the rocks is slow. The steady-state creep rate of the rock samples decreases with decrease in temperature, whereas the creep duration increases with decrease in temperature, especially in the case of the accelerated creep stage. The accelerated creep durations of the rock samples S4 (20°C) and S7 (–10°C) are 0.07 h and 0.23 h, respectively.
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8

Heffes, M. J., and H. F. Nied. "Analysis of Interfacial Cracking in Flip Chip Packages With Viscoplastic Solder Deformation." Journal of Electronic Packaging 126, no. 1 (March 1, 2004): 135–41. http://dx.doi.org/10.1115/1.1649242.

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This paper examines the modeling of viscoplastic solder behavior in the vicinity of interfacial cracking for flip chip semiconductor packages. Of particular interest is the relationship between viscoplastic deformation in the solder bumps and any possible interface cracking between the epoxy underfill layer and the silicon die. A 3-D finite element code, developed specifically for the study of interfacial fracture problems, was modified to study how viscoplastic solder material properties would affect fracture parameters such as strain energy release rate and phase angle for nearby interfacial cracks. Simplified two-layer periodic symmetry models were developed to investigate these interactions. Comparison of flip chip results using different solder material models showed that viscoplastic models yielded lower stress and fracture parameters than time independent elastic-plastic simulations. It was also found that adding second level attachment greatly increases the magnitude of the solder strain and fracture parameters. As expected, the viscoplastic and temperature dependent elastic-plastic results exhibited greater similarity to each other than results based solely on linear elastic properties.
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9

Dörlich, Vanessa, Joachim Linn, Tobias Scheffer, and Stefan Diebels. "Towards Viscoplastic Constitutive Models for Cosserat Rods." Archive of Mechanical Engineering 63, no. 2 (June 1, 2016): 215–30. http://dx.doi.org/10.1515/meceng-2016-0012.

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Abstract Flexible, slender structures like cables, hoses or wires can be described by the geometrically exact Cosserat rod theory. Due to their complex multilayer structure, consisting of various materials, viscoplastic behavior has to be expected for cables under load. Classical experiments like uniaxial tension, torsion or three-point bending already show that the behavior of e.g. electric cables is viscoplastic. A suitable constitutive law for the observed load case is crucial for a realistic simulation of the deformation of a component. Consequently, this contribution aims at a viscoplastic constitutive law formulated in the terms of sectional quantities of Cosserat rods. Since the loading of cables in applications is in most cases not represented by these mostly uniaxial classical experiments, but rather multiaxial, new experiments for cables have to be designed. They have to illustrate viscoplastic effects, enable access to (viscoplastic) material parameters and account for coupling effects between different deformation modes. This work focuses on the design of such experiments.
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10

Wang, Jun, Yingjie Xu, Weihong Zhang, and Xuanchang Ren. "Thermomechanical Modeling of Amorphous Glassy Polymer Undergoing Large Viscoplastic Deformation: 3-Points Bending and Gas-Blow Forming." Polymers 11, no. 4 (April 10, 2019): 654. http://dx.doi.org/10.3390/polym11040654.

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Анотація:
Polymeric products are mostly manufactured by warm mechanical processes, wherein large viscoplastic deformation and the thermomechanical coupling effect are highly involved. To capture such intricate behavior of the amorphous glassy polymers, this paper develops a finite-strain and thermomechanically-coupled constitutive model, which is based on a tripartite decomposition of the deformation gradient into elastic, viscoplastic, and thermal components. Constitutive equations are formulated with respect to the spatial configuration in terms of the Eulerian Hencky strain rate and the Jaumann rate of Kirchhoff stress. Hyperelasticity, the viscoplastic flow rule, strain softening and hardening, the criterion for viscoplasticity, and temperature evolution are derived within the finite-strain framework. Experimental data obtained in uniaxial tensile tests and three-point bending tests of polycarbonates are used to validate the numerical efficiency and stability of the model. Finally, the proposed model is used to simulate the gas-blow forming process of a polycarbonate sheet. Simulation results demonstrate well the capability of the model to represent large viscoplastic deformation and the thermomechanical coupling effect of amorphous glassy polymers.
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11

Haghighat, Ehsan, Fatemeh S. Rassouli, Mark D. Zoback, and Ruben Juanes. "A viscoplastic model of creep in shale." GEOPHYSICS 85, no. 3 (May 1, 2020): MR155—MR166. http://dx.doi.org/10.1190/geo2018-0700.1.

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We have developed a viscoplastic model that reproduces creep behavior and inelastic deformation of rock during loading-unloading cycles. We use a Perzyna-type description of viscous deformation that derives from a maximization of dissipated energy during plastic flow, in combination with a modified Cam-clay model of plastic deformation. The plastic flow model is of the associative type, and the viscous deformation is proportional to the ratio of driving stress and a material viscosity. Our model does not rely on any explicit time parameters; therefore, it is well-suited for standard and cyclic loading of materials. We validate the model with recent triaxial experiments of time-dependent deformation in clay-rich (Haynesville Formation) and carbonate-rich (Eagle Ford Formation) shale samples, and we find that the deformation during complex, multiscale loading-unloading paths can be reproduced accurately. We elucidate the role and physical meaning of each model parameter, and we infer their value from a gradient-descent minimization of the error between simulation and experimental data. This inference points to the large, and often unrecognized, uncertainty in the preconsolidation stress, which is key to reproducing the observed hysteresis in material deformation.
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12

Ohguchi, Ken-ichi, and Katsuhiko Sasaki. "OS10W0188 Plasticity-creep separate method for viscoplastic deformation of lead-free solders." Abstracts of ATEM : International Conference on Advanced Technology in Experimental Mechanics : Asian Conference on Experimental Mechanics 2003.2 (2003): _OS10W0188. http://dx.doi.org/10.1299/jsmeatem.2003.2._os10w0188.

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13

Berli, Markus, and Dani Or. "Deformation of Pores in Viscoplastic Soil Material." International Journal of Geomechanics 6, no. 2 (March 2006): 108–18. http://dx.doi.org/10.1061/(asce)1532-3641(2006)6:2(108).

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14

SASAKI, Katsuhiko, Tsuyoshi MAYAMA, and Hiromasa ISHIKAWA. "Effect of Microstructural Change on Viscoplastic Deformation." Proceedings of The Computational Mechanics Conference 2002.15 (2002): 131–32. http://dx.doi.org/10.1299/jsmecmd.2002.15.131.

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15

Falk, M. L., and J. S. Langer. "Dynamics of viscoplastic deformation in amorphous solids." Physical Review E 57, no. 6 (June 1, 1998): 7192–205. http://dx.doi.org/10.1103/physreve.57.7192.

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16

Kollmann, F. G. "Viscoplastic deformation of rotating thin-walled disks." Nuclear Engineering and Design 114, no. 3 (June 1989): 405–13. http://dx.doi.org/10.1016/0029-5493(89)90118-0.

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17

Rubin, M. B. "An elastic-viscoplastic model for large deformation." International Journal of Engineering Science 24, no. 7 (January 1986): 1083–95. http://dx.doi.org/10.1016/0020-7225(86)90004-2.

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18

Shawki, T. G. "The Phenomenon of Shear Strain Localization in Dynamic Viscoplasticity." Applied Mechanics Reviews 45, no. 3S (March 1, 1992): S46—S61. http://dx.doi.org/10.1115/1.3121391.

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This article addresses shear flow localization during high rates of deformation of thermal viscoplastic materials. An overview of several efforts towards an improved understanding of shear band formation is given. This paper aims at extracting a unified framework towards the analysis of shear band formation for the considered class of deformations. For this purpose, we present a number of rigorous exact solutions for the one–dimensional simple shearing deformation of a general class of thermal viscoplastic material response. These solutions are used as benchmarks for the validation of both analytical and computational procedures. The interactive roles of inertia, rate–sensitivity, heat conduction, perturbation geometry, boundary conditions, thermal softening, strain hardening and constitutive description as regards the initiation and further intensification of flow localization are thoroughly addressed. We also examine the delicate questions concerning the notion of shear localization and the related mathematical characterization, length and time scales as well as the connection between localization and catastrophic failure.
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19

Li, Hong-Bin, and Yun-Li Feng. "Simulation of Thermo-viscoplastic Behaviors for AISI 4140 Steel." High Temperature Materials and Processes 35, no. 4 (April 1, 2016): 381–88. http://dx.doi.org/10.1515/htmp-2014-0231.

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AbstractThe thermo-viscoplastic behaviors of AISI 4140 steel are investigated over wide ranges of strain rate and deformation temperature by isothermal compression tests. Based on the experimental results, a unified viscoplastic constitutive model is proposed to describe the hot compressive deformation behaviors of the studied steel. In order to reasonably evaluate the work hardening behaviors, a strain hardening material constant (h0) is expressed as a function of deformation temperature and strain rate in the proposed constitutive model. Also, the sensitivity of initial value of internal variablesto the deformation temperature is discussed. Furthermore, it is found that the initial value of internal variablescan be expressed as a linear function of deformation temperature. Comparisons between the measured and predicted results confirm that the proposed constitutive model can give an accurate and precise estimate of the inelastic stress–strain relationships for the studied high-strength steel.
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20

Du, Lihua, Zhusheng Shi, Yuanfei Han, Jie Shao, Kailun Zheng, Yong Li, and Weijie Lu. "Development of constitutive equations for hot working of titanium matrix composites." MATEC Web of Conferences 321 (2020): 03033. http://dx.doi.org/10.1051/matecconf/202032103033.

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This research is devoted to modelling the viscoplastic deformation behaviour and microstructure evolution of particle reinforced titanium matrix composites (TMCs) at hot working conditions. A series of Gleeble hot compression tests were conducted to obtain the stress-strain curves. According to the dominant mechanisms of TMCs during deformation, a set of mechanism-based constitutive equations was developed and fitted based on the experiment data. Lamellar alpha globularisation, dynamic recrystallization and damage were considered and incorporated into the constitutive equations to describe the viscoplastic flow behaviour.
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21

Aleksandrov, A. S., T. V. Semenova, and N. P. Aleksandrova. "Calculation of Residual Deformations of Granulated Materials from Exposure to Repeated Loads." Materials Science Forum 992 (May 2020): 828–35. http://dx.doi.org/10.4028/www.scientific.net/msf.992.828.

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Анотація:
The analysis of the models for calculating residual deformations accumulated by granular materials under the influence of repeated loads is performed. Determined the hereditary nature of the accumulation of deformation of granular materials. This allowed the use of integral calculus for the analytical solution of the problem of the dependence of residual deformation on the number of repeated loads, the value of the main stresses. The solution is obtained in the form of logarithmic and power-law functions that associate the accumulated deformation with the deformation arising from the first load application with the number of applied loads. The deformation from the first load application is represented by the sum of the two components, instantaneous irreversible and viscoplastic. The viscoplastic component of the deformation is a consequence of stress relaxation in a relatively short period of time equal to the duration of the impact of the load. The analysis of experimental data on the triaxial compression of various granular materials is carried out and the parameters obtained for the power and logarithmic functions are determined. The materials studied include: granite, gneissic, granodiorite and diorite crushed stone, sand and gravel and crushed stone and gravel mixtures with a mineral part from various rocks, fortified sands. The possibility of application of the obtained solutions for the calculation displacement of the surface of the pavement layers of granular materials is shown. The tasks of further research are formulated.
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22

Jordan, E. H., and K. P. Walker. "A Viscoplastic Model for Single Crystals." Journal of Engineering Materials and Technology 114, no. 1 (January 1, 1992): 19–26. http://dx.doi.org/10.1115/1.2904134.

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A viscoplastic constitutive model is described in which deformation behavior is postulated on representative slip systems and the behavior of the entire crystal is determined by summing the slip on the active slip systems. By building in the slip geometry known from the metallurgical literature, it is possible to predict the anisotropic deformation behavior and to model in a straightforward manner other phenomena which have been described by metallurgists in crystallographic terms. Elevated temperature tension-torsion tests were run and used to verify the model’s predictive abilities. Ratchetting behavior under thermomechanical loading conditions is specifically addressed.
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23

Jalaal, Maziyar, Dave Kemper, and Detlef Lohse. "Viscoplastic water entry." Journal of Fluid Mechanics 864 (February 11, 2019): 596–613. http://dx.doi.org/10.1017/jfm.2019.32.

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The impact of viscoplastic droplets on a free surface of water is studied. The droplet undergoes an elasto-plastic deformation at the early stages of water entry. At large time, the yield stress dominates; therefore, the droplet solidifies and reaches an equilibrium shape. Depending on the impact velocity and the rheology of the droplet, the final morphologies vary from pear-shaped to capsules that contain bubbles. We perform an analysis of the orders of magnitude of the forces and introduce the relevant dimensionless groups. Furthermore, we categorize the final shapes in a phase diagram and analyse their geometrical properties. The process presents a method of making non-spherical beads and capsules with tunable shapes and provides information on the general problem of the impact of highly deformable objects on a liquid surface.
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24

Kommel, Lembit A. "Metals Microstructure Improving under Hard Cyclic Viscoplastic Deformation." Materials Science Forum 584-586 (June 2008): 361–66. http://dx.doi.org/10.4028/www.scientific.net/msf.584-586.361.

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Анотація:
Annealed pure copper was subjected to equal-channel angular pressing (ECAP) by route Bc for different passes number. Tensile test specimens were manufactured and subjected to hard cyclic viscoplastic (HCV) deformation by means of the materials testing installation Instron 8516 in strain control regime at room temperature. The specimens were cyclically deformed with a frequency of 0.5Hz at different strain amplitudes, step-by-step increased from ±0.05 to ±2.5% for 30 cycles, up to seven test series in this study. The microstructure of ECAP and HCV deformed samples were characterized by optical- and transmission electron microscope, X-ray diffraction, tensile- and hardness testing methods. The ECAP processed metal has mainly elongated subgrains with low-angle grain boundaries and texture, oriented in direction of metal flow during latest pressing. We demonstrate that during HCV deformation the dislocations density of ECAP processed UFG copper was decreased. The ECAP texture was reoriented under cyclic load applied as elongated subgrains were jointed to small pieces under this same angle to axis as texture before. The grain- and crystallite sizes were decreased, which were accompanied with dislocation ribbons forming nearby new formed high-angle grain boundaries. This paper builds on knowledge that the combined treatment by ECAP and followed HCV deformation enable to improve UFG microstructure and ductility with lowering the strength and hardness of UFG metals due to the lower dislocation density while coarse grained copper exhibits increasing the strength and hardness.
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25

LI, Zhuguo, Takaaki OHKUBO, Yasuo TANIGAWA, and Hiroshi MORI. "THEORETICAL ANALYSIS ON VISCOPLASTIC DEFORMATION OF FRESH CONCRETE." Journal of Structural and Construction Engineering (Transactions of AIJ) 68, no. 564 (2003): 1–8. http://dx.doi.org/10.3130/aijs.68.1_2.

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26

Hütter, Markus, and Theo A. Tervoort. "Statistical-mechanics based modeling of anisotropic viscoplastic deformation." Mechanics of Materials 80 (January 2015): 37–51. http://dx.doi.org/10.1016/j.mechmat.2014.09.007.

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27

Sansour, C., and F. G. Kollmann. "On theory and numerics of large viscoplastic deformation." Computer Methods in Applied Mechanics and Engineering 146, no. 3-4 (July 1997): 351–69. http://dx.doi.org/10.1016/s0045-7825(96)01235-2.

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28

Rubin, M. B. "Elastic‐Viscoplastic Model for Large Deformation of Soils." Journal of Engineering Mechanics 116, no. 9 (September 1990): 1995–2015. http://dx.doi.org/10.1061/(asce)0733-9399(1990)116:9(1995).

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29

NAKATA, Mitsuhiro, Katsuhiko SASAKI, and Tsuyoshi MAYAMA. "Characteristic of Viscoplastic Deformation of TI-6Al-4V." Proceedings of the JSME annual meeting 2004.6 (2004): 301–2. http://dx.doi.org/10.1299/jsmemecjo.2004.6.0_301.

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30

Narayan, Sooraj, and Lallit Anand. "A large deformation elastic–viscoplastic model for lithium." Extreme Mechanics Letters 24 (October 2018): 21–29. http://dx.doi.org/10.1016/j.eml.2018.08.006.

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31

MAYAMA, Tsuyoshi, Katsuhiko SASAKI, and Hiromasa ISHIKAWA. "Viscoplastic Deformation Analysis Using the Unified Constitutive Model." Transactions of the Japan Society of Mechanical Engineers Series A 67, no. 663 (2001): 1768–75. http://dx.doi.org/10.1299/kikaia.67.1768.

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32

Rollett, A. D., R. A. Lebensohn, M. Groeber, Y. Choi, J. Li, and G. S. Rohrer. "Stress hot spots in viscoplastic deformation of polycrystals." Modelling and Simulation in Materials Science and Engineering 18, no. 7 (September 8, 2010): 074005. http://dx.doi.org/10.1088/0965-0393/18/7/074005.

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33

Lee, Kuo‐Long, Hao‐Yuan Chang, and Wen‐Fung Pan. "Endochronic simulation for thermal viscoplastic and creep deformation." Journal of the Chinese Institute of Engineers 32, no. 1 (January 2009): 65–73. http://dx.doi.org/10.1080/02533839.2009.9671483.

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34

Afzali, Nariman, Natalie Stranghöner, Johan Pilhagen, Timo Manninen, and Erik Schedin. "Viscoplastic deformation behaviour of preloaded stainless steel connections." Journal of Constructional Steel Research 152 (January 2019): 225–34. http://dx.doi.org/10.1016/j.jcsr.2018.07.004.

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35

Kelln, Curtis, Jitendra Sharma, David Hughes, and James Graham. "Finite element analysis of an embankment on a soft estuarine deposit using an elastic–viscoplastic soil model." Canadian Geotechnical Journal 46, no. 3 (March 2009): 357–68. http://dx.doi.org/10.1139/t08-129.

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Анотація:
A new elastic–viscoplastic (EVP) soil model has been used to simulate the measured deformation response of a soft estuarine soil loaded by a stage-constructed embankment. The simulation incorporates prefabricated vertical drains installed in the foundation soils and reinforcement installed at the base of the embankment. The numerical simulations closely matched the temporal changes in surface settlement beneath the centerline and shoulder of the embankment. More importantly, the elastic–viscoplastic model simulated the pattern and magnitudes of the lateral deformations beneath the toe of the embankment — a notoriously difficult aspect of modelling the deformation response of soft soils. Simulation of the excess pore-water pressure proved more difficult because of the heterogeneous nature of the estuarine deposit. Excess pore-water pressures were, however, mapped reasonably well at three of the six monitoring locations. The simulations were achieved using a small set of material constants that can easily be obtained from standard laboratory tests. This study validates the use of the EVP model for problems involving soft soil deposits beneath loading from a geotechnical structure.
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36

Gilat, A. "Modeling Plastic Deformation of Mild Steel Under Nonproportional Deformation Path." Journal of Engineering Materials and Technology 108, no. 3 (July 1, 1986): 258–61. http://dx.doi.org/10.1115/1.3225878.

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Анотація:
An elastic/viscoplastic theory that includes anisotropic strain hardening is used in the analysis of a nonproportional biaxial torsion-tension loading test. The theory is a combination of the formulation of Perzyna [5] and the anisotropic hardening model of Mro´z [6], and is applied in modeling the behavior of mild steel in a nonproportional deformation test reported by Meguid and Malvern [2]. The results show that the theory predicts the material response well. Especially, the theory models adequately the noncoaxiality between the plastic strain rate and the deviatoric stress vectors following an abrupt change in the deformation path.
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37

Yang, X. J., C. L. Chow, and K. J. Lau. "A unified viscoplastic description of 63Sn-37Pb solder alloy under cyclic straining and stressing." Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 218, no. 9 (September 1, 2004): 909–20. http://dx.doi.org/10.1243/0954406041991279.

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Анотація:
A unified viscoplastic constitutive model for the fatigue life prediction of solder alloy 63Sn-37Pb is presented. The model incorporates the strain rate effect, the creep-plastic interaction and the dwell time effect under cyclic strain and stress loading. The applicability of this constitutive model is examined with cyclic strain tests with different strain rates, and cyclic stress tests under different stress waveforms in order to verify the progressive viscoplastic deformation of 63Sn-37Pb solder alloy. The investigation reveals that the material constants in the constitutive model can be determined by performing simple tests such as creep and cyclic tension-compression loading. The predictions using the constitutive model are found to agree well with the experimental results of the solder alloy under different loading. The agreement demonstrates that the model can satisfactorily describe the viscoplastic deformation behaviour under cyclic strain loading or stress loading.
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38

Msolli, S., Olivier Dalverny, Joël Alexis, and Moussa Karama. "Experimental and Mechanical Characterizations of a Lead Free Solder Alloy for Electronic Devices." Advanced Materials Research 423 (December 2011): 210–17. http://dx.doi.org/10.4028/www.scientific.net/amr.423.210.

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Анотація:
Electronic power modules devices are paramount components in the aeronautical, automotive and military applications. The solder layers are the most critical parts of the module and are usually subjected in their whole life to complex loading conditions. To improve the design task, realistic thermoelastoviscoplastic and lifetime prediction models which can describe efficiently the deformation-damage of the electrical device must be chosen carefully. Some of the most common behavior models are based on the separation between creep and plasticity deformations such as power law, Garofalo, Darveaux… So, to take into account the creep-plasticity interaction, the thermal cycling as well as the hardening-softening effects, unified viscoplastic models are increasingly being used to describe more efficiently the physical state of the material. We propose in this framework a survey of some unified viscoplastic models used in the electronic applications for the viscoplastic modeling of the solder as well as creep-fatigue life prediction rules. The models are used for the characterization of a SnAgCu solder and are briefly compared within tensile, creep data and stabilized responses.
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39

Ramesh, K. T., and R. J. Clifton. "Finite Deformation Analysis of Pressure-Shear Plate Impact Experiments on an Elastohydrodynamic Lubricant." Journal of Applied Mechanics 59, no. 4 (December 1, 1992): 754–61. http://dx.doi.org/10.1115/1.2894039.

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Pressure-shear plate impact experiments on an elastohydrodynamio lubricant (5P4E) are interpreted by means of a full finite deformation analysis of stress wave propagation in an elastic/viscoplastic material. The elastic response is modeled as that of a neo-Hookean solid, modified to include compressibility in such a way that the shock velocity increases linearly with increasing particle velocity; the viscoplastic response is modeled by means of a thermal activation model in which the activation energy is taken to be pressure dependent. The parameters in the elasticity relation are determined from the rising part of the transmitted stress profiles, which are related to transit times for multiple reverberations through the thickness of the lubricant layer. The parameters in the viscoplastic model are determined from the shear stress transmitted after nominally homogeneous states of stress are established through the thickness of the lubricant. Good agreement between measured and computed wave profiles is obtained over the entire range of pressures used in the experiments.
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40

Niazi, M. S., H. H. Wisselink, and V. Timo Meinders. "Viscoplastic Regularization of Local Damage Models: A Latent Solution." Key Engineering Materials 504-506 (February 2012): 845–50. http://dx.doi.org/10.4028/www.scientific.net/kem.504-506.845.

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Local damage models are known to produce pathological mesh dependence in finite element simulations. The solution is to either use a regularization technique or to adopt a non-local damage model. Viscoplasticity is one technique which can regularize the mesh dependence of local damage model by incorporating a physical phenomenon in the constitutive model i.e. rate effects. A detailed numerical study of viscoplastic regularization is carried out in this work. Two case studies were considered i.e. a bar with shear loading and a sheet metal under tensile loading. The influence of hardening / softening parameters, prescribed deformation rate and mesh size on the regularization was studied. It was found that the primary viscoplastic length scale is a function of hardening and softening parameters but does not depend upon the deformation rate. Mesh dependency appeared at higher damage values. This mesh dependence can be reduced by mesh refinement in the localized region and also by increasing the deformation rates. The viscoplastic regularization was successfully used with a local anisotropic damage model to predict failure in a cross die drawing process with the actual physical process parameters.
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41

Mingolo, N., and C. Vial-Edwards. "Description of Texture and Yield Locus Evolution Under Different Deformation Paths of Copper Sheet." Textures and Microstructures 23, no. 4 (January 1, 1995): 237–48. http://dx.doi.org/10.1155/tsm.23.237.

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The evolution of texture with plastic deformation along different loading paths has been studied for a commercial DHP copper sheet metal. Two models have been utilized to predict the evolution of textures: Viscoplastic under Relaxed Constraints conditions (VRC) and a Self Consistent approach (SC) with viscoplastic conditions, where the {111}<110> active slip systems were selected according to a strain rate sensitivity law.The stress-strain curves along different loading paths were calculated taking into account the texture evolution predicted by VRC and SC models. Predictions with the SC formulation were very close to experimental results. Texture evolution depended on the deformation path.
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42

Yang, Xianjie, and Qing Gao. "Time-Dependent Cyclic Deformation and Failure Behavior and Its Damage Coupled Simulation for Solder Alloy 63Sn-37Pb." Key Engineering Materials 297-300 (November 2005): 881–86. http://dx.doi.org/10.4028/www.scientific.net/kem.297-300.881.

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Анотація:
The tests of 63Sn-37Pb under cyclic strain and stress were conducted to investigate the material’s time-dependent behavior. A damage-coupled viscoplastic model and its failure criterion are proposed. The prediction of the proposed viscoplastic model implies that the model can describe the cyclic strain and cyclic stress ratcheting behavior, and the fatigue lives very well.
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43

Chen, Hui Liang, and Yu Ching Wu. "Viscoplastic Analysis of Mixed Polygonal Granular Material." Advanced Materials Research 446-449 (January 2012): 3578–81. http://dx.doi.org/10.4028/www.scientific.net/amr.446-449.3578.

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In this paper, a series of mixed visco-plastic analyses for assembles of three types of asphalt are made using finite element method. Governing equations are derived for motion and deformation for particles, including coupling of rigid body motion and deformation for deformable bodies. Nonlinear viscous analysis is made for the assemblies using an implicit discrete element method. Among particles, three different contact types, cohering, rubbing and sliding, are taken into account. The numerical model is applied to simulate the compaction of aggregates consisting of mixed particles of different nonlinear viscous incompressible material. After minor modification, the application of the proposed numerical model to industry is possible.
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44

Немировский, Юрий Владимирович. "Dynamics of hybrid hardening and viscoplastic beams under explosive effects." Вестник Чувашского государственного педагогического университета им. И.Я. Яковлева. Серия: Механика предельного состояния, no. 4(46) (December 30, 2020): 115–23. http://dx.doi.org/10.37972/chgpu.2020.46.4.008.

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Рассматриваются полиметаллические балки постоянного поперечного сечения из наборов упрочняющихся и вязкопластичных материалов с двухсимметричным их расположением в поперечном сечении. Считается, что балки находятся под воздействием нагрузок взрывного типа. Для всех материалов использована модель жестко-вязкопластического деформирования и приняты классические гипотезы деформирования Кирхгофа. Для биметаллических шарнирно-опертых балок получены общие уравнения деформирования и описан метод их решения. Определены остаточные формы динамического повреждения. We consider polymetallic beams of constant cross-section from sets of hardening and viscoplastic materials with their two-symmetric arrangement in the cross-section. The beams are considered to be subject to explosive loads. For all materials, a rigid-viscoplastic deformation model was used and the classical Kirchhoff deformation hypotheses were adopted. For bimetallic hinged- supported beams, general equations of deformation are obtained and a method for their solution is described. Residual forms of dynamic damage were determined.
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45

Matsubara, Seishiro, Kenjiro Terada, Ryusei Maeda, Takaya Kobayashi, Masanobu Murata, Takuya Sumiyama, Kenji Furuichi, and Chisato Nonomura. "Viscoelastic-viscoplastic combined constitutive model for glassy amorphous polymers under loading/unloading/no-load states." Engineering Computations 37, no. 5 (February 15, 2020): 1703–35. http://dx.doi.org/10.1108/ec-05-2019-0197.

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Purpose This study aims to propose a novel viscoelastic–viscoplastic combined constitutive model for glassy amorphous polymers within the framework of thermodynamics at finite strain that is capable of capturing their rate-dependent inelastic mechanical behavior in wide ranges of deformation rate and amount. Design/methodology/approach The rheology model whose viscoelastic and viscoplastic elements are connected in series is set in accordance with the multi-mechanism theory. Then, the constitutive functions are formulated on the basis of the multiplicative decomposition of the deformation gradient implicated by the rheology model within the framework of thermodynamics. Dynamic mechanical analysis (DMA) and loading/unloading/no-load tests for polycarbonate (PC) are conducted to identify the material parameters and demonstrate the capability of the proposed model. Findings The performance was validated in comparison with the series of the test results with different rates and amounts of deformation before unloading together. It has been confirmed that the proposed model can accommodate various material behaviors empirically observed, such as rate-dependent elasticity, elastic hysteresis, strain softening, orientation hardening and strain recovery. Originality/value This paper presents a novel rheological constitutive model in which the viscoelastic element connected in series with the viscoplastic one exclusively represents the elastic behavior, and each material response is formulated according to the multiplicatively decomposed deformation gradients. In particular, the yield strength followed by the isotropic hardening reflects the relaxation characteristics in the viscoelastic constitutive functions so that the glass transition temperature could be variant within the wide range of deformation rate. Consequently, the model enables us to properly represent the loading process up to large deformation regime followed by unloading and no-load processes.
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46

Kommel, Lembit A., and Boris B. Straumal. "Diffusion in SC Ni-Base Superalloy under Viscoplastic Deformation." Defect and Diffusion Forum 297-301 (April 2010): 1340–45. http://dx.doi.org/10.4028/www.scientific.net/ddf.297-301.1340.

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Deformation-enhanced diffusion in single-crystalline Ni-based superalloy specimens have been investigated under the conditions of hard cyclic viscoplastic tension-compression deformation. The chemical composition of phases before and after cyclic deformation was investigated by filed-emission scanning electron microscopy. At low strain amplitude values (0-0.05%; 0-0.2%; 0-0.5%) the material shows upscaled viscoelastic behavior and microstructural stability. At the increase of strain amplitude in the γ+γ’-phase (0-1%), the Ni, Re and Co content decreases, whereas Al and Mo content increases significantly. On the contrary, in the single γ’-phase area, the Ni and Co content was increased, which was accompanied by a decrease of Nb, Cr, Ta and Al content. The length of dendrite arms was significantly decreased as compared to primary dendrite arms and γ+γ’-rafts were formed parallel to the stress axis direction. As a result of the deformation-enhanced, diffusion the necking of dendrites accompanied with longitudinal cracking by the dendrite axis and cross-sectional radial cracking by interdendritic region of single crystalline specimen occurs.
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47

Tai, Nguyen Huynh Tan. "CALCULATION OF PAVEMENT PERMANENT DEFORMATION USING PERZYNA’S ELASTO-VISCOPLASTIC MODEL." Vietnam Journal of Science and Technology 54, no. 1 (February 20, 2016): 150. http://dx.doi.org/10.15625/0866-708x/54/1/5565.

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In this work, a method for calculation of pavement permanent deformation due to traffic loading is presented. The mechanics behavior of asphalt concrete layer is considered as Perzyna’s elasto-viscoplastic material. The pavement permanent deformation is incrementally calculated using nonlinear finite element method. Model parameters are determined using Hamburg Wheel Tracking Test result.
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48

Moosbrugger, J. C. "Nonisothermal Constitutive Model for the Small Strain Behavior of 9Cr-1 Mo-V-Nb Pressure Vessel Steel." Journal of Engineering Materials and Technology 114, no. 4 (October 1, 1992): 354–61. http://dx.doi.org/10.1115/1.2904185.

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Анотація:
A viscoplastic constitutive model characterization is presented for the small strain, nonisothermal behavior of a 9Cr-1Mo-V-Nb pressure vessel steel between 25°C and 600°C. A framework based on previously proposed viscoplastic models is reviewed. The technique for including deformation softening is discussed and the procedure used to determine model constants and parameters is presented. Results of model integration are compared with various isothermal and nonisothermal, uniaxial test results.
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49

Aravamadhu Balaji, P., T. Sundararajan, and G. K. Lal. "Viscoplastic Deformation Analysis and Extrusion Die Design by FEM." Journal of Applied Mechanics 58, no. 3 (September 1, 1991): 644–50. http://dx.doi.org/10.1115/1.2897244.

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A viscoplastic model for extrusion is discussed which simultaneously predicts the deformation field, optimal die geometry, and plastic boundaries. The die geometry and plastic boundaries are expressed in terms of chosen trial functions that satisfy certain geometrical and physical constraints. The variational power integral is minimized in the trial plastic domain using FEM technique to determine the deformation field and shape coefficients for the die contour and plastic boundaries. The proposed method is implemented for the optimal design of an axisymmetric streamlined die. The predicted values are in reasonable agreement with the experimental observations and are in conformity with the results published earlier.
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50

Kontou, E. "Viscoplastic deformation of an epoxy resin at elevated temperatures." Journal of Applied Polymer Science 101, no. 3 (2006): 2027–33. http://dx.doi.org/10.1002/app.23768.

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