Plastic Flow Macrolocalization: Autowave and Quasi-Particle

AbstractThe notions of plastic flow localization are reviewed here. It have been shown that each type of localized plasticity pattern corresponds to a given stage of deformation hardening. In the course of plastic flow development a changeover in the types of localization patterns occurs. The types of localization patterns are limited to a total of four pattern types. A correspondence has been set up between the emergent localization pattern and the respective flow stage. It is found that the localization patterns are manifestations of the autowave nature of plastic flow localization process, with each pattern type corresponding to a definite type of autowave. Propagation velocity, dispersion and grain size dependence of wavelength have been determined experimentally for the phase autowave. An elastic-plastic strain invariant has also been introduced to relate the elastic and plastic properties of the deforming medium. It is found that the autowave’s characteristics follow directly from the latter invariant. A hypothetic quasi-particle has been introduced which correlates with the localized plasticity autowave; the probable properties of the quasi-particle have been estimated. Taking the quasi-particle approach, the characteristics of the plastic flow localization process are considered herein.

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Quasi-Particle Approach to the Autowave Physics of Metal Plasticity

Metals ◽

10.3390/met10111446 ◽

2020 ◽

Vol 10 (11) ◽

pp. 1446

Author(s):

Lev B. Zuev ◽

Svetlana A. Barannikova

Keyword(s):

Plastic Deformation ◽

Plastic Flow ◽

Flow Localization ◽

Quasi Particle ◽

Metal Plasticity ◽

Autowave Process ◽

Plastic Flow Localization ◽

Localization Of Plastic Deformation ◽

Particle Approach

This paper is the first attempt to use the quasi-particle representations in plasticity physics. The de Broglie equation is applied to the analysis of autowave processes of localized plastic flow in various metals. The possibilities and perspectives of such approach are discussed. It is found that the localization of plastic deformation can be conveniently addressed by invoking a hypothetical quasi-particle conjugated with the autowave process of flow localization. The mass of the quasi-particle and the area of its localization have been defined. The probable properties of the quasi-particle have been estimated. Taking the quasi-particle approach, the characteristics of the plastic flow localization process are considered herein.

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Plasticity: from Crystal Lattice to Macroscopic Phenomena

Uspehi Fiziki Metallov ◽

10.15407/ufm.22.01.003 ◽

2021 ◽

Vol 22 (1) ◽

pp. 3-57

Author(s):

L. B. Zuev ◽

S. A. Barannikova ◽

V. I. Danilov ◽

V. V. Gorbatenko

Keyword(s):

Experimental Investigation ◽

Plastic Deformation ◽

Acoustic Emission ◽

Plastic Flow ◽

Basic Assumption ◽

Nonequilibrium Systems ◽

Flow Localization ◽

Quasi Particle ◽

Proposed Model ◽

Flow Evolution

New representations concerning plasticity physics in crystals are discussed. The model of plastic flow is suggested, which can describe its main regularities. With the use of the experimental investigation, it is shown that the plastic flow localization plays the role in the evolution of plastic deformation. Obtained data are explained with the application of the principles of nonequilibrium-systems’ theory. The quasi-particle is introduced for the description of plasticity phenomenon. It is established the relation between plasticity characteristics of metals and their position in Periodic table of the elements. A new model is elaborated to address localized plastic-flow evolution in solids. The basic assumption of the proposed model is that the elementary plasticity acts evolving in the deforming of medium would generate acoustic emission pulses, which interact with the plasticity carriers and initiate new elementary shears. As found experimentally, the macrolocalization of plastic flow involves a variety of autowave processes. To address the phenomenon of localized plastic-flow autowaves, a new quasi-particle called ‘autolocalizon’ is introduced; the criterion of validity of the concept is assessed.

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ANALYSIS OF TEMPERATURE DISTRIBUTION AND PLASTIC FLOW DURING SPOT FRICTION STIR WELDING

Equipment ◽

10.1615/ihtc13.p13.30 ◽

2006 ◽

Cited By ~ 1

Author(s):

S. Hirasawa ◽

K. Okamoto ◽

S. Hirano ◽

T. Tomimura

Keyword(s):

Friction Stir Welding ◽

Temperature Distribution ◽

Plastic Flow ◽

Friction Stir

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Features of plastic flow of sintered Al-12Si-xSn alloys

Physics and Chemistry of Materials Treatment ◽

10.30791/0015-3214-2018-6-48-59 ◽

2018 ◽

pp. 48-59

Author(s):

N.M. Rusin ◽

◽

A.L. Skorentsev ◽

Keyword(s):

Plastic Flow

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MANUFACTURE INVESTIGATION OF CARTRIDGE WITH BOTTOM-MOST PART FLANGE BY DIRECT EXTRUSION WITH COUNTERPUNCH. REPORT 13. DETERMINATION OF DEFORMED STATE UNDER STRAITENED EXTRUSION IN FOURTH CENTRAL AREA OF PLASTIC DEFORMATION

Technology of metals ◽

10.31044/1684-2499-2020-0-4-43-51 ◽

2020 ◽

Vol 0 (4) ◽

pp. 43-51

Author(s):

A. L. Vorontsov ◽

◽

I. A. Nikiforov ◽

Keyword(s):

Plastic Deformation ◽

Plastic Flow ◽

Central Area ◽

Direct Extrusion ◽

Deformed State ◽

Cumulative Deformation ◽

The Given ◽

General Method

Formulae have been obtained that are necessary to calculate cumulative deformation in the process of straitened extrusion in the central area closed to the working end of the counterpunch. The general method of plastic flow proposed by A. L. Vorontsov was used. The obtained formulae allow one to determine the deformed state of a billet in any point of the given area. The formulae should be used to take into account the strengthening of the extruded material.

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