On a New Kinetic Modelling Approach of the Irreversible Quasi-Surface Metallurgical Phase Transformations

Irreversible quasi-surface metallurgical phase transformations are the specific response of some metallic materials—such as metals and alloys—subjected to high thermomechanical loads applied very near their surface during the manufacturing processes or after being put into operation. These solid/solid phase transformations can be observed, for example, on the tread of many rails in railroad networks frequented by freight trains. The severe thermal and mechanical loads imposed on the surface of the rails and in the immediate vicinity of the surface by the wheel/rail contact often result in highly localized irreversible metallurgical transformations. A new kinetic model based on a previous study is presented here, which accounts more realistically for the nucleation and growth of these irreversible solid/solid phase transformations resulting from high thermomechanical loads. This metallurgical behavioral model was developed in the framework of continuum thermodynamics with gradients of temperature and internal variables.

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A Kinetic Model for Tribological Surface Transformations Occuring on the Railroads: Irreversible Near-Surface Metallurgical Transformations

ISRN Metallurgy ◽

10.5402/2012/590792 ◽

2012 ◽

Vol 2012 ◽

pp. 1-6 ◽

Cited By ~ 1

Author(s):

G. Antoni

Keyword(s):

Kinetic Model ◽

Phase Transformations ◽

Solid Phase ◽

Manufacturing Processes ◽

Near Surface ◽

Railroad Network

During the manufacturing processes or the operational phases, some materials are liable to undergo metallurgical phenomena known as irreversible solid-solid phase transformations or Tribological Surface Transformations (TSTs). The treads of several rails in the French railroad network have been affected by TSTs. The kinetic model presented in this paper describes the initiation of TSTs and their development near the rail surface.

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Heat capacities and enthalpies of fusion and transformation for solvates of some salts with dimethyl sulfoxide and dimethylformamide

Collection of Czechoslovak Chemical Communications ◽

10.1135/cccc19883072 ◽

1988 ◽

Vol 53 (12) ◽

pp. 3072-3079

Author(s):

Mojmír Skokánek ◽

Ivo Sláma

Keyword(s):

Heat Capacity ◽

Phase Transformation ◽

Phase Transformations ◽

Dimethyl Sulfoxide ◽

Liquidus Temperature ◽

Molar Heat Capacity ◽

Solid Phase ◽

Zinc Nitrate ◽

Heat Capacities ◽

Liquid Phases

Molar heat capacities and molar enthalpies of fusion of the solvates Zn(NO3)2 . 2·24 DMSO, Zn(NO3)2 . 8·11 DMSO, Zn(NO3)2 . 6 DMSO, NaNO3 . 2·85 DMSO, and AgNO3 . DMF, where DMSO is dimethyl sulfoxide and DMF is dimethylformamide, have been determined over the temperature range 240 to 400 K. Endothermic peaks found for the zinc nitrate solvates below the liquidus temperature have been ascribed to solid phase transformations. The molar enthalpies of the solid phase transformations are close to 5 kJ mol-1 for all zinc nitrate solvates investigated. The dependence of the molar heat capacity on the temperature outside the phase transformation region can be described by a linear equation for both the solid and liquid phases.

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Reactivity in solid phase. Transformations of 2,4-di-tert-butylphenol and its derivatives under elastic deformation conditions

Russian Chemical Bulletin ◽

10.1007/bf01434226 ◽

1996 ◽

Vol 45 (6) ◽

pp. 1428-1432

Author(s):

V. B. Vol'eva ◽

I. S. Belostotskaya ◽

A. Yu. Karmilov ◽

N. L. Komissaroya ◽

V. V. Ershov

Keyword(s):

Phase Transformations ◽

Elastic Deformation ◽

Solid Phase

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Tiefbohren von thermoplastischen Kunststoffen*/Single-lip deep hole drilling of thermoplastics

wt Werkstattstechnik online ◽

10.37544/1436-4980-2016-05-50 ◽

2016 ◽

Vol 106 (05) ◽

pp. 336-340

Author(s):

D. Prof. Biermann ◽

M. Kirschner

Keyword(s):

Process Optimization ◽

High Performance ◽

Hole Drilling ◽

Manufacturing Processes ◽

Metallic Materials ◽

Deep Hole ◽

Deep Hole Drilling

Hochleistungskunststoffe gewinnen stetig an industrieller Bedeutung und ersetzen in zahlreichen Anwendungen metallische Werkstoffe. Um dieser Entwicklung auch aus fertigungstechnischer Sicht gerecht zu werden, ist die parallele Optimierung von relevanten Fertigungsverfahren unumgänglich. Das Institut für spanende Fertigung ISF der Technischen Universität Dortmund nimmt sich aktuell einer dieser Herausforderungen an und beschäftigt sich mit der Prozessoptimierung des Einlippentiefbohrens thermoplastischer Kunststoffe.   High-performance plastics are steadily gaining ground in the industry, replacing metallic materials in numerous applications. To keep pace with this development in manufacturing, a synchronous optimization of relevant manufacturing processes is crucial. The Institute of Machining Technology currently deals with one of these challenges, focusing on the process optimization of single-lip deep hole drilling of thermoplastics.

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The growth kinetics of individual ledges during solid-solid phase transformations

Proceedings of the Royal Society of London Series A - Mathematical and Physical Sciences ◽

10.1098/rspa.1981.0156 ◽

1981 ◽

Vol 378 (1774) ◽

pp. 351-368 ◽

Cited By ~ 42

Keyword(s):

Phase Transformations ◽

Volume Diffusion ◽

Solid Phase ◽

Parent Phase ◽

Steady Motion ◽

Diffusion Field ◽

Lateral Growth ◽

Small Perturbations ◽

Step Motion ◽

Kinetics Of

The problem of step motion during lateral growth in solid-solid phase transformations is re-examined. Results are obtained for the steady motion of an individual ledge when volume diffusion in the parent phase is the predominant contribution to the growth rate. A comparison is made between our results and the earlier work of Jones & Trivedi (1971). There are significant differences between the two sets of results particularly in the limit of small perturbations to the Laplacian diffusion field. To confirm the accuracy of the results presented here the calculations have been made by two different methods.

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Design and development of a hybrid macrophyte assisted vermifilter for the treatment of dairy wastewater: A statistical and kinetic modelling approach

The Science of The Total Environment ◽

10.1016/j.scitotenv.2018.07.118 ◽

2018 ◽

Vol 645 ◽

pp. 156-169 ◽

Cited By ~ 8

Author(s):

Kundan Samal ◽

Rajesh Roshan Dash ◽

Puspendu Bhunia

Keyword(s):

Kinetic Modelling ◽

Dairy Wastewater ◽

Design And Development ◽

Modelling Approach

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Multiphase Phase-Field Approach for Virtual Melting: A Brief Review

Material Science Research India ◽

10.13005/msri/180201 ◽

2021 ◽

Vol 18 (2) ◽

pp. 102-107

Author(s):

Arunabha Mohan Roy

Keyword(s):

Phase Transformations ◽

Phase Field ◽

Field Model ◽

Solid Phase ◽

Scale Effects ◽

Phase Field Model ◽

Short Review ◽

Nanoscale Material ◽

Material Parameters ◽

Field Approach

A short review on a thermodynamically consistent multiphase phase-field approach for virtual melting has been presented. The important outcomes of solid-solid phase transformations via intermediate melt have been discussed for HMX crystal. It is found out that two nanoscale material parameters and solid-melt barrier term in the phase-field model significantly affect the mechanism of PTs, induces nontrivial scale effects, and changes PTs behaviors at the nanoscale during virtual melting.

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