Decoupling Thermal and Autogenous Strain of Concretes with Different Water/Cement Ratios During the Hardening Process

Brice Delsaute; Stéphanie Staquet

doi:10.1520/acem20160063

DRYING-HARDENING PROCESS IN CEMENT PASTES

10.1615/ihtc4.1230 ◽

1970 ◽

Author(s):

Marc Z. Jeric ◽

Herbert B. Nottage

Keyword(s):

Cement Pastes ◽

Hardening Process

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Theoretical justifi cation for use of combined methods for hardening of surfaces of machine parts in order to control their fretting resistance

10.36652/1813-1336-2020-16-8-339-342 ◽

2020 ◽

pp. 339-342

Author(s):

V.F. Bez’yazychny ◽

M.V. Timofeev ◽

R.V. Lyubimov ◽

E.V. Kiselev

Keyword(s):

Surface Layer ◽

Fatigue Limit ◽

Surface Hardening ◽

Theoretical Justification ◽

Hardening Process ◽

Subsequent Application ◽

Machine Parts ◽

Combined Methods

The theoretical justification for the hardening process of the surface layer of machine parts for combined methods of surface hardening with subsequent application of strengthening coatings, as well as reducing or increasing the fatigue limit due to the fretting process is presented.

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Modeling of steel hardening process at thermal and mechanical treatment

Voprosy Materialovedeniya ◽

10.22349/1994-6716-2018-96-4-07-13 ◽

2019 ◽

pp. 7-13

Author(s):

A. S. Oryshchenko ◽

V. A. Malyshevsky ◽

E. A. Shumilov

Keyword(s):

Mechanical Treatment ◽

Thermomechanical Processing ◽

High Strength Steels ◽

High Strength ◽

Accelerated Cooling ◽

Rolling Mills ◽

Hardening Process ◽

Deformation Parameters ◽

Research Complex ◽

Steel Hardening

The article deals with modeling of thermomechanical processing of high-strength steels at the Gleeble 3800 research complex, simulating thermomechanical processing with various temperature and deformation parameters of rolling and with accelerated cooling to a predetermined temperature. The identity of steel hardening processes at the Gleeble 3800 complex and specialized rolling mills, as well as the possibility of obtaining steels of unified chemical composition, are shown.

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Thermal Stresses in Chemically Hardening Elastic Media With Application to the Molding Process

Journal of Applied Mechanics ◽

10.1115/1.3423364 ◽

1974 ◽

Vol 41 (3) ◽

pp. 647-651 ◽

Cited By ~ 16

Author(s):

Myron Levitsky ◽

Bernard W. Shaffer

Keyword(s):

Residual Stress ◽

Chemical Reaction ◽

Thermal Stresses ◽

Stress Component ◽

Elastic Solid ◽

Molding Process ◽

Hardening Process ◽

Exothermic Chemical Reaction ◽

Component Parallel

A method has been formulated for the determination of thermal stresses in materials which harden in the presence of an exothermic chemical reaction. Hardening is described by the transformation of the material from an inviscid liquid-like state into an elastic solid, where intermediate states consist of a mixture of the two, in a ratio which is determined by the degree of chemical reaction. The method is illustrated in terms of an infinite slab cast between two rigid mold surfaces. It is found that the stress component normal to the slab surfaces vanishes in the residual state, so that removal of the slab from the mold leaves the remaining residual stress unchanged. On the other hand, the residual stress component parallel to the slab surfaces does not vanish. Its distribution is described as a function of the parameters of the hardening process.

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A novel investigation into the edge effect reduction of 4340 steel disc through induction hardening process using magnetic flux concentrators

The International Journal of Advanced Manufacturing Technology ◽

10.1007/s00170-021-07351-5 ◽

2021 ◽

Author(s):

Mahyar Parvinzadeh ◽

Sasan Sattarpanah Karganroudi ◽

Narges Omidi ◽

Noureddine Barka ◽

Mohamed Khalifa

Keyword(s):

Magnetic Flux ◽

Edge Effect ◽

Induction Hardening ◽

Hardening Process ◽

4340 Steel ◽

Steel Disc

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To the Influence of the Deformation Speed on Hardening Process during the Cold Sheet Forming

Solid State Phenomena ◽

10.4028/www.scientific.net/ssp.284.513 ◽

2018 ◽

Vol 284 ◽

pp. 513-518 ◽

Cited By ~ 1

Author(s):

Sergey A. Tipalin ◽

Michael A. Petrov ◽

N.F. Shpunkin

Keyword(s):

Sheet Metal Forming ◽

Metal Forming ◽

Sheet Material ◽

Thin Sheet ◽

Hardening Process ◽

Deformation Speed ◽

Thin Sheet Material ◽

Simulation Results ◽

Hardening Curve ◽

Material Forming

The accuracy of the simulation results of stamping processes of thin sheet material depends on the correct properties’ specification, namely stamping ability. Experiments have been carried out and the influence of the deformation speed on the hardening exponent during cold sheet metal forming was studied. It was found out, that strain changed 100 times can influence the strain grade of the hardening curve of about 10%. This regularity has been taken into consideration prior to the calculation in any CAE-software for material forming.

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Time-dependent 3D modeling of the thermal analysis of the high-power diode laser hardening process

Optics & Laser Technology ◽

10.1016/j.optlastec.2020.106216 ◽

2020 ◽

Vol 128 ◽

pp. 106216 ◽

Cited By ~ 1

Author(s):

Saeed Talesh Alikhani ◽

Mohammad Kazemi Zahabi ◽

Mohammad Javad Torkamany ◽

Seyed Hasan Nabavi

Keyword(s):

Thermal Analysis ◽

Diode Laser ◽

High Power ◽

3D Modeling ◽

Laser Hardening ◽

Time Dependent ◽

Hardening Process ◽

Power Diode ◽

High Power Diode Laser

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The Work-Hardening Process in Metals

Journal of the Physical Society of Japan ◽

10.1143/jpsj.26.331 ◽

1969 ◽

Vol 26 (2) ◽

pp. 331-338 ◽

Cited By ~ 27

Author(s):

Hiroshi Fujita

Keyword(s):

Work Hardening ◽

Hardening Process

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The Work Hardening of Single Phase and Multi-Phase Aluminium Alloys

Materials Science Forum ◽

10.4028/www.scientific.net/msf.519-521.71 ◽

2006 ◽

Vol 519-521 ◽

pp. 71-78 ◽

Cited By ~ 9

Author(s):

J. David Embury ◽

Warren J. Poole ◽

David J. Lloyd

Keyword(s):

Work Hardening ◽

Aluminium Alloys ◽

Single Phase ◽

Dynamic Recovery ◽

Uniform Elongation ◽

Strengthening Mechanisms ◽

Plastic Response ◽

Spring Back ◽

Hardening Process ◽

Multi Phase

The process of work hardening in aluminum alloys is important from the viewpoint of formability and the prediction of the properties of highly deformed products. However the complexity of the strengthening mechanisms in these materials means that one must carefully consider the interaction of dislocations with the detailed elements of the microstructure and the related influence of the elements on dislocation accumulation and dynamic recovery. In addition, it is necessary to consider the influence of the work hardening process at various levels of plastic strain. This permits the possibility of designing microstructure for tailored plastic response, e.g. not simply designed for yield strength but also considering uniform elongation, spring-back, ductility etc. This presentation will explore the concept of identifying the various interactions which govern the evolution of the work hardening and their possible role in alloy design.

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The hardening of metals by rotating magnetic fields

Proceedings of the Royal Society of London. Series A, Containing Papers of a Mathematical and Physical Character ◽

10.1098/rspa.1931.0020 ◽

1931 ◽

Vol 130 (814) ◽

pp. 514-523 ◽

Cited By ~ 2

Keyword(s):

Magnetic Field ◽

Magnetic Fields ◽

Work Hardening ◽

Rotating Magnetic Fields ◽

Hardening Process ◽

Hard Steel ◽

Steel Balls ◽

Hardened Condition

In a previous paper by the author experiments were described in which the hardness of various metals was increased by rotating them in a magnetic field. It had been observed that metals in a work-hardened condition, and in particular hard steel which had been super-hardened by the “Cloudburst” process of bombardment with steel balls, exhibit a propensity to become still harder by a process of ageing, the spontaneous increase of hardness commencing with the termination of the work-hardening process, and contiuning during a period of several hours or days.

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