Article(electronic)#1June 1991
Heat treatment yearbook
In: Materials & Design, Volume 12, Issue 3, p. 180
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Article(electronic)#2July 1995
Heat treatment of 319.2 aluminium automotive alloy Part 1, Solution heat treatment
In: Cast Metals, Volume 8, Issue 2, p. 91-106
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Article(electronic)#3April 4, 2012
Statement on a heat treatment to controlAgrilus planipennis: Heat treatment to control Agrilus planipennis
In: EFSA journal, Volume 10, Issue 4, p. 2646
ISSN: 1831-4732
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Article(electronic)#42021
Effect of heat treatment processeson material
In: Asian journal of research in social sciences and humanities: AJRSH, Volume 11, Issue 11, p. 550-556
ISSN: 2249-7315
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Article(electronic)#5August 1984
Controlled atmosphere heat treatment — The undervalued art
In: Materials & Design, Volume 5, Issue 4, p. 195-196
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Article(electronic)#6February 18, 1981
Effect of Ultrasonic Vibrations in Some Heat Treatments
In: Defence science journal: DSJ, Volume 31, Issue 3, p. 199-210
ISSN: 0011-748X
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Article(electronic)#7February 2003
Criteria of heat treatment concerning crankshafts material selection
In: MTZ worldwide, Volume 64, Issue 2, p. 18-20
ISSN: 2192-9114
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Article(electronic)#8December 31, 2023
Comparison of Boriding Heat Treatment and Induction Boriding Method
In: International Scientific and Vocational Studies Journal, Volume 7, Issue 2, p. 224-228
ISSN: 2618-5938
Induction boriding is a metal processing technique that applies a surface accumulation process using a high-frequency electromagnetic field on metal parts. The adoption of this method in industrial applications is anticipated due to its advantages such as high efficiency, precision, and low energy consumption. Induction boriding relies on the principle of using the electromagnetic field to heat metal parts and create desired properties on the surface. During this process, the high-frequency current produced by induction coils penetrates into the metal part, causing heating due to internal resistance. This heating allows the formation of desired characteristics like surface hardness, durability, or other specific attributes. The boriding process is carried out within the range of 2-8 hours and at temperatures between 850-1000°C. In induction boriding, faster boron diffusion is expected, leading to the anticipation of reaching the desired hardness and coating thickness values in a shorter timeframe.
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Article(electronic)#9January 23, 2023
Reduction of pollutant emissions from a heat treatment furnace
In: Environmental science and pollution research: ESPR, Volume 31, Issue 27, p. 38676-38680
ISSN: 1614-7499
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Article(electronic)#10January 2006
Vacuum heat treatment of LiAlO2 densified silicon nitride ceramics
In: Materials & Design, Volume 27, Issue 10, p. 1102-1107
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Article(electronic)#11May 2016
Migration of sulphur in thermal barrier coatings during heat treatment
In: Materials and design, Volume 97, p. 364-371
ISSN: 1873-4197
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Article(electronic)#12May 2015
Research on heat treatment of TiBw/Ti6Al4V composites tubes
In: Materials & Design, Volume 73, p. 1-9
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Article(electronic)#13December 30, 2019
Installation for Short Time Heat Treatment at High Temperature
In: Studia Universitatis Babeş-Bolyai. Physica, Volume 64, Issue 1-2, p. 35-39
ISSN: 2065-9415
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Article(electronic)#14January 1992
Heat treatment processes for the reduction of wear in vehicle components
In: Materials & Design, Volume 13, Issue 5, p. 315
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Article(electronic)#15February 1982
Heat treatment '79. 297 × 210 mm, 232 p.p. 1980, London
In: Materials in engineering, Volume 3, Issue 1, p. 365
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