A sound pressure field during the quenching of a steel specimen in different water solutions

A sound pressure field during the quenching of a steel specimen in different water solutions

The purpose of controlling the quenching process of an orange-hot steel workpiece is to ensure its required surface hardness. A sound in a cooling liquid generated by the quenching process was experimentally analyzed. It contains sufficient information about the ongoing process for its quantificatio...

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Bibliographic Details
Main Authors: J. Prezelj, M. Čudina
Format: Article
Language:English
Published: Croatian Metallurgical Society 2011-01-01
Series:Metalurgija
Subjects:
acoustic cavitation
quenching
steel hardening
ultrasound
Online Access:http://public.carnet.hr/metalurg/Metalurgija/2011_vol_50/No_1/MET_50_1_37_40_Prezelj.pdf
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spelling doaj-048c7e2e6d4c4169913a60a997c731322020-11-24T22:54:38ZengCroatian Metallurgical SocietyMetalurgija0543-58461334-25762011-01-015013740A sound pressure field during the quenching of a steel specimen in different water solutionsJ. PrezeljM. ČudinaThe purpose of controlling the quenching process of an orange-hot steel workpiece is to ensure its required surface hardness. A sound in a cooling liquid generated by the quenching process was experimentally analyzed. It contains sufficient information about the ongoing process for its quantification, and it can be used in real time. Traditionally, the quenching and the resultant hardening can be controlled by selecting different process parameters, like, for example the characteristics of the cooling liquid, the velocity of the cooling liquid flow, its temperature, the temperature of the work-piece, and many others. The possibility of controlling the quenching process by using acoustic cavitation is considered in this article.http://public.carnet.hr/metalurg/Metalurgija/2011_vol_50/No_1/MET_50_1_37_40_Prezelj.pdfacoustic cavitationquenchingsteel hardeningultrasound
collection DOAJ
language English
format Article
sources DOAJ
author J. Prezelj
M. Čudina
spellingShingle J. Prezelj
M. Čudina
A sound pressure field during the quenching of a steel specimen in different water solutions
Metalurgija
acoustic cavitation
quenching
steel hardening
ultrasound
author_facet J. Prezelj
M. Čudina
author_sort J. Prezelj
title A sound pressure field during the quenching of a steel specimen in different water solutions
title_short A sound pressure field during the quenching of a steel specimen in different water solutions
title_full A sound pressure field during the quenching of a steel specimen in different water solutions
title_fullStr A sound pressure field during the quenching of a steel specimen in different water solutions
title_full_unstemmed A sound pressure field during the quenching of a steel specimen in different water solutions
title_sort sound pressure field during the quenching of a steel specimen in different water solutions
publisher Croatian Metallurgical Society
series Metalurgija
issn 0543-5846
1334-2576
publishDate 2011-01-01
description The purpose of controlling the quenching process of an orange-hot steel workpiece is to ensure its required surface hardness. A sound in a cooling liquid generated by the quenching process was experimentally analyzed. It contains sufficient information about the ongoing process for its quantification, and it can be used in real time. Traditionally, the quenching and the resultant hardening can be controlled by selecting different process parameters, like, for example the characteristics of the cooling liquid, the velocity of the cooling liquid flow, its temperature, the temperature of the work-piece, and many others. The possibility of controlling the quenching process by using acoustic cavitation is considered in this article.
topic acoustic cavitation
quenching
steel hardening
ultrasound
url http://public.carnet.hr/metalurg/Metalurgija/2011_vol_50/No_1/MET_50_1_37_40_Prezelj.pdf
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AT mcudina asoundpressurefieldduringthequenchingofasteelspecimenindifferentwatersolutions
AT jprezelj soundpressurefieldduringthequenchingofasteelspecimenindifferentwatersolutions
AT mcudina soundpressurefieldduringthequenchingofasteelspecimenindifferentwatersolutions
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