Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser Scanning

Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser Scanning

Temperature history and hardening depth are experimentally characterized in the rotational laser hardening process for an AISI 1045 medium carbon steel specimen. A three-dimensional finite element model is proposed to predict the temperature field distribution and hardening zone area. The laser temp...

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Main Authors: Tsung-Pin Hung, Chao-Ming Hsu, Hsiu-An Tsai, Shuo-Ching Chen, Zong-Rong Liu
Format: Article
Language:English
Published: MDPI AG 2019-02-01
Series:Materials
Subjects:
heat treatment
rotational laser scanning
quenching
martensite
Online Access:https://www.mdpi.com/1996-1944/12/3/534
id doaj-50e6f00a0fb14b2681b5801f34ca1a8d
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spelling doaj-50e6f00a0fb14b2681b5801f34ca1a8d2020-11-24T20:47:25ZengMDPI AGMaterials1996-19442019-02-0112353410.3390/ma12030534ma12030534Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser ScanningTsung-Pin Hung0Chao-Ming Hsu1Hsiu-An Tsai2Shuo-Ching Chen3Zong-Rong Liu4Department of Mechanical Engineering, Cheng Shiu University, Kaohsiung 83347, TaiwanDepartment of Mechanical Engineering, National Kaohsiung University of Science and Technology, Kaohsiung 80778, TaiwanDepartment of Industrial Upgrading Service, Metal Industries Research & Development Centre, Kaohsiung 81160, TaiwanDepartment of Industrial Upgrading Service, Metal Industries Research & Development Centre, Kaohsiung 81160, TaiwanDepartment of Industrial Upgrading Service, Metal Industries Research & Development Centre, Kaohsiung 81160, TaiwanTemperature history and hardening depth are experimentally characterized in the rotational laser hardening process for an AISI 1045 medium carbon steel specimen. A three-dimensional finite element model is proposed to predict the temperature field distribution and hardening zone area. The laser temperature field is set up for an average distribution and scanned along a circular path. Linear motion also takes place alongside rotation. The prediction of hardening area can be increased by increasing the rotational radius, which in turn raises the processing efficiency. A good agreement is found between the experimental characterized hardness value and metallographic composition. The uniformity of the hardening area decreases with increasing laser scanning speed. The increased laser power input could help to expand the hardening depth.https://www.mdpi.com/1996-1944/12/3/534heat treatmentrotational laser scanningquenchingmartensite
collection DOAJ
language English
format Article
sources DOAJ
author Tsung-Pin Hung
Chao-Ming Hsu
Hsiu-An Tsai
Shuo-Ching Chen
Zong-Rong Liu
spellingShingle Tsung-Pin Hung
Chao-Ming Hsu
Hsiu-An Tsai
Shuo-Ching Chen
Zong-Rong Liu
Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser Scanning
Materials
heat treatment
rotational laser scanning
quenching
martensite
author_facet Tsung-Pin Hung
Chao-Ming Hsu
Hsiu-An Tsai
Shuo-Ching Chen
Zong-Rong Liu
author_sort Tsung-Pin Hung
title Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser Scanning
title_short Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser Scanning
title_full Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser Scanning
title_fullStr Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser Scanning
title_full_unstemmed Temperature Field Numerical Analysis Mode and Verification of Quenching Heat Treatment Using Carbon Steel in Rotating Laser Scanning
title_sort temperature field numerical analysis mode and verification of quenching heat treatment using carbon steel in rotating laser scanning
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2019-02-01
description Temperature history and hardening depth are experimentally characterized in the rotational laser hardening process for an AISI 1045 medium carbon steel specimen. A three-dimensional finite element model is proposed to predict the temperature field distribution and hardening zone area. The laser temperature field is set up for an average distribution and scanned along a circular path. Linear motion also takes place alongside rotation. The prediction of hardening area can be increased by increasing the rotational radius, which in turn raises the processing efficiency. A good agreement is found between the experimental characterized hardness value and metallographic composition. The uniformity of the hardening area decreases with increasing laser scanning speed. The increased laser power input could help to expand the hardening depth.
topic heat treatment
rotational laser scanning
quenching
martensite
url https://www.mdpi.com/1996-1944/12/3/534
work_keys_str_mv AT tsungpinhung temperaturefieldnumericalanalysismodeandverificationofquenchingheattreatmentusingcarbonsteelinrotatinglaserscanning
AT chaominghsu temperaturefieldnumericalanalysismodeandverificationofquenchingheattreatmentusingcarbonsteelinrotatinglaserscanning
AT hsiuantsai temperaturefieldnumericalanalysismodeandverificationofquenchingheattreatmentusingcarbonsteelinrotatinglaserscanning
AT shuochingchen temperaturefieldnumericalanalysismodeandverificationofquenchingheattreatmentusingcarbonsteelinrotatinglaserscanning
AT zongrongliu temperaturefieldnumericalanalysismodeandverificationofquenchingheattreatmentusingcarbonsteelinrotatinglaserscanning
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