Effect of Laser Heating Temperature Field on 38CrNi3MoV Quenching Microstructure and Properties

KONG Xianjun; WANG Minghai; WANG Ben; ZHENG Yaohui; WANG Yang; YANG Lijun

doi:10.16080/j.issn1671–833x.2019.23/24.052

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Effect of Laser Heating Temperature Field on 38CrNi3MoV Quenching Microstructure and Properties

更新时间：2025-10-30

- Effect of Laser Heating Temperature Field on 38CrNi3MoV Quenching Microstructure and Properties
- Aeronautical Manufacturing Technology Vol. 62, Issue 23/24, (2019)
- 作者机构：
  
  1. 沈阳航空航天大学机电工程学院,沈阳,110136
  2. 哈尔滨工业大学机电工程学院,哈尔滨,150001
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671–833x.2019.23/24.052
  CLC：
- Published：2019
- 稿件说明：
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孔宪俊，王明海，王奔，郑耀辉，王扬，杨立军. 激光诱致温度场对38CrN3MoV淬火组织转变及性能影响研究[J]. 航空制造技术, 2019, 62(23/24): 52-58. KONG Xianjun, WANG Minghai, WANG Ben, ZHENG Yaohui, WANG Yang, YANG Lijun. Effect of Laser Heating Temperature Field on 38CrNi3MoV Quenching Microstructure and Properties[J]. Aeronautical Manufacturing Technology, 2019, 62(23/24): 52-58.

KONG Xianjun, WANG Minghai, WANG Ben, et al. Effect of Laser Heating Temperature Field on 38CrNi3MoV Quenching Microstructure and Properties[J]. Aeronautical Manufacturing Technology, 2019, 62(23/24).
孔宪俊，王明海，王奔，郑耀辉，王扬，杨立军. 激光诱致温度场对38CrN3MoV淬火组织转变及性能影响研究[J]. 航空制造技术, 2019, 62(23/24): 52-58. KONG Xianjun, WANG Minghai, WANG Ben, ZHENG Yaohui, WANG Yang, YANG Lijun. Effect of Laser Heating Temperature Field on 38CrNi3MoV Quenching Microstructure and Properties[J]. Aeronautical Manufacturing Technology, 2019, 62(23/24): 52-58. DOI： 10.16080/j.issn1671–833x.2019.23/24.052.

KONG Xianjun, WANG Minghai, WANG Ben, et al. Effect of Laser Heating Temperature Field on 38CrNi3MoV Quenching Microstructure and Properties[J]. Aeronautical Manufacturing Technology, 2019, 62(23/24). DOI： 10.16080/j.issn1671–833x.2019.23/24.052.

摘要

为提高炮管管线阴阳线硬度及抗摩擦磨损能力，对炮管管线阴线和阳线进行激光淬火试验研究。建立连续半导体激光加热 38CrNi3MoV 温度场的有限元预测模型，仿真分析激光参数对炮管管线温度场的影响规律。结合温度场仿真结果，对炮管管线开展激光淬火试验研究

探究激光功率、激光光斑直径、扫描速度等工艺参数对淬硬层硬度以及深度的影响规律。结果表明：激光淬火后平均硬度由 400HV 提高到 710HV，增加 43.66%；阳线、阴线硬化层深度分别达到 1.22mm 和 0.61mm。淬火后阳线表面粗糙度 Ra 由 0.548μm 增加至 0.700μm，阴线表面粗糙度 Ra 由 4.424μm 降低至 3.804μm，均在允许的变化范围之内，满足使用要求。通过光学显微镜对淬火后阴阳线组织转变进行观察分析，探究激光淬火后组织转变规律。

Abstract

In order to improve the hardness and anti-friction wear performance of the barrel

the finite element predictive model of the temperature field of the continuous semiconductor laser heating pipe line was established

and the effect of laser parameters on the temperature field of the pipe line was simulated. Combined with the simulation results

the mathematical relationship between the depth of the quenching layer and the peak temperature of the temperature field was calculated. The laser quenching test was carried out and the effect of laser power

laser diameter and laser scanning speed on the hardness and depth of the hardened layer was investigated. The microstructure change after quenching was observed by using optical microscope. The results showed that the average hardness after laser quenching was increased from 400HV to 710HV

which is increased by 43.66%

and the depth of the hard line of yin and yang lines was 1.22mm and 0.61mm

respectively. After quenching

the surface roughness of the yang line material increased from 0.548μm to 0.7005μm

and the surface roughness of the yin line material decreased from 4.424μm to 3.804μm

respectively

which is meeting the requirements of use. The microstructure transformation of the yin and yang lines after quenching was observed and analyzed using optical microscope

and the transformation rules after laser quenching was explored.

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