The features of residual stresses investigation in the hardened surface layer of die steels after diffusion boroaluminizing

IF 0.4 Q4 METALLURGY & METALLURGICAL ENGINEERING

Obrabotka Metallov-Metal Working and Material Science Pub Date : 2022-12-15 DOI:10.17212/1994-6309-2022-24.4-18-32

N. Ulakhanov, A. Tikhonov, U. Mishigdorzhiyn, V. Ivancivsky, N. Vakhrushev

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Abstract

Introduction. Diffusion boroaluminizing provides improved performance properties of the die steels’ surface such as wear resistance, high hardness, and corrosion resistance. Surface hardening can significantly contribute to the occurrence of technological residual stresses (TRS) on the surface. Currently, there are no studies on the topic of the stress state of diffusion boroaluminizing. The purpose of this work is to develop a method for determining the TRS and a nature of its distribution in the diffusion layers on the surface of 5CrNiMo and 3Cr2W8V die steels after boroaluminizing by a mechanical method. The paper considers the results of experimental studies on the determination of the normal components of TRS by the mechanical method in diffusion layers of die steels. The conducted studies showed that the formation of unfavorable tensile TRS occurs along the depth of the hardened layer in the case of the investigated TCT method and types of steels. Results and discussions. The main approaches for determining the TRS in the surface layer of 3Cr2W8V and 5CrNiMo die steels after TCT are considered. Problems in the determination of TRS by the mechanical method on the UDINON-2 unit are identified, and its solution is proposed. The efficiency of using the anodic dissolution method for the continuous removal of stressed layers during the TRS study by the mechanical method on the UDION-2 unit is shown. The optimal electrolyte composition is selected for the process of anodic dissolution consisting of: NaNO3 – 60 g/l; NaNO2 – 5 g/l; Na2CO3 – 5 g/l; C3H8O3 – 15 g/l; H2O – the rest. The distributions of the normal TRS components in the diffusion layer of die steel specimens are revealed. It is established that, during the TCT of these steels predominantly tensile TRS are formed in the surface layer. Further research will be aimed at developing measures to reduce tensile TRS during diffusion boroaluminizing of die steels.

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模具钢扩散硼铝化后表面硬化层残余应力特征的研究

介绍。扩散硼铝化改善了模具钢的表面性能，如耐磨性、高硬度和耐腐蚀性。表面硬化是导致表面工艺残余应力(TRS)产生的重要因素。目前，还没有关于扩散硼渗铝应力状态的研究。本研究的目的是建立一种测定5CrNiMo和3Cr2W8V压铸钢机械渗硼后表面扩散层中TRS及其分布性质的方法。本文考虑了用力学方法测定模具钢扩散层中TRS正常组分的实验研究结果。所进行的研究表明，在所研究的TCT方法和钢类型的情况下，不利拉伸TRS的形成沿着硬化层的深度发生。结果和讨论。介绍了3Cr2W8V和5CrNiMo模具钢TCT后表层TRS测定的主要方法。指出了机械法测定UDINON-2机组TRS存在的问题，并提出了解决方法。在UDION-2装置的TRS机械研究中，采用阳极溶解法连续去除应力层的效率得到了证明。选择阳极溶解工艺的最佳电解液组成为:NaNO3 - 60 g/l;NaNO2 - 5 g/l;Na2CO3 - 5 g/l;C3H8O3 - 15g /l;H2O，剩下的。揭示了模具钢试样扩散层中正常TRS组分的分布。结果表明，在TCT过程中，这些钢的表层主要形成拉伸TRS。进一步的研究将旨在制定降低模型钢扩散硼渗铝过程中拉伸TRS的措施。

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来源期刊

Obrabotka Metallov-Metal Working and Material Science METALLURGY & METALLURGICAL ENGINEERING-

CiteScore

1.10

自引率

50.00%

发文量