金属切削是机械制造企业的制造过程中的重要工艺流程,是影响工件加工质量和加工效果的关键因素。在实际的切削工艺中,会出现冷变形程度的增加,这一因素的影响会导致工件的强度和硬度系数发生变化,冷变形程度和强度、硬度间呈正相关的关系,随着这三个因素的变化,工件的塑性和韧性会发生变化,并呈负相关的方式。为了确保工件的质量,需要科学的对工件表层加工硬化进行分析和解读。以下本文就金属切削中工件表层加工硬化模拟展开探讨,使用软件对金属切削中工件表层加工硬化进行仿真模拟,并对其进行分析和解读。旨在为相关技术人员提供参考,促使工件表层加工硬化可以得到控制,提高工件的质量和疲劳寿命。 Metal cutting is an important technological process in the manufacturing process of machinery manufacturing enterprises and is a key factor that affects the quality and processing effect of the workpiece. In the actual cutting process, there will be increased cold deformation, the impact of this factor will lead to changes in the strength and hardness of the workpiece, the degree of cold deformation and hardness, a positive correlation between the three factors Changes in the plasticity and toughness of the workpiece will change, and was negatively related to the way. In order to ensure the quality of the workpiece, it is necessary to analyze and interpret the workpiece surface hardening scientifically. The following article on the metal cutting surface hardening process simulation study, the use of software for metal cutting work-piece surface hardening process simulation and analysis of its interpretation. Designed to provide reference for the relevant technical staff to promote work-piece surface hardening can be controlled to improve the quality of the workpiece and fatigue life.