Analysis of Affecting Factors of ZG35Cr2Si2CuMo Wear-resistant Steel AK

    
    Abstract
    
    This paper comprehensively discusses the affecting factors of the ZG35Cr2Si2CuMo wear-resistant steel AK 1000. It mainly analyzes the reasons that affect the wear resistance of the steel, such as composition components, impact toughness, microstructure, and other related parameters. In addition, it combines with separate actual examples to further illustrate the influencing role of each factor. At the same time, the related process parameters are also considered, such as thermal processing, heat treatment and non-destructive testing. Through this paper, a comprehensive understanding of the wear resistance of ZG35Cr2Si2CuMo wear-resistant steel AK 1000 can be obtained.
    
    Introduction
    
    ZG35Cr2Si2CuMo wear-resistant steel AK 1000, with its high hardness, good wear resistance and low cost, has been widely used in many fields. To ensure the wear resistance and service life of components in different work conditions, it is necessary to comprehensively study the influencing factors of ZG35Cr2Si2CuMo wear-resistant steel AK 1000.
    
    The analysis of the wear resistance of ZG35Cr2Si2CuMo wear-resistant steel AK 1000 mainly includes the analysis of composition component, microstructure, impact toughness and related process parameters, etc.
    
    Composition Component Analysis
    
    The wear resistance of ZG35Cr2Si2CuMo wear-resistant steel AK 1000 mainly depends on the content and distribution of its main components, of which Cr and Si are the two most important factors. The content of Cr is 3.6~4.6%, which has a great influence on the hardness and wear resistance. The addition of Si also has a very important effect. With the increase of Si content, the structure of steel becomes more refined and the wear resistance is improved. In addition, the content of Mo and Cu in ZG35Cr2Si2CuMo wear-resistant steel AK 1000 plays an important role in strengthening the alloy.
    
    Microstructure Analysis
    
    The microstructure of ZG35Cr2Si2CuMo wear-resistant steel AK 1000 mainly consists of martensite, pearlite, and bainite. The transformation of martensite into bainite during cooling produces a fine-grained structure and its wear resistance is better. In addition, the pearlite structure can promote the impact toughness of ZG35Cr2Si2CuMo wear-resistant steel AK 1000 and further improve its wear resistance.
    
    Impact Toughness Analysis
    
    The impact toughness of ZG35Cr2Si2CuMo wear-resistant steel AK 1000 is an important factor affecting its wear resistance. Its impact toughness mainly depends on the content of alloy elements, such as Cr, Si, Mo, Cu and nitrogen. The higher the content of these elements, the higher the impact toughness, and the better the improvement of the wear resistance of ZG35Cr2Si2CuMo wear-resistant steel AK 1000.
    
    Process Parameters Analysis
    
    In the production process of ZG35Cr2Si2CuMo wear-resistant steel AK 1000, it is also important to understand the effects of process parameters such as heating, heat treatment, quenching and non-destructive testing. The heating temperature must be accurately controlled to ensure that the pearlite and martensite phases can be transformed into each other in a certain proportion. The quenching temperature should be controlled within the appropriate range so that ZG35Cr2Si2CuMo wear-resistant steel AK 1000 can have better anti-wear properties. At the same time, non-destructive tests in production should be regularly carried out, which can correctly judge the quality of ZG35Cr2Si2CuMo wear-resistant steel AK 1000 (Xu et al., 2019).
    
    Conclusion
    
    In summary, the wear resistance of ZG35Cr2Si2CuMo wear-resistant steel AK 1000 is mainly affected by its main component composition, microstructure, and impact toughness. The content of Cr and Si, the transformation of martensite, pearlite and bainite, and the impact toughness are all important factors that affect the wear resistance of the steel. In addition, related process parameters, such as thermal processing, heat treatment and non-destructive testing, should be properly controlled to obtain better anti-wear properties. Through this article, we can have a comprehensive understanding of the wear resistance of ZG35Cr2Si2CuMo wear-resistant steel AK 1000.

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