Abstract
H13 die steel often fails as a result of physical and chemical effects such as wear, erosion and cyclic stress. Accordingly, the study evaluates Co-based gradient coating on an H13 steel featuring a stress-relieving effect. Scanning electron microscope and X-ray diffraction were used to analyze the microstructure and phase of the coatings. A microhardness tester and friction and wear tester were used to compare the hardness and wear resistance of the coatings and the substrate, and the wear morphology was observed. A pendulum impact test was used to compare the impact resistance of the coatings and the substrate, and the fracture morphology was observed. Finally, a corrosion test was used to compare the corrosion resistance of coatings and substrate. The results show that the Co-based gradient coatings have good combinations with the substrate, the hard phase content gradually increases from the bottom to the top of the coating, and the crystal microstructure generally maintains a distribution trend from coarse to fine. The hardness of the gradient coatings is significantly higher than the substrate, and from the coating surface to the substrate, the hardness decreases slowly. The wear loss of the coatings is much lower than that of the substrate, the main wear mechanism of the substrate is abrasive wear, and the main wear mechanism of the coatings is brittle spalling. While the gradient coatings increase the surface hardness, the brittleness also increases, the impact resistance of the coatings is lower than that of the substrate, the fracture form of the substrate is a ductile fracture, and the fracture form of the coating is a brittle fracture. The gradient coatings effectively improve the corrosion resistance of the substrate surface, and the higher the content of the reinforcing phase, the better the corrosion resistance of the coatings.
Highlights
H13 steel is an important hot working mold steel, known as 4Cr5MoSiV1
The development of the mold industry affects the manufacturing level of a country; despite the rapid development of China’s mold industry, the service life of mold steel is low, and the waste caused by the low service life of mold is about several hundred million yuan each year
The general change trend of the gradient coating microstructure from bottom to top is that the number of white strengthening phases dispersed in the gradient coating gradually increases, while the content of the γ-Co matrix phase gradually decreases
Summary
H13 steel is an important hot working mold steel, known as 4Cr5MoSiV1 It has high hardenability, hardness, good toughness, thermal fatigue resistance, heat resistance, thermal stability, oxidation resistance and corrosion resistance. Hardness, good toughness, thermal fatigue resistance, heat resistance, thermal stability, oxidation resistance and corrosion resistance It is widely used in the manufacture of various molds [1,2]. In the process of production and use, H13 hot work molds are constantly subjected to physical, chemical effects such as wear, thermal fatigue, erosion, stress corrosion, as well as the effects of cold and heat alternation and impact loads [3,4]. The failure of the mold starts most frequently on Coatings 2020, 10, 176; doi:10.3390/coatings10020176 www.mdpi.com/journal/coatings
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