The soft-hard combined structures involving varying microhardness on the specimen surface of grey cast iron,processed by bionic laser technology,exhibit excellent wear resistance under dry sliding condition.Both the p...The soft-hard combined structures involving varying microhardness on the specimen surface of grey cast iron,processed by bionic laser technology,exhibit excellent wear resistance under dry sliding condition.Both the primary phase(PP)and the laser-treated phase(LP)play pivotal roles in the wear performance of grey cast iron,in association with various combinations of PP and LP microhardness,originating from different laser processing and heat treatment.Owing to the optimized combination of microhardness,the result exhibits the dominant role of LP,with higher microhardness,in wear test,indicating that this technology,apart from producing complex structures,can also act as a design-process method to modify the tribological properties of grey cast iron,and thus providing a feasible approach to tailor the surface microhardness and to modify the wear performance of grey cast iron.Moreover,a threshold of wear resistance is obtained,while LP microhardness is above 900 HV;meanwhile,beyond it,the change of PP microhardness has only minor impact on wear performance.Finite element analysis shows that,in line with varying microhardness combination,distinct stress distribution on specimen surface is achieved,agreeing well with the good wear resistance and tailorable microhardness of LP and PP.展开更多
In this work, the mechanical properties and microstructures of vermicular graphite cast iron processed by selective laser surface alloying with ultra-fine ZrO2 ceramic particulates were investigated. A particulate-rei...In this work, the mechanical properties and microstructures of vermicular graphite cast iron processed by selective laser surface alloying with ultra-fine ZrO2 ceramic particulates were investigated. A particulate-reinforced metal matrix composite coating with the thickness of -650 μm was fabricated by laser treatment on the sample surface. The particulates were uniformly distributed in the microstructure of the coating. The tensile strength and microhardness both increased with the particulate fraction, since more tensile load was transferred from the matrix to the reinforcement showing essential strengthening effect. The composite coating also sharply reduced the wear mass loss and thus improved the wear resistance.展开更多
基金supported by Project 985-High Performance Materials of Jilin University and the Project 985-Biomimetic Engineering Science and Technology Innovation and National Natural Science Foundation of China(No.51275200).
文摘The soft-hard combined structures involving varying microhardness on the specimen surface of grey cast iron,processed by bionic laser technology,exhibit excellent wear resistance under dry sliding condition.Both the primary phase(PP)and the laser-treated phase(LP)play pivotal roles in the wear performance of grey cast iron,in association with various combinations of PP and LP microhardness,originating from different laser processing and heat treatment.Owing to the optimized combination of microhardness,the result exhibits the dominant role of LP,with higher microhardness,in wear test,indicating that this technology,apart from producing complex structures,can also act as a design-process method to modify the tribological properties of grey cast iron,and thus providing a feasible approach to tailor the surface microhardness and to modify the wear performance of grey cast iron.Moreover,a threshold of wear resistance is obtained,while LP microhardness is above 900 HV;meanwhile,beyond it,the change of PP microhardness has only minor impact on wear performance.Finite element analysis shows that,in line with varying microhardness combination,distinct stress distribution on specimen surface is achieved,agreeing well with the good wear resistance and tailorable microhardness of LP and PP.
基金supported by Project 985-Bionic Engineering Science and Technology Innovation of Jilin Universitythe National Natural Science Foundation for Youths (No. 51205160)the Pearl River S&T Nova Program of Guangzhou (No. 2014J2200095)
文摘In this work, the mechanical properties and microstructures of vermicular graphite cast iron processed by selective laser surface alloying with ultra-fine ZrO2 ceramic particulates were investigated. A particulate-reinforced metal matrix composite coating with the thickness of -650 μm was fabricated by laser treatment on the sample surface. The particulates were uniformly distributed in the microstructure of the coating. The tensile strength and microhardness both increased with the particulate fraction, since more tensile load was transferred from the matrix to the reinforcement showing essential strengthening effect. The composite coating also sharply reduced the wear mass loss and thus improved the wear resistance.
