Layered Wear Resistant Powder Metallurgy 316L Stainless Steel Materials

316L stainless steel addition adhesive wear alloy atomization austenitic bearing behavior carbide content carbide particles carbon cause chromium compaction component composition condition corrosion decreased densification density desired determined developed direction effect engine flow forging friction given grades graphite green Green and Sintered hardening hardness heat higher impact improved increased iron less load lubricants martensitic materials matrix maximum mechanical melt metal methods microns microstructure nitrogen observed obtained occur operations oxide percent Tic phase pores porosity powder precipitation preform prepared presence pressure produce properties reduce relative layer thickness removed roughness samples seat seen shape shown in Figure sintered specimens Sintered Strength sliding solid stage stainless steel strength substrate surface Table technique temperature theoretical density Tic Content typical usually valve wear resistance Wear Test Wear Weight Loss zone