Effects of erodant particle shape and various beat treatments on erosion resistance of plain carbon steel
Joshua Salik, Donald H. Buckley, United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch, Lewis Research Center
National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1981 - Technology & Engineering - 7 pages
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1045 steel samples annealed 1045 steel Austempered austenitizing at 855 bainite beads and crushed Cementite in ferrite correlation between hardness crushed glass deformation-induced fracture different mechanisms dominant wear mechanism erodant particles erosion behavior erosion by crushed EROSION OF 1045 Erosion of Ductile Erosion rates depend erosion resistance Erosion tests erosion with crushed erosion with glass ferrite matrix fracture of surface glass beads glass the main hardness and erosion Lewis Research Center loss after erosion magnitude higher main mechanism Martensite material removal matrix 68 mechanism of material micrographs minutes for erosion NASA order of magnitude pearlite Performing Organization proportional to hardness pure metals ref quenched and tempered removal are involved removal is cutting removed upon erosion resulting from erosion Salik scanning electron microscopy shape of erodant Space Administration steel eroded surface layers surface morphologies tempered at 540 tempered at 685 types of erodant various heat treatments Water quenched whereas for erosion