Correlation of ideal and actual shear strengths of metals with their friction properties
Kazuhisa Miyoshi, Donald H. Buckley, Lewis Research Center, United States. National Aeronautics and Space Administration. Scientific and Technical Information Branch
National Aeronautics and Space Administration, Scientific and Technical Information Branch, 1981 - Technology & Engineering - 9 pages
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99.99 percent pure actual shear strength body-centered cubic clean diamond clean metals close-packed coefficient of friction contact with clean contact with nonmetals contact with various cubic metals direction of shear distance of atoms DISTANCES BETWEEN PLANES experiments were conducted face-centered cubic friction for metals friction properties GPa T G hexagonal metals Hexagonal structure ideal and actual ideal shear strength ideal strength ideal tensile strength interplanar spacing lattice constants Lewis Research Center lower the coefficient metal wear metals in contact mm/min nanometer NASA pascal Performing Organization plane and direction platelets properties of metals pyrolytic boron nitride repeat distance room temperature shear modulus shear stress shearing planes single-crystal diamond single-crystal manganese-zinc ferrite single-crystal silicon carbide sliding contact sliding interface sliding velocity slip direction slip plane strain gage strength of metals strength Tmax surface energy surface in sliding theoretical cohesive strength theoretical strength vacuum pressure vacuum system various polycrystalline metals Wear track Young's modulus