Aeronautics & Astronautics - Structures > Contact Mechanics: Page 3

No. 26736 Subsurface stresses due to plastic indentation by a rigid sphere. No. 26737 Subsurface stresses due to plastic indentation by a rigid sphere. No. 26738 Surface stresses due to plastic indentation by a rigid sphere. No. 26739 Surface stresses due to plastic indentation by a rigid sphere. No. 26744 Viscoelastic behavior under constant stress No. 26745 Circuit diagram representation of simple viscoelastic materials No. 26746 Creep response to step change in stress in viscoelastic materials No. 26747 Relaxation in stress due to step in strain in viscoelastic materials No. 26748 Circuit diagram representation of simple viscoelastic materials No. 26749 Creep response to step change in stress in viscoelastic materials No. 26750 Response showing stress relaxation caused by step in strain No. 26751 Growth of contact radius caused by step load applied to rigid sphere No. 26753 Pressure distribution variation when step load is applied to sphere No. 26754 Contact of a Maxwell solid with a sphere under a sinusoidal force No. 26755 Sphere in contact with Maxwell solid acted upon by a sinusoidal force No. 26756 Sphere in contact with Maxwell solid acted upon by a sinusoidal force No. 26758 Cycle of reversed shear and compression experienced by rolling contact No. 26759 Tractions for varying coefficients of friction on tangential surface No. 26760 Diagram showing stress components for coefficient of friction = 0.3 No. 26761 Figure shows rolling contact of elastic-plastic cylinders No. 26762 Cylinders rolling with tangential traction No. 26763 Plastic shear in rolling contact No. 26764 Simplified orthogonal shear stress-strain cycle No. 26765 Rolling contact cumulative plastic shear No. 26766 Residual stresses induced in free rolling contact of Duralumin rollers No. 26768 Slip-line fields for a rigid cylinder rolling on a half-space No. 26769 Slip-line fields for a rigid cylinder rolling on a half-space No. 26770 Slip-line fields for a rigid cylinder rolling on a half-space No. 26771 Slip-line fields for a rigid cylinder rolling on a half-space No. 26772 Slip-line fields caused by a rigid cylinder rolling on a half-space No. 26773 Slip-line fields for a rigid cylinder rolling on a half-space No. 26774 Slip-line fields for a rigid cylinder rolling on a half-space No. 26775 Rolling moments & forces for slip-line fields of a rigid cylinder No. 26776 Rigid cylinder rolling on a viscoelastic foundation No. 26777 Contact dimensions for a cylinder rolling on a viscoelastic half-space No. 26778 Rolling resistance for a rigid cylinder on a viscoelastic half-space No. 26779 Rigid cylinder, rolling resistance on an elastic-plastic solid No. 26783 Real contact area of 1-dimensional wavy surface and elastic half-space No. 26784 Real contact area of 2-dimensional wavy surface and elastic half-space No. 26786 Regular serrated plastic surface being crushed by a rigid flat punch No. 26788 'Bearing area' and height distribution curve No. 26789 Cumulative height distribution for bead-blasted aluminium No. 26790 Cumulative height distribution for mild steel abraded and polished No. 26791 Cumulative height distribution for lathe-turned mild steel No. 26792 Contact of a smooth flat and a randomly rough surface No. 26793 Real contact area vs non-dimensional load No. 26794 Contact of a nominally flat randomly rough surface with smooth sphere No. 26795 Normalized effective pressure distribution for smooth surfaces No. 26796 Normalized effective pressure distribution for smooth surfaces No. 26797 Effect of surface roughness on contact pressure
 

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