Aeronautics & Astronautics - Structures > Contact Mechanics: Page 2

No. 26662 Rigid-perfectly-plastic wedge under combined shear and pressure No. 26663 Rigid-perfectly-plastic wedge under combined shear and pressure No. 26664 Contact area growth of plastic wedge due to normal and tangential load No. 26668 Plastic bow wave caused by sliding of a wedge over a surface No. 26669 Plastic bow wave caused by sliding of a wedge over a surface No. 26670 Transient ploughing by a rigid wedge of a plastic surface No. 26671 Creep of flexible belt b/w two pulleys rotating at different speeds No. 26672 Tangential traction distributions for dissimilar rollers in contact No. 26673 Slip regions caused by the rolling contact of dissimilar rollers No. 26674 Resistance for rolling in dissimilar rollers No. 26675 Free rolling creep of a ball over a plane of dissimilar material No. 26676 Tangential tractions distribution in rolling contact of cylinders No. 26677 Surface strains in rolling contact of similar cylinders No. 26678 Creep curve given by tractive rolling contact of cylinders No. 26679 Location of the 'spin pole' in rolling with creep and spin No. 26680 Tractive rolling of an elliptical region due to a longitudinal force No. 26683 Tangential traction on center-line of circular contact No. 26684 Spin combined with longitudinal creep No. 26685 Spin combined with transverse creep No. 26686 Transverse tangential force due to spin caused by camber thrust No. 26687 Application of strip theory to a ball rolling in conforming groove No. 26688 Ball rolling in a conforming groove: resisting moment No. 26689 Transient rolling from rest due to normal and tangential forces No. 26690 Transient rolling from rest due to normal and tangential forces No. 26691 Transient rolling from rest due to normal and tangential forces No. 26692 Transient rolling from rest due to normal and tangential forces No. 26693 Tangential rolling from rest due to normal and tangential forces No. 26706 Thin inflated membrane, pneumatic tire No. 26707 Pneumatic tire like a thin inflated membrane No. 26708 Unloaded automobile tire in contact with the road No. 26709 Diagram showing loaded automobile tire in contact with the road No. 26710 Lateral deflection of a tire shown in the 'stretched string' model No. 26711 Von Schlippe's theory of traction distribution for a tire No. 26712 Cornering force and self-aligning torque No. 26715 Element bounded by slip lines with stresses acting on it No. 26716 Mohr's circle No. 26717 Indentation created by a rigid frictionless wedge No. 26722 Indentation created by a rough wedge having slip at the interface No. 26723 Indentation made by a sharp wedge that had no slip No. 26724 Indentation created by a blunt wedge having no slip No. 26725 Indentation created by a blunt wedge having no slip No. 26727 Mean contact pressure for a rigid wedge No. 26728 Frictionless crushing of a plastic wedge by a rigid flat No. 26729 Crushing of a plastic wedge by a rigid flat without slip No. 26730 Contact pressure on a flat crushing a plastic wedge at semi-angle No. 26731 Rigid cone indentation on a rigid-plastic half-space No. 26732 Rigid sphere indentation on elastic-plastic half-space No. 26733 Experimental contours of plastic strain caused by ball indentation No. 26734 Cavity model of an elastic-plastic indented by a cone No. 26735 Spheres and cones indenting an elastic-plastic half-space
 

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