pvc youngs modulus of elasticity

Young Modulus for Some Common Materialsmodulus of elasticity - Young modulus for some common Materials. Material. ABS plastics. Acrylic. Aluminum. Aluminium Bronze. Antimony. Aramid. Beryllium (Be). Bismuth. Bone, compact. Bone, spongy. Boron. Brass. Brass, Naval. Bronze. Cadmium. Carbon Fiber Reinforced Plastic. Carbon nanotube, single-walled. Cast Iron 4.5% C, ASTM A-48. Chromium. Cobalt. Concrete. Concrete, High Strength (compression). Copper. Diamond (C). Douglas fir Wood. Fiberboard, Medium ...

Plasticized (Flexible) Polyvinyl Chloride (PVC-P) :: MakeItFrom.compvc-P is a thermoplastic, further classified as a polyvinyl plastic. It has a very low tensile strength and a moderately high ductility relative to other thermoplastics. The graph bars on the material properties cards below compare pvc-P to: polyvinyl plastics (top), all thermoplastics (middle), and the entire database (bottom). The length of each bar shows the given value as a % of the largest value in the relevant set.

MATERIAL Type Cost ($/kg) Density ( ,Mg/m3) Young's Modulus (E ...Young's. modulus. (E , GPa). Shear. modulus. (G , GPa). Poisson's. Ratio ( ). Yield Stress. ( Y , MPa). UTS. ( f ,MPa). Breaking strain. ( f , %). Fracture. Toughness. (K c ,MN m-3/2). Thermal. Expansion. ( ,10-6/C). Alumina (Al2O3) ceramic. 1.90. 3.9. 390. 125. 0.26. 4800. 35. 0.0. 4.4. 8.1. Aluminum alloy (7075-T6) metal. 1.80. 2.7. 70. 28 ... Polyurethane elastomer polymer. 4.00. 1.2. 0.025. 0.0086. 0.50. 30. 30. 500. 0.30. 125. Polyvinyl chloride (rigid pvc) polymer. 1.50. 1.4. 1.5. 0.6.

Young's Modulus - Tensile and Yield Strength for common MaterialsYield strength - y. Yield strength is defined in engineering as the amount of stress (Yield point) that a material can undergo before moving from elastic deformation into plastic deformation. Yielding - a material deforms permanently. The Yield Point is in mild- or medium-carbon steel the stress at which a marked increase in deformation occurs without increase in load. In other steels and in nonferrous metals this phenomenon is not observed.

Materials Data BookDislocations and plastic flow. 5. Fast fracture. 6. Statistics of fracture. 6. Fatigue. 7. Creep. 7. Diffusion. 8. Heat flow. 8. II. PHYSICAL AND MECHANICAL PROPERTIES of MATERIALS. Melting temperature. 9. Density. 10. Young's modulus. 11. Yield stress and tensile strength. 12. Fracture toughness. 13. Environmental resistance. 14. Uniaxial tensile response of selected metals and polymers. 15. III. MATERIAL PROPERTY CHARTS. Young's modulus versus density. 16. Strength ...

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