Compressive properties, plastics

ISO 844 2001 Rigid cellular plastics - Determination of compression properties ISO 3386-1 1986 Polymeric materials, cellular flexible - Determination of stress-strain characteristics in compression - Part 1 Low-density materials ISO 3386-2 1997 Flexible cellular polymeric materials - Determination of stress-strain characteristics in compression - Part 2 High-density materials ISO 5893 2002 Rubber and plastics test equipment - Tensile, flexural and compression types (constant rate of traverse) - Specification ISO 7743 2004 Rubber, vulcanized or thermoplastic - Determination of compression stress-strain properties... 

ASTM (1984) D695-80. Annual Book of A STM Standards, Section 8, Standard Test Method for Compressive Properties of Rigid Plastics, ASTM, pp. 290-297. 

Apparent tensile strength of tubular (pipe) products by the split disk method External loading characteristics of plastic pipe by parallel plate loading Compressive properties of plastics Adhesion of rubbers to metallic substrates (Procedure E1)... 

Compressive Properties of Rigid Cellular Plastics ASTM D 3574 - Test A (for flexible cellular materials). This test is similar to ASTM D 1622, except that it uses the terms section density and interior density for apparent overall density and apparent core density, respectively-... 

ASTM D 1621-73 (1979) Standard Test Method for Compressive Properties of Rigid Cellular Plastics, 4 pp (DOD Adopted) (FSC 9330) (MR) (Comm D-20)... 

ASTM D 695, Standard Test Method for Compressive Properties of Rigid Plastics ... 

Compressive properties include compressive strength, modulus of elasticity, yield stress, and deformation beyond yield point. The ASTM procedure covers determinations of all of them. In all cases, tested specimens are loaded in compression at relatively low uniform rates of straining or loading. Compressive yield point is the first point on the stress-strain curve at which an increase in strain occurs without an increase in stress. In other words, it is the load under which the specimen starts to move continuously without an increase in the load. Also, many plastic materials will continue to deform in compression until a flat disk is produced, without breaking of the specimen. In those cases the compressive stress (nominal) increases steadily in the process, without failure of the material. Compressive strength typically has no meaning in such cases. 

ASTM D 6108, Standard Test Methods for Compressive Properties of Unreinforced and Reinforced Plastic Lumbers ... 

This ASTM method is an adaptation of ASTM D 695 to as manufactured plastic/composite lumber and shapes (=whole profiles), unlike small cut specimen in ASTM D 695. In ASTM D 6108 the entire cross section (cut as specified) is loaded in compression. Hence, ASTM D 6108 describes test method for evaluating compressive properties of a product, whereas ASTM D 695 describes test method for evaluating compressive properties of a material. 

ASTM D695-91, "Compressive Properties of Rigid Plastics," Philadelphia (1992). 

The measurement of compressive properties of plastics is covered by ISO 604 [44]. Unlike with the tensile test a single document is able to cover a wide range of materials, since test geometries and other conditions tend to be less variable between types of plastic than is the case for tensile testing. Nevertheless, there arc types of materials that the standard does not purport to cover, and these include textile reinforced plastics, cellular materials, and sandwich constructions involving cellular materials. 

ASTM D695, Compressive properties of rigid plastics, 1991. 

The compression properties characterize the strength, deformation and stiffness behaviour of plastics under quasi-static uniaxial compression load conditions. Generally, for these tests commercial universal test systems with different load capacity are used. The valid and common used standard for the compression test of plastics is the ISO 604 (2002) Plastics - Determination of compressive properties. The data collected include also values determined according DIN 53454 and DIN 53457 as well as ASTM D 695 (Fig. 4.33). The specimen of preference exhibits dimensions of 50 x 10x4 mm for the determination of modulus of elasticity and 10 x 10x4 mm for the investigation of the other compressive properties (Fig. 4.34). 

D3410-87 Compressive properties of unidirectional or crossply fibre resin composites D3518-91 In-plane shear stress-strain response of unidirectional reinforced plastics D3846-79 In-plane shear strength of reinforced plastics... 

Carr DJ, Barker AJ, Compressive properties of carbon-fiber reinforced plastics, Chem Eng Res Design, 71(A3), 316-318, 1993. 

ISO 178, Plastics Determination of Flexural Properties of Rigid Plastics (Switzerland, 1975) ISO 604, Plastics Determination of Compressive Properties (Switzerland, 1973)... 

Plastics—Determination of Tensile Properties Part 4 Test Conditions for Isotropic and Orthotropic Fiber Reinforced Plastics Plastics—Determination of Compressive Properties... 

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