ASTM D638 - Standard Test Method for Tensile Properties of Plastics
Resin materials (plastics) are found in a wide variety of items used on a daily basis. Recently, plastics have started to be used as structural materials in transportation equipment, such as automobiles and aircraft, due to their strength and light-weight nature. In these applications, it is important to understand the mechanical strength properties of these plastics.
ASTM D638 specifies methods for testing the tensile strength of plastics and other resin materials and for calculating their mechanical properties, and outlines accuracy requirements for the test frames and accessories used. This test method uses dumbbell-shaped specimens with either a 25 mm or 50 mm gauge length.
Test force accuracy of ±1%
ASTM D638 requires a test force accuracy that meets ASTM E4 Class 1—accuracy within ±1% of the indicated test force. All of Shimadzu’s test frames and load cells meet the test force accuracy requirements for ASTM D638.
Elongation measurements with 10 μm absolute accuracy and ±0.5% relative accuracy
Specimens for ASTM D638 are dumbbell-shaped with either a 25 mm or 50 mm gauge length; a 50 mm gauge length is recommended. Gauge length changes with ASTM E83 Class B-2 accuracy; an absolute accuracy of 10 μm for a 50 mm gauge length and relative accuracy within ±0.5% are required by ASTM D638 for measuring the tensile modulus of elasticity. Also, for elongation beyond the yield point but less than 20%, Class C accuracy is specified; an absolute accuracy of 50 μm for a 50 mm gauge length and relative accuracy within 1%, and ±10% relative accuracy are required for the rest of the test. For ASTM D638 compliant elongation testing, Shimadzu offers SIE-560SA automatic extensometers, TRViewX non-contact digital video extensometers, and SSG-H one-touch, strain gauge extensometers. In particular, the SIE-560SA automatic extensometer can be programmed to attach and detach automatically from the specimen and can be used for either 25 mm or 50 mm gauge length, improving test efficiency and repeatability.