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Tension Testing of Pipe and Tube to ASTM A370, ISO 6892-1, API5L, and ISO 3183
Instron assisted a steel manufacturer with a 5985 testing system and model SF-16 split furnace to perform tensile tests to a specimen at a high temperature.
With temperature tension tests of metals to calculate tensile strength, yield strength, and elongation or reduction, follow ASTM E21 to meet modern requirements.
To follow ASTM E8, specific dimensions and gripping solutions need to be used in tension testing of metallic materials like sheets, wires, and pipes.
The AutoX 750 and AVE can be used for tensile testing metallic materials to ASTM E8 standards and reduce the operator interaction with the specimen.
Different sized shoulder-end metals are needed to tensile test to ASTM E8 and A370 standards, and Split Insert Tensile Holders add ease to changing the inserts.
While a high temperature test took place inside an environmental chamber, a specially designed ball indent test fixture adjusted the pushrods.
A SATEC Series LX or KN Model Machine follow IS 1608 to determine the maximum force, tensile strength, and total elongation for metallic materials.
For tensile testing of metallic materials, ISO 6892-1:2016 has the options to focus on strain rate (Method A) or stress rate (Method B) to strain a specimen to failure.
Video extensometers add ease to following JIS standards for sheet metal testing where R value, N value, yield strength, and other calculations need to be applied.
For a manufacturer wanting to tensile test steel cord reinforcement in tires, Instron suggested vee jaw faces, coated holders, and custom pneumatic wedge grips.
A Model SF-16 split furnace can be used with an Industrial Series 300 DX system or a 5900 Series Test System for hot tensile testing.