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Automatic electromechanical tensile testing machine
Automatic electromechanical tensile testing machine
ETM104C3-AR
It is mainly applied in industries such as scientific research institutes, quality supervision, military industry, aerospace, new energy, automobiles, packaging and textiles, as well as in fields like unmanned operation, big data analysis, and intelligent decision-making The configuration of robots, tensile fixtures and fully automatic extensometers can automatically detect the mechanical performance indicators of the specimens, such as elastic modulus, tensile yield stress, tensile strength, tensile fracture stress and tensile fracture strain. The configuration of cross-sectional measurement devices can automatically measure the width and thickness of the specimens. It can complete processes such as automatic sample feeding, intelligent clamping, full-process testing, and report generation, significantly reducing manual intervention, improving testing efficiency and data accuracy, and achieving fully unmanned mechanical property testing throughout the entire process.
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Optional Accessories
Product Recommendation
Main uses
It is mainly applied in industries such as scientific research institutes, quality supervision, military industry, aerospace, new energy, automobiles, packaging and textiles, as well as in fields like unmanned operation, big data analysis, and intelligent decision-making The configuration of robots, tensile fixtures and fully automatic extensometers can automatically detect the mechanical performance indicators of the specimens, such as elastic modulus, tensile yield stress, tensile strength, tensile fracture stress and tensile fracture strain. The configuration of cross-sectional measurement devices can automatically measure the width and thickness of the specimens. It can complete processes such as automatic sample feeding, intelligent clamping, full-process testing, and report generation, significantly reducing manual intervention, improving testing efficiency and data accuracy, and achieving fully unmanned mechanical property testing throughout the entire process.
Main performance
GB/T 16491-2022 Electronic Universal Testing Machine
GB/T 2611-2022 General Technical Requirements for Testing Machines
GB/T 12644-2001 Description of Characteristics of Industrial Robots
GB/T 12642-2013 Industrial Robot Performance Specification and Test Methods
Calibration of extensometer systems for uniaxial testing of metallic materials - GB/T 12160-2019
JJG 475-2008 Electronic Universal Testing Machine
JJG 139-2014 Tensile, Compressive and Universal Testing Machine
ASTM E83 Standard Practice for Verification and Classification of Extensometer Systems
Main functions
Test Method for Tensile Properties of Resin Castings - GB/T 2568-2021
GB/T 1040.1-2018 determination of tensile properties of plastics - Part 1: General Provisions
GB/T 1040.2-2022 Determination of tensile properties of plastics - Part 2: Test conditions for molded and extruded plastics
GB/T 528-2009 Determination of tensile stress and strain properties of vulcanized rubber 㬵 or thermoplastic rubber 㬵
GB/T 529-2008 Determination of tear strength of vulcanized rubber 㬵 or thermoplastic rubber 㬵 (trouse-shaped, right-angled and crescent-shaped specimens)
ASTM D638-14 Standard Test Method for Tensile Properties of Plastics
ISO 527-1 Plastics—Determination of tensile properties
Optional Accessories
Product Recommendation
Microcomputer-controlled electronic universal testing machine - TSE series
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