Our company delivered an electronic universal testing machine on time, and the customer expressed satisfaction with the performance indicators and after-sales service of the equipment.
Electronic universal testing machine is a high-precision equipment used for testing the mechanical properties of materials, widely used in quality control, research and development, and teaching in fields such as metal, plastic, rubber, composite materials, textiles, and building materials.
1. Basic components
Host frame: usually adopts a single column (vertical) or double column (portal) structure, providing high rigidity and stability.
Loading unit: The ball screw is driven by a servo motor to achieve precise displacement and load control.
Force sensor: measures the force acting on the sample, with a range from a few newtons (N) to several hundred kilonewtons (kN).
Displacement sensor: records the deformation or displacement of the sample with an accuracy of micrometer level.
Fixture system: Configure different fixtures (such as stretching, compression, bending, shearing, etc.) according to testing requirements.
Control system: Set test parameters (speed, load mode, etc.) through a computer or embedded controller.
Software system: used for data collection, analysis, and report generation, supporting calculations such as stress-strain curves, elastic modulus, yield strength, etc.
2. Testing function
Tensile test: Determine tensile strength, elongation at break, yield strength, etc.
Compression test: evaluate the compressive properties of materials (such as foam and concrete).
Bending test: measure the bending strength and modulus of materials.
Shear test: Testing the interlayer shear strength of adhesives or composite materials.
Cyclic loading: Study the fatigue characteristics of materials.
Other customized tests such as peeling, tearing, and puncture.
3. Core Features
High precision: adopting closed-loop control, with high load and displacement resolution.
Wide range: can adapt to different force requirements by replacing sensors.
Multifunctionality: One machine can be used for multiple purposes, and multiple tests can be achieved by replacing fixtures.
Automation: Software pre-set standards (such as ASTM, ISO, GB) and automatically generates reports.
Safety: functions such as overload protection and emergency stop.
4. Application Fields
Manufacturing industry: automotive parts, aerospace materials, electronic product reliability testing.
Research institutions: New material research and development, mechanical behavior research.
Quality inspection department: Verify whether the materials comply with industry standards.
Education: University laboratories are used for teaching demonstrations in mechanics.
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