| Customization: | Available |
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| After-sales Service: | Online Support |
| Power Supply: | 220V 50/60Hz |
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Rubber Compression Set Tester, ASTM-D395 ISO815
Rubber Permanent Compression De
formation Testing Machine Factory
Contain by parallel steel plates, limiters and fasteners, used for vulcanized rubber, thermoplastic rubber in room temperature, high temperature and low temperature conditions, at a constant compression rate, after a certain compression time determination of the amount of deformation of rubber.
GB7759-2015, ASTM-D395, ISO815-1:2008 etc.
| Model | NG-YB Rubber Permanent Compression Deformation Set |
| Sample | A: dia. 29mm, height: 12.5mm |
| B: dia. 13mm, height: 6.3mm | |
| Limiters height |
Compression rate 25% A: 9.3 ~ 9.4 B: 4.7 ~ 4.8 |
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Compression rate 15% A: 10.6 ~ 10.7 B: 5.3 ~ 5.4 |
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Compression rate 10% A: 11.25 ~ 11.3 B: 5.65 ~ 5.7 |
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| Dimension | Diameter 115mm high about 110mm |
| Weight | 10kg |
A Deformation Testing Machine is a device used to measure the deformation behavior of materials under applied forces. This machine is essential for evaluating the mechanical properties of materials, such as elasticity, yield strength, and fracture elongation. Here are some key functions:
Stress-Strain Measurement: It accurately measures the relationship between stress and strain in a material under load, helping determine elastic and plastic deformation characteristics.
Fracture Testing: The machine applies increasing stress to a material until it fractures, determining tensile strength and fracture elongation.
Yield Point Measurement: It identifies the maximum stress a material can withstand before it begins to deform plastically, known as the yield strength.
Cyclic Loading: The machine can perform cyclic loading and unloading tests to study a material's fatigue performance under repeated stress.
High-Temperature Testing: Some deformation testing machines are equipped with heating systems, allowing for the testing of material deformation behavior at elevated temperatures.
Multi-Axial Loading: Advanced machines can apply multi-axial stress, simulating complex loading conditions to test a material's multi-axial strength and deformation characteristics.
Real-Time Data Acquisition and Analysis: The machine typically includes sensors and data acquisition systems to monitor, record, and analyze test data in real time.
Non-Contact Measurement: Some machines use laser or optical systems for non-contact measurement to avoid influencing the material's properties through physical contact.
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