- Tensile Strength Tester
- Environmental Testing Machine
- Paper, Paperboard, and Packaging Tester
- Furniture Testing Equipment
- Optiacl Testing Machine
- Compression Tester
- Drop Testing Machine Series
- Bursting Strenth Tester
- Plastic Testing Machine
- Thermostatic Testing Machine
- Rainwater Test Chamber
- Aging Test Chamber
- Vehicle Testing Machine
Plastic Rubber Tensile Strength Testing Machine
1 | Max test force | 5KN (0.1/0.2/0.3/0.5/1/ 2/3KN optional) |
2 | Test accuracy | 1 grade |
3 | Test range | 2%-100% |
4 | Displacement resolution | 0.01mm |
5 | Test speed | 0.01-500mm/min |
6 | Tensile space | 600mm (could be customized) |
7 | Compression space | 600mm (could be customized) |
8 | Host dimension | 520*400*1340mm |
9 | Host weight | 150Kg |
Applications of the testing machine:
Quality control of plastic and rubber products: By testing the tensile properties of raw materials and finished products, it is possible to determine whether the quality of the product meets the requirements of the standard. For example, for plastic products, the mechanical properties can be evaluated by testing the tensile strength, elongation at break and other indicators; For rubber products, tensile strength, constant elongation stress, elongation at break and other indicators can be tested to ensure that it has sufficient elasticity and strength.
Product development: In the development process of plastic and rubber products, tensile strength testing machines can help developers understand the performance characteristics of products under different material formulations and process conditions, so as to optimize product design and production processes. For example, by adjusting the formula, processing temperature, pressure and other parameters of the material, the tensile strength and elongation at break of the product can be improved.
Research on material properties: Tensile strength testing machines can be used to study the mechanical properties of different types of plastic and rubber materials, providing a basis for the selection and application of materials. For example, by testing the tensile properties of different brands and different models of plastic and rubber materials, it is possible to compare their performance differences and select the most suitable material for a specific application scenario.
Teaching and research: In universities and scientific research institutions, tensile strength testing machines are important tools for teaching and research. Students and researchers can understand the mechanical properties and failure mechanism of materials through experiments with testing machines, and provide data support for research in related fields.