- 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
Bench Tensile Testing Machine Plastic Test Equipment
Capacity selection | 5,10,50,100,200,500kg |
Accuracy level | 0.5 level/1 level |
Load resolution | 1/500000 (level 0.5) 1/300000 (level 1) |
Test speed | 1~500 mm/min |
Effective Travel | 650 mm/1050 mm/Customized version |
Experimental space | 120 mm/Customized version |
Power unit | kgf ,gf,N,kN,lbf |
Stress unit | MPa,kPa,kgf/cm2,lbf/m2 (can be added as needed) Other units |
Shutdown method | Upper and lower limit safety settings, specimen breakpoint sensing |
Result output | Micro printer or external printer connection |
Travel protection | Overload protection and limit element protection |
Power protection | The system can set a maximum value to prevent exceeding the sensor calibration value |
Transmission rod | High precision ball screw |
During the test, the bench tensile testing machine can determine a number of important performance indicators of plastics. Among them, tensile strength is a key parameter to measure the ability of plastic materials to resist tensile damage, which reflects the maximum bearing capacity of the material under tensile load. The yield strength represents the stress value when the material begins to produce significant plastic deformation, which is important for determining the use limit of plastics. In addition, elongation at break is able to assess the ductility of the plastic, that is, the degree of deformation the material can withstand before breaking. Through the determination of these parameters, we can fully understand the mechanical properties of plastic materials, and provide a scientific basis for the selection and application of materials.
The application field of plastic testing equipment is very wide. In the research and development phase of plastic products, it can help researchers screen materials, optimize formulations and improve processes to develop plastic products with better performance. In the production process, it is used for quality inspection of raw materials and finished products to ensure that products meet relevant standards and customer requirements. At the same time, in the failure analysis, the tensile test of the failed plastic parts can find out the cause of failure, and provide guidance for improving the product design and production process.