- The GT-7011-LH is specifically designed to assess the resistance of vulcanized rubber to tension fatigue when subjected to repeated flexing at high temperature.
- The specimen is repeated flexed under prescribed conditions until flaws cause crack growth and failure. The number of flexes at which failure occurs is then recorded.
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Standards
- GB/T 1688-2008
Principle
The vulcanized or thermoplastics rubber is subjected to flexing at high temperature to cause crack growth, allowing operators to assess its behavior under repeated flexing.
Wide applicability:
Well-suited for a variety of industries such as rubber manufacturing, automotive, medical devices, electronics, and industrial manufacturing.
Authentic simulation:
Replicating the repeated stretching and deformation of vulcanized rubber in real-world applications.
Adjustable test conditions:
Allows for adjustment of various testing conditions, including stroke, frequency, and number of cycles.
Characteristics evaluation:
Helps manufacturers determine rubber characteristics under repeated stretching, such as fatigue resistance, flaws development, and crack growth.
Time and cost efficiency:
The automatic operation and efficient testing process enhance work efficiency, resulting in time and cost savings.
Standard conformity:
Ensures that products meet industry standards and satisfy quality expectations in the market.
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High-temp simulation
Simulates how vulcanized rubber materials behave at high temperatures during real-world applications, providing reliable evaluation.
Multi-station design
Allows multiple specimens to be tested simultaneously, enhancing test efficiency without interference.
Touchscreen interface
The intuitive and user-friendly touchscreen interface allows operators to easily set parameters and control the tester.
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左右滑動看表格Temp. range Ambient temp. to 250℃ Specimen capacity 16 Stroke 10mm to 60mm (adjustable) Control system HMI+PLC Grip structure Dual-sided grip mechanism Test speed 60 to 300 cpm Counter 0 to 99,999,999 (adjustable) Exterior dimensions (approx.) 90 cm ×127cm ×170cm (W×D×H) Power 1∮, AC220V, 50Hz (or specify)
*Product design and specifications are subject to change without notice.
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Details
Standards
- GB/T 1688-2008
Principle
The vulcanized or thermoplastics rubber is subjected to flexing at high temperature to cause crack growth, allowing operators to assess its behavior under repeated flexing.
Wide applicability:
Well-suited for a variety of industries such as rubber manufacturing, automotive, medical devices, electronics, and industrial manufacturing.
Authentic simulation:
Replicating the repeated stretching and deformation of vulcanized rubber in real-world applications.
Adjustable test conditions:
Allows for adjustment of various testing conditions, including stroke, frequency, and number of cycles.
Characteristics evaluation:
Helps manufacturers determine rubber characteristics under repeated stretching, such as fatigue resistance, flaws development, and crack growth.
Time and cost efficiency:
The automatic operation and efficient testing process enhance work efficiency, resulting in time and cost savings.
Standard conformity:
Ensures that products meet industry standards and satisfy quality expectations in the market.
-
Features
High-temp simulation
Simulates how vulcanized rubber materials behave at high temperatures during real-world applications, providing reliable evaluation.
Multi-station design
Allows multiple specimens to be tested simultaneously, enhancing test efficiency without interference.
Touchscreen interface
The intuitive and user-friendly touchscreen interface allows operators to easily set parameters and control the tester.
-
Specifications 左右滑動看表格
Temp. range Ambient temp. to 250℃ Specimen capacity 16 Stroke 10mm to 60mm (adjustable) Control system HMI+PLC Grip structure Dual-sided grip mechanism Test speed 60 to 300 cpm Counter 0 to 99,999,999 (adjustable) Exterior dimensions (approx.) 90 cm ×127cm ×170cm (W×D×H) Power 1∮, AC220V, 50Hz (or specify)
*Product design and specifications are subject to change without notice.
