- Designed for rubber resilience testing, the sample forming machine strikes and tamps rubber specimens with a prescribed mass at a specified height.
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Principle
Designed for rubber resilience testing, the sample forming machine strikes and tamps rubber specimens with a prescribed mass at a specified height.
Wide adaptability:
Features quick specimen positioning, rapid tamping, and the ability of simulating various impact energies, making this tester ideal for a wide range of materials and applications.
Easy operation:
Enables quick installation of the specimen fixture at the point of impact. Ensures effortless operation for continuous impacts on the specimen through eccentric wheel mechanism.
High efficiency:
Allows quick lifting and positioning of the hammer via pneumatic-driven components, ensuring a reliable and smooth testing process.
Rubber material testing:
Supports resilience testing of various rubber materials, determining their elastic recovery and durability for applications in tires, sports equipment, and seals.
Material research and development:
Capable of simulating various impact energies to assess material behavior under different conditions, offering valuable insights for material design and improvement.
-
Quick installation
Features easy placement of the specimen fixture at the point of impact, ensuring fast and efficient operation.
Rapid tamping
Equipped with an eccentric-based crank mechanism, enabling quick application of continuous impacts on the specimen surface.
Pneumatic-driven
Utilizes pneumatic components for quick lifting and precise positioning of the hammer, ensuring efficient operation.
Impact energy simulation
Allows for mass adjustment of the hammer to simulate various impact energies, expanding the range of applications.
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左右滑動看表格Hammer 6.5±0.5kg Hammer drop height 55.38mm Dimensions (W×D×H) 21cm×29cm×67cm Weight (approx.) kg 33kg
*Product design and specifications are subject to change without notice.
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Details
Principle
Designed for rubber resilience testing, the sample forming machine strikes and tamps rubber specimens with a prescribed mass at a specified height.
Wide adaptability:
Features quick specimen positioning, rapid tamping, and the ability of simulating various impact energies, making this tester ideal for a wide range of materials and applications.
Easy operation:
Enables quick installation of the specimen fixture at the point of impact. Ensures effortless operation for continuous impacts on the specimen through eccentric wheel mechanism.
High efficiency:
Allows quick lifting and positioning of the hammer via pneumatic-driven components, ensuring a reliable and smooth testing process.
Rubber material testing:
Supports resilience testing of various rubber materials, determining their elastic recovery and durability for applications in tires, sports equipment, and seals.
Material research and development:
Capable of simulating various impact energies to assess material behavior under different conditions, offering valuable insights for material design and improvement.
-
Features
Quick installation
Features easy placement of the specimen fixture at the point of impact, ensuring fast and efficient operation.
Rapid tamping
Equipped with an eccentric-based crank mechanism, enabling quick application of continuous impacts on the specimen surface.
Pneumatic-driven
Utilizes pneumatic components for quick lifting and precise positioning of the hammer, ensuring efficient operation.
Impact energy simulation
Allows for mass adjustment of the hammer to simulate various impact energies, expanding the range of applications.
-
Specifications 左右滑動看表格
Hammer 6.5±0.5kg Hammer drop height 55.38mm Dimensions (W×D×H) 21cm×29cm×67cm Weight (approx.) kg 33kg
*Product design and specifications are subject to change without notice.
