Brake Pads Shear Strength Test Machine

Test Capability & Core Value

  • The Brake Pads Shear Strength Test Machine is specialized in quantifying the exact shear force required to separate friction linings from their backing plates—an essential metric for assessing brake pad assembly bonding integrity.
  • Developed by Fu Chun Jiang Brake Pads Making Machines, this equipment combines precision test control with intuitive operation, delivering consistent and trustworthy results for all industrial testing scenarios.
  • Its core function directly supports quality validation, ensuring brake pad assemblies meet the structural demands of automotive braking systems.

Product Applicability & Standard Compliance

  • Tailored specifically for friction lining bonding tests, it accommodates both passenger car and commercial vehicle (CV) brake pad and brake shoe products.
  • The machine fully conforms to key international shear test standards, including ISO6312-81, JIS D4422-90, and SAE J840-82, aligning with global quality assessment protocols.
  • Fu Chun Jiang Brake Pads Making Machines ensures strict adherence to these standards, making the equipment suitable for both R&D and quality control processes.

Key Technical Parameters

  • Loading Performance: Vertical positive pressure maxes out at 5.5 KN (pointer-adjustable); shear force capacity reaches 100 KN for car brake pads and 200 KN for CV brake pads, with a maximum loading speed of 6,500±500 N/S.
  • Specimen & Machine Specs: Accepts brake pads up to 160×80×30 mm and brake drums of R160×100 mm; power rating is 1.5 kW for car-specific models and 2.2 kW for CV-specific models.
  • Physical Dimensions: 1,500×800×1,470 mm overall, with a total weight of 1,000 kg for stable on-site deployment.

Practical Application Scenarios

  • Ideal for brake pad manufacturers, it supports performance verification during the R&D phase and batch quality screening in mass production.
  • Crafted by Fu Chun Jiang Brake Pads Making Machines to meet the rigorous demands of the automotive braking industry, it maintains stable, consistent performance during long-term continuous use.
  • Its design adapts to industrial workflows, streamlining quality control processes for manufacturers of all scales.