Brake Pads Shear Strength Test Machine

Core Testing Capability & Brand Reliability

Accurately measures the shear force required to separate friction linings from their backing plates—an essential metric for evaluating the bonding integrity of brake pad assemblies.
Developed by Fu Chun Jiang Brake Linings Machines, this test equipment combines advanced precision control technology with intuitive operation, ensuring consistent, accurate and reliable results even during long-term continuous operation.
Serves as a pivotal tool for verifying the structural stability of brake pad bonds, providing robust support for product safety and performance assessment in automotive applications.

Specializes in shear strength testing of friction linings for both brake pads and brake shoes, covering passenger car and commercial vehicle (CV) product lines comprehensively.
Fully complies with major international testing standards, including ISO6312－81, JIS D4422－90 and SAE J840－82, meeting global quality validation requirements for brake pad products.
Fu Chun Jiang Brake Linings Machines adheres strictly to these international benchmarks, making the equipment suitable for R&D and quality control processes across global markets.

Loading Performance: Maximum vertical positive pressure of 5.5 KN with adjustable pointer; shear force capacity reaches 100 KN for passenger car brake pads and 200 KN for CV brake pads, with a maximum loading speed of 6,500±500 N/S.
Specimen Compatibility & Power: Accommodates brake pads up to 160×80×30 mm and brake drums of R160×100 mm; power rating is 1.5 kW for passenger car models and 2.2 kW for CV models.
Physical Dimensions: Overall size of 1,500×800×1,470 mm and a total weight of 1,000 kg.

Ideal for brake pad manufacturers, supporting performance verification during R&D and strict quality control in mass production.
Engineered by Fu Chun Jiang Brake Linings Machines to meet the rigorous testing demands of the automotive braking industry, ensuring stable and consistent performance during long-term continuous operation.