CV Joint Test System
The CV Joint Test System is an advanced, high-capacity testing solution built to evaluate the durability, performance, and reliability of constant velocity (CV) joints used in automotive driveline systems. Designed for real-world torque and angular articulation testing, this system reproduces both dynamic loads and steering articulation to simulate realistic road stress environments.
Equipped with a servo-hydraulic drive, angle actuators, and an advanced digital control system, this setup can perform both performance characterization and accelerated fatigue tests on CV joints.
The test system can accommodate various CV joint types, including tripod joints and ball-type joints, with customization for other sizes and configurations. The compact and rigid design ensures high precision, repeatability, and long testing cycles under fully programmable loading scenarios.
Key Features of the Simple Column Low Force Test System
- Compact and space-saving design: Designed with a single vertical column, the system fits easily on lab benches or limited spaces without compromising performance.
- Available in multiple low-force capacities: Offered in 1 kN, 5 kN, and 10 kN models to suit a wide range of lightweight testing applications.
- Supports various mechanical test types: Ideal for performing tensile, compression, bending, peeling, and cyclic tests across soft and thin materials.
- Rigid frame for stable and accurate testing: High structural stiffness ensures reliable force delivery and precise measurement during every test cycle.
- Digital closed-loop control system: Equipped with advanced electronics to maintain accurate control over load and displacement throughout the test.
- High-resolution displacement measurement: Measures even the smallest changes in length with up to 0.5 microns resolution, with optional upgrades for finer precision.
- Accurate force readings under all test conditions:Delivers consistent results with ±0.5% accuracy, suitable for quality control and material research.
- User-friendly control interface: Operated via a PC or touchscreen panel for easy navigation, test setup, and real-time monitoring.
- Flexible gripping and fixturing options: Compatible with a wide selection of grips and fixtures to hold different sample shapes and materials securely.
- Automated test control and reporting: Includes software for creating test sequences, capturing data, and generating detailed test reports automatically.
- Built-in safety mechanisms: Safety features such as overload protection, travel limit switches, and an emergency stop button help ensure safe operation.
- Complies with international testing standards: Suitable for conducting tests in accordance with ASTM, ISO, and EN norms, making it versatile for global testing requirements.
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Key Features of the Simple Column Low Force Test System
- Educational and Training Laboratories: Ideal for universities and technical institutes for teaching basic material testing concepts and methods.
- Rubber and Polymer Testing: Used to test properties like tensile strength, elongation, and compression resistance in rubber sheets, seals, and polymer components.
- Plastic and Composite Materials: Measures mechanical performance of lightweight and flexible materials commonly used in packaging, automotive interiors, and consumer goods.
- Textile, Film, and Fabric Testing: Performs peel, puncture, and tension tests on textiles, plastic films, paper products, and soft laminates used in packaging and apparel.
- Wire and Cable Quality Control: Evaluates pull-out strength, elongation, and tensile strength of fine wires and small cable assemblies used in electronics and automotive sectors.
- Foam and Cushioning Materials: Performs compression and indentation tests on low-density materials used in bedding, seating, insulation, and protective packaging.
- Medical and Bioplastic Applications: Validates performance of lightweight medical components such as syringes, tubes, prosthetics, and flexible plastic parts.
- Consumer Product Testing: Tests the mechanical integrity of everyday products such as zippers, straps, buttons, and plastic enclosures.