Rubber static stiffness testing machineAdopting a double column frame structure, the upper pressure plate is installed on the upper fixed crossbeam, and the lower pressure plate loads the sample upwards under the action of the driving screw. The AC servo control and transmission system are installed at the lower part of the host. The testing machine adopts an imported AC servo speed control system, which controls high-precision and high-frequency AC servo motors, drives precision ball screw pairs for loading, and can achieve large-scale adjustment of testing speed. The testing process is smooth and efficient. The rubber static stiffness testing machine adopts a dual control mode of LCD controller or computer, and conducts tests according to home standards. It completes the setting of test parameters, control of the test process, data acquisition, processing, analysis and display, and then outputs and prints various required test curves and test reports. It can achieve storage, printing and networking functions, which is intelligent and flexible.

Mainly used for testing and analyzing the static stiffness and mechanical properties of rubber materials, it can automatically obtain test parameters such as static stiffness, and can conduct tests and provide data according to international standards such as GB, ISO, DIN, ASTM, JIS, etc. The microcomputer control system software is based on the WINDOWS operating system platform and has the characteristics of fast running speed, user-friendly interface, and simple operation, which can meet the testing and measurement needs of different materials. The measurement and control software can expand its functions according to user requirements. The measurement and control software can expand its functions according to user requirements. Widely used in automotive parts, petrochemicals, machinery, plastics and rubber, adhesives, ceramic building materials, related materials, as well as higher education institutions, research institutions, technical supervision, quality inspection stations and other departments.

Advantages:

1. The measurement range of experimental force is wider, more accurate, and more stable: using AC servo motor combined with ball screw control, coupled with high-precision load sensor for force measurement, the measurement range of experimental force is wider, more accurate, and more stable. Low noise during the experimental process: The noise of the AC servo motor is significantly lower than the working noise of the hydraulic pump.

2. The control process is less affected by temperature and has more stable performance.

3. No pollution caused by hydraulic oil running, leaking, dripping, or leaking (this product is electronic). There is no problem with the servo valve being contaminated and stopping working. The power and transmission system is more compact, the structure is simpler and clearer, and the reliability is greatly improved. Long term use with high reliability and maintenance free (without the hassle of replacing hydraulic oil).