A temperature rubber tensile fatigue tester is designed to determine the fatigue life of rubber samples under various temperature conditions . The machine is operated using an operation manual that guides the user through the process of setting up and conducting a test.
Before using the machine, it’s essential to read the operation manual in its entirety to ensure proper operation and prevent damage to the equipment. The manual will outline the steps required to install and set up the machine. This includes connecting the machine to a power source, ensuring proper cooling and lubrication systems are in place, and setting the testing parameters based on the type of rubber being tested.
Please read the operation manual carefully before installing and using the controller of temperature rubber tensile fatigue tester. This operation manual used for the daily operation parameters. Safety precautions contain important information about safety, so be sure to follow them. The touch screen controller can work normally in general. If you are worried that the fault or abnormality of the controller will cause a major accident or damage other equipment, please set an emergency stop circuit and protection circuit to avoid accidents to prevent accidents.
To avoid controller failure, please provide power supply within the rated voltage range. In order to prevent electric shock or malfunction and malfunction, please do not turn on the power before installation and wiring are completed.
This touch screen controller used for temperature rubber tensile fatigue tester is not explosion-proof. Please do not use it in an environment with flammable or explosive gas. It is absolutely impossible to disassemble, process, modify or repair the controller without authorization, otherwise there will be danger of abnormal operation, electric shock or fire. After turning on the power, please do not touch the power terminal, otherwise there will be danger of electric shock or malfunction. After the power is turned off, the wiring can be disassembled, otherwise there will be danger of electric shock or misoperation.
When connecting the temperature measuring resistor (PT100) input, use 3 wires with equal resistance and less than 10Ω, otherwise it will cause display error or abnormal operation. Before the controller is in operation, it should fully consider the safety before modifying the settings, signal output, start, stop, etc. The wrong operation will damage or malfunction the working equipment and parts. Please use dry cloth to test the controller.
Do not use alcohol, gasoline or other organic solvents. Do not put water on the controller. If the touch screen controller is immersed in water, stop using it immediately, otherwise there is danger of electric leakage, electric shock or fire. When disposing of this touch screen controller, please dispose of it according to industrial waste.
Once the machine is set up, the manual will guide the operator through the process of conducting a test. This involves preparing the rubber sample, placing it in the grips, and initiating the test sequence. The machine will subject the sample to cyclic loading and unloading at a specified frequency and temperature until the sample fails.
Throughout the testing process, the machine will record data such as the number of cycles completed, the load applied, and the temperature. The manual will provide guidance on how to interpret this data and use it to determine the fatigue life of the rubber sample.
It’s essential to follow the instructions outlined in the operation manual precisely to ensure accurate and reproducible test results. Failure to do so can result in damage to the equipment, inaccurate test results, and potential safety hazards.
In conclusion, a temperature rubber tensile fatigue tester is an essential piece of equipment for determining the fatigue life of rubber samples under various temperature conditions . To ensure proper operation and accurate test results, it’s crucial to read and follow the instructions outlined in the operation manual carefully. By doing so, operators can effectively evaluate the durability of rubber materials and make informed decisions about material selection and application.
