Eco-Friendly Rubber Tensile Fatigue Testing Machine For Rubber Industry

Product Description:

Rubber Tensile Fatigue Testing Machine is a specialized piece of equipment designed to evaluate the fatigue resistance of rubber materials and products. It plays a crucial role in the rubber manufacturing industry, research institutions, and quality control departments.

Major Function:

• Precise Force Application

  Capable of applying consistent and adjustable tensile forces to rubber specimens. High-precision load cells ensure that the force magnitude is accurately measured and maintained throughout the testing process, enabling reliable data collection on how the rubber withstands repeated pulling forces.

• Controlled Cyclic Motion

  Generates cyclic stretching and relaxing motions, simulating real-world usage conditions where rubber components are constantly under stress. The frequency and amplitude of these cycles can be finely tuned, allowing for customized testing scenarios tailored to different types of rubber products, from flexible seals to heavy-duty tires.

• Fatigue Life Monitoring

  Continuously tracks the number of cycles a rubber sample endures before failure. This data is essential for determining the fatigue life expectancy of the material, providing clear insights into its durability under repeated tensile stress.

Standard: BS 903-A10: 1999,JIS K6260-1999,JIS K6301,GB/T 13934-2006,CNS 10017-2007,ASTM D813-2007(2014),ISO 132-2017

Company Information:

Dongguan Neide Technology Co. Ltd located in Dongguan, Guangdong province with convenient transportation access. We take immense pride in our journey of excellence as a premier provider of top-quality testing equipment. With our unwavering commitment to innovation, we specialize in crafting cutting-edge environmental test chambers and mechanical test machines.

Our extensive range includes temperature and humidity chambers, thermal shock test chambers, tensile testing machines, and vibration test machines. What sets us apart is our proficiency in creating customized testing equipment tailored to your specific needs.

At the heart of our operations lies a dedication to precision and compliance. Our products are engineered to meet and exceed international standards, such as ISO, ASTM, DIN, EN, GB, BS, JIS, AMSI, UL, TAPPI, AATCC, and IEC.

This ensures that our solutions not only adhere to industry benchmarks but set new standards of excellence. Our services and products find applications across diverse sectors, including R&D institutions, quality inspection establishments, universities, and electronics and communications industries

FAQ:

1. When testing super-soft rubber, how does this machine ensure the uniformity of the applied tensile force? Some of our high-end precision rubber seals are extremely soft, and even the slightest unevenness can affect the data.

Our Rubber Tensile Fatigue Testing Machine is equipped with an adaptive clamping system. For super-soft rubber, the clamps can fine-tune the contact pressure according to the material properties to ensure uniform and stable clamping from the start. At the same time, the loading unit adopts a multi-stage buffer technology, which can finely distribute the tensile force so that the stress is evenly dispersed on the specimen, ensuring the accuracy of the data.

2. For long-term, low-frequency tensile fatigue tests, how is the stability and data accuracy of the equipment maintained? Some rubber products need to run for thousands of hours to simulate actual working conditions.

The key transmission parts of the equipment are made of alloy materials with high wear resistance and low thermal expansion coefficients, reducing wear and deformation during long-term operation. There is an intelligent calibration module built in, which automatically calibrates the force and displacement sensors at preset intervals to correct deviations. In addition, the data storage has a redundant design to prevent accidental data loss during long-term tests, ensuring the stability and accuracy of the entire test.

3. With a variety of specimen sizes, will frequent fixture changes affect the continuity of the test? We have a wide variety of product specifications and need to change fixtures frequently.

We are equipped with a quick-change fixture system. Through standardized interfaces and magnetic suction and snap-fit positioning aids, fixture changes can be completed within 30 seconds without tools. Moreover, the system automatically recognizes the specifications of the new fixture and associates them with the corresponding test parameter ranges, seamlessly connecting to subsequent tests without interrupting the continuity.

4. If there is a sudden power outage, can the data of the ongoing long-term test be recovered? Some tests last for several days, and there is a high risk of power outages.

There are dual guarantees of an uninterruptible power supply (UPS) and real-time data backup mechanisms. The UPS can maintain the operation of key modules of the equipment at the moment of a power outage, ensuring a normal shutdown process and preventing data damage. At the same time, the test data is backed up remotely every few minutes in the background, and the test progress and complete data can be restored with one click after the power is restored.