What are the characteristics of wear-resistant materials?

Wear-resistant materials are a large class of new materials with special functions in electricity, magnetism, light, sound, heat, force, chemistry, and biology. They are important basic materials for high-tech fields such as information technology, biotechnology, and energy technology and for national defense construction. It also plays an important role in the transformation of certain traditional industries such as agriculture, chemicals, and building materials. The next small series for everyone to introduce what wear-resistant materials and the role of wear-resistant materials.

What are the wear-resistant materials

The first category is high-manganese steel series, which mainly include high-manganese steel, high-manganese steel and ultra-high manganese alloy. Such wear-resistant materials have good toughness and impact resistance, and the greater the impact received by the surface, the higher the resistance The better the grindability.

The second category is wear-resistant chromium cast iron series. This category mainly includes high-, medium- and low-chromium alloy cast iron. Such wear-resistant materials have good high-temperature properties, wear resistance and stability, and also have anti-oxidation properties.

The third category is the wear-resistant alloy steel series. This category mainly includes medium, low and high carbon multi-component steel.

The role of wear-resistant materials

Wear-resistant materials are the core of the new materials field and play an important role in promoting the development of high-tech materials. In the global new materials research field, wear-resistant materials account for about 85%. With the advent of the information society, special wear-resistant materials play an important role in promoting the development of high and new technologies. They are key materials in the high-tech fields such as information, biology, energy, environmental protection, and space in the 21st century, becoming countries in the world. The focus of research and development in the field of new materials is also a hot spot for strategic competition in the high-tech development of various countries in the world.

Wear-resistant material construction

Before the construction, we must first prepare the water-absorbing tools, leveling out the pulping tools, calendering machines, flat-bottomed rubber shoes, and so on. Flattening pulping tools, calendering machines, and flat-bottom rubber shoes are all used to smooth the surface of the construction and make the construction surface even.

After the construction surface is smoothed, the wear-resistant material must be spread in two stages to complete it successfully. The first time the anti-friction material is spread, two-thirds of the total amount is scattered, and after the wear-resistant material absorbs certain moisture, it is used. The calender makes the wear-resistant material flat with the concrete on the ground. Then the second time was to spread the wear-resistant material in order to be able to fill the first unevenness.

After the spreading of the wear-resistant material, the construction can not be considered a real end, because the wear-resistant material under construction is very easy to crack, resulting in many flaws in the project. Therefore, after spreading the wear-resistant material, it is not easy to remove the mold within 24 hours. Therefore, the surface must be covered with a protective layer and then cured by spraying the curing layer. In order to avoid the phenomenon of cracking on the ground, the construction failed.

Editor's summary: The role of wear-resistant materials and the role of wear-resistant materials are introduced here, and we hope to help everyone. If you want to know more related information, you can pay attention to this website information.

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Magnetostrictive Level Sensor

Magnetostrictive level sensor is composed of three parts: probe rod, circuit unit and float. To measure, the circuit unit generates pulses of current that travel down the magnetostrictive line and generate a circular magnetic field. A float is arranged outside the probe rod, and the float moves up and down along the probe rod with the change of liquid level. The float generates a magnetic field at the same time because it is fitted with a set of permanent magnets. When the current magnetic field meets the float magnetic field, it produces a "twisting" or "return" pulse. The time difference between the "return" pulse and the current pulse is converted into pulse signals to calculate the actual position of the float and measure the liquid level.

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