Professor of Japan’s Yongqiao Technical University has developed a relatively inexpensive high-strength magnesium alloy that is expected to be used in the manufacture of screws. Magnesium alloys are favored by the next generation of lightweight structural materials. The new technology developed by the professor team of Yanqiao Technical University can strengthen the strength of magnesium alloy. It can maintain strength without the need to incorporate high-priced rare earth metals. The price is only one-fifth. It is expected to be used in small drones. , cars, screws, mobile phones. The practice of the professor group is to put the magnesium alloy bar on the market into the mold and then press-process it. In this way, the ultra-fine needle-like structure will be superimposed to increase the strength. The tensile strength used in the trial is up to about 50 kg per square millimeter. The strength is 20% higher than that of the alloy doped with rare earth metals. The university will soon ship a 2 cm diameter bar with Kawamoto Heavy Industries Co., Ltd., and is also planning to develop a bar with a diameter of 5 cm. The price is around 50,000 yen per kilogram, only one-fifth of the rare earth-doped alloy, and the future price target is one-tenth. "
Lathe parts processing refers to the manufacturing process of creating custom metal parts on a lathe machine. Lathe machine is a versatile tool used in various industries including automotive, aerospace, and electronics. Lathe parts processing involves using a lathe machine to cut, shape, and form metal parts according to the required specifications.
The process of lathe parts processing involves several steps. First, the metal material is selected based on the specific requirements of the part to be produced. Once the material is chosen, it is loaded onto the lathe machine, and the cutting process begins. The lathe machine is programmed to move the material towards the cutting tool, which removes material to create the desired shape and dimensions.
Lathe parts processing can produce a wide range of parts in varying shapes and sizes. Lathe machines use a variety of cutting tools, including drills, taps, and reamers, to produce parts according to the required specifications. Additionally, the lathe can produce components with varying levels of complexity, from simple cylindrical shapes to more complex shapes with intricate details.
One of the significant advantages of lathe parts processing is its ability to produce large quantities of parts with high accuracy and consistency. Lathe machines can be programmed to produce the same part repeatedly, ensuring consistency and quality control. This is especially beneficial in industries where a large volume of identical parts is required.
Another advantage of lathe parts processing is its versatility. Lathe machines can be used to produce parts from a variety of materials, including metals, plastics, and composites. Additionally, lathe machines can produce parts with various finishes, such as polished or textured surfaces.
In conclusion, lathe parts processing is an essential manufacturing process in various industries. It offers the ability to produce customized parts with high accuracy and consistency, which is vital in industries where quality and precision are critical. With the ability to produce parts in large quantities, lathe parts processing offers a powerful solution for a wide range of applications.
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