According to reports, a team of scientists from the University of Waterloo in Canada has developed a new sensor prototype based on a small flexible cylinder driven by electromagnetic and frictional forces. The latter design generates current by friction of a particular type of material, and the sensor contains two such materials. Regardless of how the bracket is installed, as long as the sensor is bent or twisted, it generates enough power to support the transmission of wireless signals. These signals can be picked up by computers, smart phones, smart watches, etc., and then analyzed to determine the patient's range of motion and other improvement indicators. Later, the remote doctor or physiotherapist can access the information by ignoring it without the patient frequently going to the clinic to review. It is worth mentioning that this sensor can also be installed inside the tire of a self-driving car, enabling the vehicle to cope with changing road conditions. According to the engineering Ph.D. student Hassan Askari, based on the interaction between the road and the tires, we can actually detect the road conditions such as snow and rain. This is very important information for autonomous driving. Currently, the prototype sensor has a length and width of about 6 x 1 cm (2.4 x 0.4 inches), but scientists are working hard to miniaturize it. Tungsten Chips,Tungsten Carbide Chips,Tungsten Carbide Grits,Tungsten Carbide Fragments Luoyang Golden Egret Geotools Co., Ltd , https://www.hvofpowders.com
Tungsten carbide grits are small particles or granules of tungsten carbide, a compound made up of tungsten and carbon atoms. They are extremely hard and have a high resistance to wear and abrasion, making them useful in a variety of industrial applications.
Tungsten carbide grits are often used as abrasives in cutting tools, grinding wheels, and sandpaper. They can also be used as an additive in metal alloys to improve their hardness and wear resistance. Additionally, tungsten carbide grits are used in the mining and drilling industry for rock drilling and excavation.
These grits are available in different sizes and shapes, such as spherical or irregular particles, depending on the specific application. They are typically produced through a process called sintering, where Tungsten Carbide Powder is heated and compressed to form a solid material.
Overall, tungsten carbide grits are highly valued for their hardness, durability, and resistance to wear, making them essential in various industries where high-performance materials are required.