The researchers first sprayed a layer of silicon material on the surface of a layer of silicon material, and then repeatedly stretched them. Finally, the carbon nanotubes were oriented in a "spring-like" orientation. This kind of spring can be stretched in any direction. In this process, the magnitude of the force applied to the material can be measured, and repeated stretching for many times will not cause structural damage. According to reports, this material uses the principle of capacitance and is composed of two parallel conductive plates. When one or two plates are pressed by force, the spacing between the two plates will be reduced, thereby increasing the capacitance of the susceptor. This increase can be quantitatively measured. The two parallel conductive plates are coated with carbon nanotubes. Made of, in the middle also added a layer of silicity to store the charge.
In daily life, we are already very accustomed to the application of touch screens. Now, researchers at Stanford University in the United States are planning to expand this set of technologies and apply them to a wider range of fields. This will affect many consumer products. Technology, robotics, and other areas have far-reaching implications. The team designed a transparent, stretchable susceptor that can be reused without wrinkling and that the sensor will immediately return to its original state after each touch. Scientists hope that this technology can be applied in medicine in the future, such as designing bandages that can adjust tightness, even for making artificial skin, helping patients to recover their sense of touch, or designing tactile robots. Of course, it will be more useful in traditional touch screens and computers.
Thermal Bonded Non Woven Fabric
What is thermal bonded non-woven fabric?
Thermally bonded non-woven fabrics are non-woven materials produced by heating and melting low-melting fibers (polyester, polypropylene, etc.) in an oven during the production process, and then solidifying into a network after cooling. Thermally bonded non-woven fabrics are manufactured on the principle that where two or more fibers intersect, the low-melting fibers can be heated to melt each other, and when the fibers cool, they will be bonded, resulting in fabric strength and properties.
Thermally bonded non-woven fabrics are widely used in snow boot insulation cotton, sofa filling materials, pillow filling materials, quilts and other products, etc.
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