Wearable technology for the future or for graphene silk
Graphene seems to be an omnipotent material. This new carbon-based material has great potential in various fields, such as battery technology and manufacturing of airships. In fact, graphene may also be the key to achieving breakthroughs in wearable technology in the future. Recently, a research team at Tsinghua University in Beijing used graphene to develop a conductive, more flexible silk. The researchers wrapped the leaves of feeding silkworms into carbon nanotubes and graphene, which increased the degree of peristalsis of silkworms to twice that of silkworms, and thus produced less easily broken silk. The results of this research mean that scientists have found it possible to mix graphene and silk without using chemicals. However, they still need to find the best way to feed silkworms, so that carbon nanotubes can enter the silk to get the best results. It is understood that this more flexible and conductive silk can be used for a series of wearable technologies, such as smart clothing and plant components. In addition, if graphene can be embedded in existing materials, it also means that this technology will become more environmentally friendly. The ceramic bars were subjected to single-side grinding experiments on Alumina Ceramics using diamond abrasives of different particle sizes. The ceramic rod is about 1450 ° C ~ 1600 ° C, the product shrinks sharply, especially between 1450 ° C ~ 1550 ° C, this stage needs to slowly heat up, so that the product has enough time to shrink. The fourth stage: the heat preservation stage, compared with the small size product, the ceramic rod large size product needs a longer holding time, so that the product is fully sintered. The fifth stage: in the cooling stage, due to the creep of alumina in the high temperature stage, the rapid cooling before the creep point will cause stress relaxation of the product. Alumina Ceramic Bar,Alumina Ceramic Guide Rods,Alumina Ceramic Square Bar,Zirconia Ceramic Shaft Dongguan Haikun New Material Co., Ltd. , https://www.hkceram.com