Recently, the British company Tamicare will begin mass production of clothes and smart textiles. It is understood that Tamicare's iconic textile 3D printing technology, called Cosyflex, is a versatile multi-stage 3D printing process that can be easily customized using liquid polymers and textile fibers (which can be selected according to specific needs). This technology is a patent that the company obtained in 2005. After 10 years of hard research and development, the company finally used it to start mass production. Their new production line has an annual capacity of 3 million pieces and is almost no waste.
“Our Cosyflex manufacturing system allows 3D printing technology to be used for mass production for the first time,†said TamarGiloh, CEO and founder of Tamicare. “It can achieve high-density production at a much lower cost than traditional manufacturing processes.â€
At present, Tamicare has signed a million-dollar agreement with several well-known sports brands, and other companies have a strong interest in Cosyflex technology because it can be complicated at once without the need for sewing and cutting processes. Multi-material clothing, even in just a few steps can be made to complete the shoes.
“Make-up sneakers often require hundreds of processes, and Cosyflex only takes 3 steps, and so does other complex designs.†Tamicare’s chief technology officer said, “With it, companies can complete the entire site in the same place. Manufacture without having to build a global supply chain as before."
In addition, Cosyflex integrates smart technology into textiles in new ways. At present, the application of smart materials is mostly woven into the surface of traditional clothing, while Cosyflex can print it together with electronic components such as sensors in the manufacturing process. To further develop the smart application of this technology, Tamicare has conducted joint research with Tim Harper, an expert in medical devices, graphene and smart fabrics.
Implement standard: AHA (American Heart Association) guideline for CPR. Clearly anatomic characteristic, realistic touch feeling and lifelike skin color, vivid appearance. Simulate vital signs. Pupil state: contrast observation of pupils, one is dilated, the other one is contracted. Carotid artery response: simulate carotid artery pulse. Open airway. Can perform artificial breathing and external cardiac compression.
CPR Training Model,CPR Training Manikin,Suture Training Model,System Model Of Training
Xinxiang Vic Science&Education Co.,Ltd. , https://www.hnlaboratoryequipment.com