A German wearable equipment company plans to set up a research and development center in China to conduct research and development and commercial promotion of wearable equipment. Its research and development center continued to purchase a batch of whisker carbon nanotubes for product research, and found us through the official website of Henan KELAIWEI Nano Carbon Material Co., Ltd. We introduced our product characteristics in detail, performance parameters and other data, and further answered the customer's introduction to the development and strength of our company. At present, the preliminary cooperation intention has been reached.
The price of single-arm and single-wall carbon nanotubes, especially in the special period, we need to strive more. In April, our company held a symposium to consolidate the promotion year. The sales directors and advanced sales representatives of each center communicated and learned with each other, and everyone spoke freely, analyzed the current product sales situation, problems and solutions, and the chairman of the board fully affirmed everyone's work achievements, at the same time, we also encourage everyone to learn from first-class enterprises such as Huawei and Alibaba, and do a good job in our annual sales in 2020.
The price of single-arm and single-wall carbon nanotubes, carbon-based nanomaterials is an important business of KELAIWEI company. KELAIWEI Nano Carbon Material Co., Ltd. Established the production base of Dengfeng city in Henan province and the production research and development base of KELAIWEI in Jiangxi province to provide high quality whisker carbon nanotube powder for major customers at home and abroad, A series of high-end and high-quality carbon-based nanomaterials, such as whisker carbon nanotube conductive paste of various specifications. The research on carbon-based nanomaterials technology KELAIWEI company will continuously add investment.
Henan KELAIWEI Nano Carbon Material Co., Ltd., which has invested in the research and development of high-end nano materials for many years, has owned 9 national authorized technology invention patents and 2 international PCT patents, we have completed the enterprise's scientific research target of publishing more than 40 industry papers. In addition, our company has also published two monograph on carbon nanotube industry and has reached cooperation with many domestic universities. Therefore, KELAIWEI company has very strong technical research and development strength.
How to choose carbon fiber heating pipe for industrial tunnel furnace? The traditional stainless steel electric heating tube is often burned off and its use efficiency is low, which is no longer suitable for the efficient application of industrial tunnel furnace. Carbon fiber heating tube can perfectly replace stainless steel heating tube. The carbon fiber heating pipe has high efficiency and can shorten the length of one tenth to 1/5 of the traditional heating furnace, which only needs 50% to 70% of the traditional installed power. It can be said to be twice the result with half the effort.
Henan KELAIWEI Nano Carbon Material Co., Ltd has top nano material research and development teams and advanced manufacturing equipment at home and abroad. Our company is deeply concerned about your concerns and is willing to maintain in-depth cooperation with you to jointly promote the industrial application of high-end nanomaterials. Professor Sun Xiaogang, the core expert team of KELAIWEI, will lead the technical staff of KELAIWEI company to provide you with high-end nanomaterials technology and products.
Carbon nanotube photoelectric sensor memory device is a high-end memory device that has been painstakingly researched and pursued in the scientific and technological field. Henan KELAIWEI Nano Carbon Material Co., Ltd. recently learned that this high-end memory device has been successfully developed by Chinese scientists. Relevant papers on this huge scientific and technological achievement have been published in Advanced Materials. This technical achievement also indicates that the sensing and storage of optical images can be realized.
