On August 28th, the signing ceremony for the scientific cooperation of Northwestern Polytechnical University, Airbus (Beijing) Engineering Technology Center Co., Ltd. and Xi'an Platinum Additive Technology Co., Ltd. was held in Xi'an Platinum New District.
It is reported that Airbus and Platinum's "four laser printing aircraft product research and development" research cooperation project will test the ability to print aircraft structural parts using the large-scale laser selection cladding equipment BLT-S500 independently developed by Platinum. Technical solution support for lightweight design and rapid prototyping of large-sized aircraft structural components.
The research cooperation project of "Aircraft high-performance functional gradient material laser additive manufacturing technology research and development" jointly developed by Airbus and Northwestern Polytechnical University will use the laser stereo forming technology developed by Xigong University to develop high-performance titanium-based functionally graded materials for aircraft and Manufacturing technology research and development, in order to improve the mechanical properties and service life of large civil aircraft components under extreme thermal and mechanical load conditions, and lay the foundation for the design and manufacture of such structural components and lightweight structures.
This cooperation signing is a milestone for the additive manufacturing technology in the field of aviation design and manufacturing. The cooperation between the three parties on the additive manufacturing technology and the new aviation materials has truly achieved the "transnational integration of production, learning, research and use". .
According to media reports, after nearly 9 years of research, the Institute of Semiconductors of the Chinese Academy of Sciences and the joint laboratory of Beijing Hangxing Network Technology Co., Ltd. have successfully developed a new generation of semiconductor laser gas sensor domestic chips, and have large-scale mass production conditions, currently Has been made into a laser. The laser gas sensor designed and developed by Future Stars can be widely used in coal gas monitoring, underground pipe corridor gas sensing, urban gas safety protection and fire protection, etc., to help the safety monitoring, early warning, and response measures of high-risk industries to be taken in time.
At present, the countries that master the laser pointer methane gas detection chip manufacturing technology are mainly Canada, the United States, Japan, Norway, etc. The large-scale mass production of methane laser gas sensor chips by Hangxing shares also means that domestically replaced imported chips will be realized. With the increasing awareness of environmental protection and the importance of governments in the prevention and control of air pollution, it has created huge market opportunities for the application of gas sensors. With the rapid development of the Internet of Things, the application of gas sensors in emerging smart homes, wearable devices, smart mobile terminals and other fields has advanced by leaps and bounds, greatly expanding the application space, and the demand has also changed by orders of magnitude.