[Scientific and Technological Achievements Professional

Original Title: [Scientific and Technological Achievements Push] Shanghai Academy of Sciences Laser Coaxial Fuse Industrial Metal 3D Printing Technology -Shanghai Academy of Sciences- Project name Laser coaxial fuse Industrial metal 3D printing technology 01 Project background Industrial metal 3D printing technology is an important direction of intelligent manufacturing and additive manufactannular laser beam, then focus the annular laser, thonmental protection than powder metal printing technology; Therefore, our technology and equipment are The first in China It not only fills the gap in the field of additive manufacturing in China, It also improves the ability of printing large metal parts in China. 04 Technology application 1. Print large metal parts, large metal forgings and castings, such as those used in aerospace and other fields with high technical content and accessory value. 2. Repair of large shaft parts, 3d titanium wire , especially the remanufacturing and production process of large shaft parts in power generation equipment. If or, DLP surface light source 3D printer and WLAM principle metal 3D printer. Xia Zhangwen Doctor, female, graduated from the University of Birmingham, UK. During his doctoral studies in the UK, he was awarded by the UK Engineering and Natural Sciences Research Council and Rawls. Royce Company (Rolls-Royce), under the guidance of Professor Paul Bowen, academician of the Royal Academy of Engineering,ti6al4v eli, has been engaged in research in the field of metal 3D printing for many years at Rolls-Royce-University of Birmingham Technology Centre (UTC), and has participated in the "Advanced Science and Technology Research Project" led by the British Engineering and Natural Science Council and Rolls-Royce (with a total investment of 1.2 billion pounds). The application of laser additive manufacturing (3D printing) technology in the production and repair of aero-engine blisks was studied, and the macroscopic and microscopic structures and mechanical properties of nickel-based and titanium-based alloys under laser additive manufacturing were systematically and thoroughly studied. 08 Contact information Return to Sohu to see more Responsible Editor:. yunchtitanium.com