According to Science News and John Canning who led the research team from the University of Technology in Sydney, “Making silica optical fiber involves the labor-intensive process of spinning tubes on a lathe, which requires the fiber’s core or cores to be precisely centered. With additive manufacturing, there’s no need for the fiber geometry to be centered. This removes one of the greatest limitations in fiber design and greatly reduces the cost of fiber manufacturing.
Additive manufacturing approaches such as 3D printing are well suited to change the entire approach to fiber design and purpose. This could, for example, broaden the applications of fiber optic sensors, which far outperform electronic equivalents in terms of longevity, calibration and maintenance but haven’t been widely deployed due to their expensive fabrication.”
This entry was posted in 3D /4D Printing Medical Technology/Dental/Orthopedics/ Pharmaceuticals/ Implants/ Invisiline/Dentures/ Virtual Reality., 3D and 4D Additive Mechanical Engineering Design/ Wear Testing/ Materials Science/ Custom PC Builds/ Artistic Prints, Creative Projects, Translucent Filaments., 3D Printing Construction Technology/ Real Estate/ Housing/Architecture/ Cultural., 3D Printing/4D Printing /Biotechnology/Robotics., 3D Printing/4D Printing Food., 3D/4D/5D Printing emergence/ Insights/Community Celebrations., Policy. and tagged 3D printing used to make glass optical fiber preform, Gang-Ding Peng's research team, Optical Society (OSA) journal, Science News, Sydney, University of New South Wales.