Oak Ridge National Laboratory and Impossible Objects announced that they have conducted a collaborative research and development agreement based on Impossible Objects '(CBAM) composite additive manufacturing technology. Impossible Objects' process is similar to FDM, however, in direct connection with FDM Stacked on an empty print bed, the technique is printed on a fibreboard. Through this printing process, the machine stacks specific layers of material and fuses them together using a built-in heat source. Finally, a technician removes the unwanted material and the printing process is complete. Impossible Objects is able to use higher-strength materials for 3D printing technologies such as carbon fiber, Kevlar and fiberglass compared to common 3D printers that currently only print thermoplastics. Parts after printing are 2 times to 10 times stronger than parts printed using traditional thermoplastic 3D. Thanks to its unique composite construction, users can also customize it for a variety of applications, including thermal and chemical etching. The project will focus on equipment at ORNL's Oak Ridge National Laboratory, focusing first on the suitability of composite molds produced by CBAM technology and then testing other large components such as automotive body panels. Impossible Objects believes CBAM technology is becoming a mainstream manufacturing process. Impossible Objects already has customers purchasing components made by CBAM Technology. This collaboration, combined with the depth and breadth of research in the Composites through the Oak Ridge National Laboratory research team and its expertise in carbon fiber additive manufacturing, will bring new excitement to Impossible Objects' technology and businesses. Oak Ridge National Laboratory, a large national laboratory owned by the U.S. Department of Energy, was established in 1943 and was originally built as part of the Manhattan Project in the United States to primarily produce and separate uranium and plutonium. Formerly known as Clinton Laboratory. After April 2000 by the University of Tennessee and Battelle Memorial Institute jointly managed. Their mission is to tackle the most serious scientific problem facing the United States nowadays and to develop new technologies to create a better life for mankind and protect mankind.
Wood texture PET Sheet uses PET as the substrate, and its surface is specially treated to form a texture effect resembling wood grain. Wood texture PET sheet has the following characteristics:
1. Good decorative effect: Wood texture PET sheet can simulate real wood texture, making it widely used in the field of decoration. Not only can it be used for interior decoration such as furniture, flooring, doors and windows, but it can also be used in fields such as automotive interiors and electronic product casings.
2. Strong durability: Due to the use of PET as the substrate, wood texture PET sheet has high wear resistance and weather resistance, which can maintain a good appearance effect for a long time and is not easy to fade and deform.
3. Easy installation: Wood texture PET Film can be installed by pasting, without the need for complex construction processes, saving time and cost.
4. Good environmental friendliness: Wood texture PET sheet does not contain harmful substances and meets environmental requirements. It does not produce toxic gases during use and is harmless to human health and the environment.
Overall, wood texture PET sheet is a decorative material with good decorative effects, strong durability, convenient installation, and good environmental friendliness, widely used in various indoor and outdoor decoration fields.
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