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A study of introduction for using Laser in dental prosthesis
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¹Ú¸íÈ£ ( Park Myung-Ho ) - ´ë±¸º¸°Ç´ëÇÐ Ä¡±â°ø°ú
ÀÌÈ½Ä ( Lee Hwa-Sik ) - ´ë±¸º¸°Ç´ëÇÐ Ä¡±â°ø°ú
¹èºÀÁø ( Bae Bong-Jin ) - ´ë±¸º¸°Ç´ëÇÐ Ä¡±â°ø°ú
KMID : 0362120080300010131
Abstract
It¡¯s very important to find the most appropriate adhesion technique available, taking into consideration factors such as biocompatibility, non-corrosiveness, mechanical stability, etc. Laser welding is the best choice you can make because from a mechanical viewpoint, a laser welded surface has better particle structure than does a casted particle structure. Furthermore, it requires no additional material and the same metal alloy which is used when casting can be used. Therefore, the resulting mixture will consist of a single alloy, instead of utilizing different alloy combinations. Another benefit is the low economic cost. The most beneficial aspects of laser welding is that it is biologicallly friendlly, doesn¡¯t require soldering, can fuse different metal alloys together, and can weld on heat-sensitive spots(E.g. around resin or ceramic). A consistent strong pulse is possible. This technique is capable of welding on master models and creates accurate welds. It is capable of due to its stronger, non-corrosive microscope, which allows 25times magnification during the soldering process. This is possible because of its high stability from the tiny particle structure.
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Laser;Laser welding;Alloy;Pulse;soldering process
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