Advanced Manufacturing Processes I( Laser Manufacturing ) Assignment

Advanced Manufacturing Processes I( Laser Manufacturing ) - appellative ExampleThis is in the aim of supporting the dental prosthesis i.e. denture, bridge, crown, or facial prosthesis in addition to acting as an orthodontic anchor (Graf, 2014).Usually made of titanium, these are implanted done the biological process of osseointegration, aiding in the formation of an intimate bond to the bone. In general, such a biomedical implant usually comprises of a alloy base structure, and a deposit (comprising of a first metal and an anti-microbial material) formed onto a metal base structure wherein the formed deposit is not derived by any electro-plating or anodization. Apart from titanium, the metallic dental prostheses are also made of platinum, stainless steel, gold, tantalum and cobalt-chrome amongst otherwise alloys (Pompa, et.al 20151). Typically, implants and dental prostheses consist of a titanium (tooth-root resemblance) screw, having either a smooth or a roughen surface. Nota bly, most of the dental implants used are manufactured using commercially unalloyed titanium that is getable in four different grades.The grades are differentiated by the amount of iron, oxygen, nitrogen and carbon contained. The frigid work toughened CP4, containing maximum impurity levels of 0.50% of Fe (Iron), 0.40% Oxygen, 0.015% Hydrogen, 0.10% Carbon, and 0.05% Nitrogen, is the most widely utilized titanium for dissimilar bio-medical implants. An auxiliary component such as the Grade 5 Titanium (6AL-4V), which is a bit harder than the CP4 contains 4% vanadium alloy and 6% aluminium. It is mainly utilized in the manufacture of abutments and abutment screws that aid in the nidation process, as well as holding the prostheses in place. The importance of Titanium in bio-medical dental prostheses amongst other functionalities is influenced by core characteristics, which make it highly durable (Gu, Meiners,