Laser Assisted Machining Of Ceramics

Therefore some new machining processes such ultrasonic grinding and laser assisted grinding lag have been developed in order to increase material removal rates prolong the tool service life and enhance the surface integrity of the workpiece.

Laser assisted machining of ceramics.

On line measurements of cutting force and workpiece temperature are performed and tool wear and surface integrity are examined. Ceramics our engineers and staff have worked extensively with ceramic materials with amazing results. In lam a laser provides intense localized heating to the workpiece ahead of the cutting region see right. The laser beam heats and softens not melts the ceramic material at the surface just prior the cutting action.

Laser assisted machining lam is a method capable of increasing the machinability of hard to cut materials by decreasing the values of the cutting forces and extending the tool life. Laser assisted machining lam is the method of machining ceramics using a laser beam directed to the workpiece area located directly in front of the conventional cutting tool. Laser assisted machining uses a focused laser beam to heat local areas of the workpiece and remove softened material from the ductile region leaving high quality and crack free surfaces. Laser assisted machining lam of silicon nitride si 3 n 4 is evaluated for its potential to become an economically viable process in fabricating precision ceramic parts.

Laser assisted machining lam has begun to emerge as a viable industrial option for machining of difficult to machine materials. By lowering the material strength in the cutting area at a certain elevated temperature lam can achieve lower cutting force slower tool wear progression. Easy machining of hard materials is a cnc lathe integrated with fiber lasers to increase the materi. The present study focuses on the evaluation of the laser assisted machining lam of pressureless sintered mullite ceramics.

Laser assisted machining of ceramics. Three types of structural ceramics have been used for lam. Silicon nitride si3n4 partially stabilized zirconia zro2 and mullite 65 alumina and 35 sio2. Using state of the art laser systems we have developed processes that allow us to machine precise features without cosmetic defects such as microcracks or heat affected zones.

Due to mullite s low thermal diffusivity and tensile strength a new method for applying laser power is devised to eliminate cracking and fracture of the workpiece during laser heating. In lag the workpiece was locally heated by laser prior to material removal by grinding wheel. Laser assisted machining of ceramics.