Abstract
Experimental Investigation of Rotary Ultrasonic Face Milling on Float glass and Red granite
Highlights
Nowadays, Glasses are the most used material for building decoration, architecture, optics industries and for some projects because of their superior properties like durability, energy efficiency, acoustic insulation, and high safety [1]
4.1 Result analysis for float glass during Rotary ultrasonic face milling (RUFM) Total 18 experiments were performed after combining all the levels of process parameters
4.2 Effect of process parameters on material removal rate (MRR) and surface roughness (SR) during RUFM on float glass The main effects plot shows that MMR increases with all input parameters
Summary
Glasses are the most used material for building decoration, architecture, optics industries and for some projects because of their superior properties like durability, energy efficiency, acoustic insulation, and high safety [1]. New hard and brittle materials are more challenging to the machine on it for manufacturing engineering [3]. Because of some better results like tool life improvement, precise machining, cost-effective, high range of machining scale force industries to used non-conventional over conventional for the machine on these materials. Brittle fracture due to hammering action of vibration and removal of workpiece grains due to the grinding action of the diamond impregnated tool is the main cause of material removal during RUM. The main mechanism behind material removal during RUM is the hammering, grinding, and erosion action caused by the vibrating machine tool. Various industries and factories are using RUFM for precise and smooth surface machining on hard and brittle materials especially float glass, granites, and ceramics [7]
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