Mechanism for segregation of cutting fluid and scrap for industrial application

Abstract

Nowadays, metal removal or machining processes on metallic work pieces are frequently seen to obtain the appropriate surface roughness and dimensional precision. Turning, milling, facing, boring, and other processes could be used. Cutting fluids are designed to help in the material removal process because they have anti-rust qualities to stop the work piece from rusting and because they stop the work tool from overheating in machines like milling, drilling, and lathes, among others. To save operating costs, it is planned that both the material removed during this machining process and the cutting fluid will then be reused. In this article, a segregation method is thus suggested. If the scrap is allowed to flow without separation, it shortens the lifespan of the supporting mechanical equipment since it interferes with the functionality of those parts. Magnetic separation, centrifugal separation, and conveyor belts are the most popular existing technologies used today to separate scrap and fluid, although they are expensive to operate. A mechanism with high efficiency and low cost is thus suggested.