A typical CNC machine tool usually uses emulsified coolant, which consists of a small amount of oil emulsified into a larger amount of water through the use of a detergent. Synthetic coolants originated in the late 1950s and are usually water-based.
Coolants are an instrumental part of machining, including grinding, milling, and turning. They help extend tool life and provide an improved surface finish of the parts being machined. Understanding the role and types of coolant help you select a coolant that is the right fit for your machine and operation. By properly maintaining the concentration levels of your coolant, you extend not only the life of the coolant but also your tools and machine.
The type of machining and materials machined determine the type of coolant to use as well as what the balance of cooling and lubrication is needed. By altering the mixing ratio or concentration of the coolant, you get a different balance of cooling and lubrication. A leaner mix provides you better cooling while a more concentrated blend gives you more lubrication.
Coolants are grouped into four main categories and have a variety of different formulations. Selecting coolant should be based on the overall performance it provides centered around your machining application and materials used.
Soluble Oils: The most common of all water-soluble cutting fluids and a great option for general purpose machining. The drawback is that they are prone to microbiological growth of fungus and bacteria if the coolant sump is not correctly maintained.
Synthetic Fluids: These types of fluids tend to be the cleanest of all cutting fluids because they contain no mineral oil and reject tramp oil. However, they provide the least lubrication.
Semi-synthetic Fluids: Considered to be the best of both worlds, they have less oil than emulsion-based fluids, a less stinky smell, and retain much of the same lubricating attributes. This makes them usable for a broader range of machining.
Straight Oils: These are not water-miscible and have a composition of a mineral or petroleum oil base and contain lubricants like vegetable oils, fats, and esters. They provide the best lubrication but have the poorest cooling characteristics.
During the machining process, the coolant mixture floods over the work area. This process also washes chips and particles away from the work area. Coolant collects in a sump at the bottom of the machine. The coolant is pumped out of the sump and recirculated to the work area.
Both central and single machine coolant systems need to be monitored, maintained, and adjusted. Unfortunately, small coolant systems tend to use less effective equipment for filtration and oil separation in comparison to central systems. Small systems are also susceptible to more rapid changes and greater fluctuations in concretion levels. Therefore, the coolant used in small systems needs to be more tolerant of contamination from metal shavings, tramp oils, and other materials. Not only does the coolant type play a role in extending the life of your coolant, but proper coolant management becomes even more critical.
Cutting oils designed for general purpose machining and grinding operations of ferrous and non-ferrous metals (including aluminum). Synthetic cutting oil is environment friendly, as it does not contain chlorine, nitrite, heavy metals and phenol.
SYNTH CUTTING OIL is premium quality semi synthetic cutting oil for machining and grinding of ferrous and non – ferrous metal and alloys. It forms a translucent emulsion to provide a clear view of work piece and tools with extended tool life and improved finish of work piece.