Machining coolants are in four major categories with their respective formulations. However, it would help to choose a coolant based on its efficiency and comprehensive performance, considering the material and machining process involved. Below are the common types of machine coolant.

Synthetic Fluids

These coolants are the cleanest because they do not contain petroleum or mineral oil. Synthetic fluids comprise rust inhibitors and chemical lubricants that break down in water. These fluids are mixed with water to produce a metalworking fluid. Therefore, these CNC coolants possess high cooling capacity, corrosion prevention, easy maintenance, and lubricity.

Moreover, synthetic fluids are primarily employed in high-heat, high-velocity machining processes like surface grinding because of their excellent cooling capacity. Heavy-duty synthetic fluids are ideal for handling several machining operations.

Synthetics are categorized as simple and complex or emulsifiable synthetics depending on their composition. Simple synthetics or true solutions are commonly used for light-duty grinding. On the other hand, complex synthetic concentrates contain synthetic fluids suitable for moderate to heavy-duty machining procedures. More importantly, complex synthetic lubricants allow high speeds and feed in machining operations.

Pros

• Synthetic fluids exhibit high microbial control and excellent resistance to rancidity.
• These lubricants provide excellent resistance to corrosion and high cooling capability.
• They offer greater stability after mixing with water.
• Synthetics allow easy maintenance because they are clean and suitable for various machining operations.

Cons

• Machine fluids, such as lubricating oils, can contaminate synthetic fluids easily. Hence, you have to manage and maintain these fluids effectively.
• Synthetics generate fine mists or foam due to moderate to high agitation conditions, even though they are less vulnerable to issues related to oil-based fluids.

Semi-Synthetic Fluids

Semi-synthetics are a hybrid of synthetics (polymer) and soluble oils. These fluids contain about 2-30% of mineral or petroleum oil in a water-dilatable concentration. The remaining percentage of a semi-synthetic fluid consists of water and emulsifiers. Other elements in the concentrate include biocide additives, wetting agents, and corrosion inhibitors. They are commonly referred to as performed chemical emulsions because water is its primary ingredient and emulsifies with water during the concentrate’s production.

These semi-synthetic fluids are usually translucent. However, their properties can vary from slightly translucent to opaque. Additionally, many of these semi-synthetics have good heat sensitivity. Hence, semi-synthetic oil molecules surround the cutting tool, ensuring better lubricity.

Pros

• They are excellent lubricants for moderate to heavy-duty applications.
• Semi-synthetic fluids allow cutting at faster feed rates and higher speeds due to their remarkable wetting and cooling properties.
• These fluids possess low viscosity, allowing better settling and cleaning properties.

Cons

• Water hardness impairs the stability of semi-synthetic fluids causing hard water scum deposits.
• These fluids foam easily because their cleaning additives provide less lubrication than soluble oils.

Straight Oil

These oils are obtained from petroleum, mineral oil, animal, and other elements like compounds, vegetables, and fats. These straight oils sometimes contain other ingredients, such as phosphorus, sulfur, and chlorine additives. Straight oils are usually insoluble in water and provide the best lubrication, rust prevention, better sump life, and easy maintenance.

Since bacteria will only thrive in fluids with water content, straight oils do not sour. These oils lessen the force produced as the cutting tool cuts the material, making clean cuts to ensure a smooth surface finish on the workpiece.

Pros

• Straight oil offers good lubricity and reduces friction in machining operations.
• They ensure excellent finishes and minimize tool wear and tear.
• These oils are often affordable and have high compatibility with several materials like bronze, steel, and iron, commonly used in machinery and equipment.

Cons

• Straight oils have poor cooling performance.
• They usually require higher maintenance and oil changes due to their high degradation properties.
• These oils are not ideal for specific high-performance applications.
• Straight oils exhibit adverse environmental impact if not properly disposed of.

Soluble Oils

Soluble oils, also known as emulsions or water-soluble oils, are excellent coolant choices for general machining purposes and are commonly used amongst water-soluble cutting fluids. Water-soluble oils often create emulsions when mixed with water. The result of the mixture comprises the base mineral oil and the emulsion to create metalworking fluid. It performs well in diluted form and offers excellent lubricity and heat transfer performance.

Soluble oils are cheap and commonly used in the metalworking industry. They comprise 60-90% petroleum, emulsifiers, or mineral oil and adhere to the workpiece during machining. It is ideal for lubrication and offers excellent rust resistance when mixed with a specific amount of rust inhibitor.

Pros

• These oils facilitate better cooling and lubrication because of the water and oil blend.
• Soluble oils are multipurpose and are ideal for light and medium-duty operations, including various ferrous and nonferrous applications.
• You may accompany operations such as tapping and broaching handled with straight oils using heavy-duty soluble oils.

Cons

• The coolant tank encourages microbial growth of bacteria and fungi when improperly maintained.
• Oil in the mixture results in rust control problems, evaporation losses, and tramp oil contamination.