Coolant misting oils are applied by finely spraying exactly where the cutting tool comes in contact with the metal component.

In this way, less oil is used in the cutting process and also produces less oil residual.

Using misting oil not only keeps the working environment clean but also provides a better cutting surface to the operator.

Coolant Misting Oils: Formulated For Best Performance On Every Surface

Coolant misting oils should always be non-aromatic and water-soluble solutions because various amorphous materials such as acrylic and poly-carbonate are prone to cracking under chemical stress from reactive coolants.

At sawblade.com.au, we have produced coolant misting oil that eliminates micro-carbon cracking on cutting tools and also increases the cutting efficiency by washing away the chips from the cutting surface.

The lubricant is projected to the cutting edge via a compressed air stream and forms a thin even coat on the cutting edge, greatly reducing frictional heat.

The lubrication pulse can be adjusted from 3 per second to 1 per minute and the discharge from 0 mm^3 to 41 mm^3 per pulse. An economical and efficient method of lubrication, eliminating the expense and wastage of flood coolant systems.

Coolant Misting Oils

Coolant misting oils are applied by finely spraying exactly where the cutting tool comes in contact with the metal component.

In this way, less oil is used in the cutting process and also produces less oil residual.

Using misting oil not only keeps the working environment clean but also provides a better cutting surface to the operator.

Coolant Misting Oils: Formulated For Best Performance On Every Surface

Coolant misting oils should always be non-aromatic and water-soluble solutions because various amorphous materials such as acrylic and poly-carbonate are prone to cracking under chemical stress from reactive coolants.

At sawblade.com.au, we have produced coolant misting oil that eliminates micro-carbon cracking on cutting tools and also increases the cutting efficiency by washing away the chips from the cutting surface.

The lubricant is projected to the cutting edge via a compressed air stream and forms a thin even coat on the cutting edge, greatly reducing frictional heat.

The lubrication pulse can be adjusted from 3 per second to 1 per minute and the discharge from 0 mm^3 to 41 mm^3 per pulse. An economical and efficient method of lubrication, eliminating the expense and wastage of flood coolant systems.

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Specifications Price Availability Subscription Qty
XDP116 ALU SPRAY MIST - 5 LITRES $89.1 Available
XDP116 ALU SPRAY MIST - 20 LITRES $354.2 Available
XDP116 ALU SPRAY MIST - 205 LITRES $3451.9 Available

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5 Easy Steps to Build Your Own Sawblade

1. Select Material

2. Select the Width

3. Select the Length (mm) (Round up to the Closest Increment)(Round up to the Closest Increment)

3b. Now Enter the Exact Length in (mm) (Made to your Order)

4. Select the TPI (Teeth Per Inch)

The number of teeth per inch (TPI) defines the pitch of the blade and can vary from 1 to 32 tpi.

On some blades there are different pitches on the same blade. You must select the correct tpi for the thickness of material you are cutting. If the corrrect tpi is not chosen the blade life will be dramatically shortened.

The general rule of thumb is: For wood and soft materials aim ffor 3-6 teeth in the work piece.

The number of teeth per inch (TPI) defines the pitch of the blade.

On some blades there are different pitches on the same blade. You must select the correct tpi for the thickness of material you are cutting. If the corrrect tpi is not chosen the blade life will be dramatically shortened.

Please use the following guide to select the correct tooth selection.









5. Select the Quantity of Blades

Order Your Blade

Specifications

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