Why Water Jet?
Why Water Jet? Because Water Jet Cutting enables you to design and cut an endless amount of materials in ways you never thought would be possible, and that are simply not possible by other forms of cutting.
Abrasive Water Jet Cutting for materials such as:
- Aluminium, Brass, Bronze, Carbon Steel, Copper,
- Stainless Steel,
- Nickel Alloys,
- Titanium
- Carbon Fibre, Ceramics, Granite, Glass, Laminates
- Marble, Glass reinforced plastics, Plastics
Water Jet Cutting For:
Soft Materials
Foamed rubber and plastics, Elastomers, Rubber and Rubber bonded materials, Synthetic fibre materials.
Waterjet Cutting maintains material integrity, eliminates material distortion or degredation such as burning, crushing, chipping and fracturing that occurs with other cutting methods such as laser or die cutting.
Waterjet Cutting saves on tooling expenses and reduces the need for tooling and post-machining work as part edges are beautifully smooth and finished.
Why WaterJet:
NO heat generated structural changes - Cold cutting process
Virtually burr-free cut edges - Reduced finishing
NO material discolouration
NO toxic or fume discharge
Close nesting of parts giving economical conversion of high value materials.
Mounting Alignment Comparison
Below is information regarding a mounting alignment comparison between the H20 JET and the current industry standard...
1. The H20 JET Diamond Orifice is virtually indestructable and never needs replacing. H20 Jet is the only company in the industry that guarantees orifice life.
2. The H20 JET Diamond Orifice is integrated into the cutting head so there is 0% chance of mis-alignment, This means maximum accuracy and cutting effectiveness.
3. The H20 JET Integral Diamond Educator has no orifice mount. This eliminates the need to change blown-out orifices, and results in faster cutting, longer mixing tube life and superioir edge quality.
1. Sapphire and Ruby orifices demand repetitive replacement and create inopportune downtime leading to higher cost and lower productivity.
2. Sapphire or Ruby orifice assemblies are seperate from the cutting head causing misalignment and decreased accuracy and effectiveness.
3. Other industry-standard products require a seperate orifice mount that needs constant