Fedjet 3-Axis Pure Waterjet Cutting Machine: Precision Cold Cutting for Efficient Production Across Industries
Fedjet 3-axis pure waterjet cutting machine specializes in cold cutting of soft and heat-sensitive materials with no heat-affected zone and no deformation.
Jul 9th,202626 Views
Fedjet 3-Axis Pure Waterjet Cutting Machine: Precision Cold Cutting for Efficient Production Across Industries
1. Equipment Overview
Fedjet 3-axis pure waterjet cutting machine utilizes ultra-high pressure waterjet cold cutting technology, using pure high-pressure water as the cutting medium. It features no heat-affected zone, no sparks, and no material deformation throughout the process. With high precision, high adaptability, and high safety, it has become the preferred solution for cutting soft, heat-sensitive, and special materials, widely meeting the precision processing needs of multiple industries.
2. Cuttable Materials
Pure water cutting relies solely on high-pressure water, suitable for soft, thin, heat-sensitive, and easily deformable materials, mainly including:
Medical devices: Sterile silicone gaskets, medical sponges, catheters, artificial organ components, and biocompatible materials (meets medical-grade cleanliness requirements).
New energy: Lithium battery separators, electrode sheets, insulating gaskets, and photovoltaic component packaging materials (no thermal impact, protecting battery performance).
Other industries: Rubber products, sporting goods (yoga mats, sports protectors), stationery, and food processing (contactless clean cutting).
4. Recommended Cutting Sizes (Standard/Custom)
Standard Travel (Mainstream Selection)
Small workbench: X-axis 1000mm × Y-axis 1000mm (suitable for small-batch, precision small parts such as electronic components and medical gaskets).
Medium workbench: X-axis 1500mm × Y-axis 1200mm / 1500mm (suitable for automotive interiors, packaging sheets, and medium-sized composite materials).
Large workbench: X-axis 2000mm–4000mm × Y-axis 1500mm–2000mm (suitable for large-format sheets and continuous coil cutting such as building insulation materials and industrial filter cloths).
Customized Sizes: Support customized ultra-large travel of X-axis 1.0m–5.0m and Y-axis 1.0m–20m, suitable for continuous processing of coils and ultra-long sheets; Z-axis standard 150mm/200mm, can be expanded to 300mm as needed to adapt to materials of different thicknesses.
5. Frequently Asked Questions (FAQ)
+ What is the core difference between pure water cutting and abrasive water cutting?
Medium difference: Pure water cutting uses only high-pressure water without abrasives; abrasive water cutting adds abrasives such as garnet to cut hard materials (metals, stones, ceramics). Material adaptation: Pure water cutting is dedicated to soft and heat-sensitive materials; abrasive water cutting is suitable for almost all hard/soft materials. Cost and environmental protection: Pure water cutting has no abrasive loss and no dust pollution, with lower operating costs; abrasive cutting requires abrasive consumption and needs supporting dust removal systems.
+ How thick can pure water cutting handle?
Conventional soft material cutting thickness: rubber/sponge ≤ 100mm, plastic sheets ≤ 50mm, paper/films ≤ 20mm; ultra-thin metal foils (< 0.5mm) can be precisely cut, and thick hard materials require abrasive water cutting models.
+ What about cutting accuracy? Is secondary processing required?
Standard accuracy: straightness ± 0.08mm/m, repeat positioning accuracy ± 0.03mm, with smooth and burr-free cutting edges. Most scenarios do not require secondary processing and directly meet assembly requirements.
+ Is the equipment operating cost high?
The core costs are water, electricity, and wearing parts (nozzles, seals) with no abrasive consumption; nozzle life is about 100–200 hours, seals are replaced regularly, and the comprehensive operating cost is much lower than laser and plasma cutting.
+ Can it cut coils or special-shaped parts?
Support continuous coil cutting (with feeding/rewinding system), 3-axis CNC system can precisely cut straight lines, curves, round holes, and special-shaped contours, adapting to complex graphic processing.