What Functions Can An Abrasive Water Jet Cutting Machine Be Equipped With?

What Functions Can An Abrasive Water Jet Cutting Machine Be Equipped With?

Abrasive Waterjet are efficient and environmentally friendly cutting equipment, widely used in precision cutting of various materials such as metal, stone, glass, ceramics, composite materials, etc.

I. Core function configuration

1. High-pressure pump system
The high-pressure pump is the core component of the Abrasive Water Jet Cutter.
The common pressure range is 30,000 to 90,000 psi.
The performance of the high-pressure pump directly affects the cutting efficiency and quality.
2. Nozzle and mixing chamber
The nozzle is used to eject high-pressure water flow to form a cutting flow.
The mixing chamber mixes abrasives (such as garnet) with the water flow to enhance the cutting ability.
The material of the nozzle is usually made of wear-resistant materials such as tungsten carbide or synthetic sapphire to extend its service life.
3. CNC system (CNC)
The CNC system is used to control the motion trajectory of the cutting head to achieve precise cutting paths.
Modern Waterjet Cutting Machine are often equipped with a 5-axis linkage system, which can perform complex three-dimensional cutting.
In addition, the CNC system also supports CAD/CAM programming, which is convenient for designing and adjusting cutting graphics.
4. Water treatment and circulation system
The water treatment system is used to filter and clean the water source to ensure that the water quality meets the cutting requirements.
The circulation system recycles and reuses the used water to reduce water resource waste.
5. Noise and vibration control device
Noise and vibration may be generated during Water Jet cutting, affecting the operating environment and equipment stability.
Therefore, equipping effective noise and vibration control devices, such as soundproof covers and shock-absorbing brackets, can improve working conditions and extend the service life of the equipment.

II. Optional functions and upgraded configurations Waterjet

1. Automatic feeding system
The automatic feeding system can realize the automatic feeding of raw materials, improve production efficiency and reduce manual intervention.
The system is usually equipped with sensors and drive devices to ensure the stability and accuracy of the feeding process.
2. Underwater cutting module
The underwater cutting module places the cutting process in an underwater environment, reduces the noise and splashes generated during the cutting process, and improves the working environment.
In addition, underwater cutting can also improve cutting quality and reduce heat-affected zones.
3. Laser-assisted positioning system
The laser-assisted positioning system scans the workpiece surface in real time through a laser beam, provides high-precision positioning information, compensates for the unevenness of the workpiece surface, and ensures cutting accuracy.
4. High-pressure cooling system
The high-pressure cooling system is used to cool the cutting area during the cutting process to prevent the material from overheating and deformation, and is particularly suitable for cutting high-temperature sensitive materials.
5. Automatic waste cleaning device
The automatic waste cleaning device can clean the waste generated in real time during the cutting process, keep the working area clean, and prevent the waste from affecting the cutting quality.

III. Applicable industries and applications Waterjet Cutter

Aerospace: used for cutting light alloys, composite materials, etc.
Automobile manufacturing: used for cutting body structural parts, interior parts, etc.
Architectural decoration: used for cutting decorative materials such as stone, glass, and ceramics.
Electronic industry: used for cutting PCB boards, semiconductor materials, etc.
Energy industry: used for cutting oil platforms, wind power generation equipment, etc.

With Waterjet Machine high efficiency, environmental protection, and precision, the sand-added Waterjet Tile Cutting has become an indispensable equipment in modern manufacturing.
Through reasonable configuration and functional upgrades, it can meet the needs of different industries and processes and improve production efficiency and product quality.