Waterjet Cutting Service | Custom Waterjet Cutting

Our High Quality Waterjet Cutting Service

Controlled by CNC (Computer Numerical Control) systems, our waterjet cutting uses extremely high-pressure water mixed with an abrasive substance to cut through materials of various thicknesses for prototypes, one-offs, and broader industrial applications.

Traditionally, waterjet cutting has been viewed as a slow and costly process. However, our automated waterjet process, coupled with our extensive experience, enables us to provide quick, efficient, and cost-effective waterjet services for businesses.

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Advantages of Waterjet Cutting

Saving time and money on your project is just the beginning. Compared to laser cutting, waterjet cutting services are the ideal solution for unusual and thick materials that require quality edges. It's one of the most popular methods for cutting raw materials, and for good reason:

High Precision

Superior Edge Quality

No Heat Affected Zone (HAZ)

Material Versatility

CNC waterjet cutters easily switch from pure water to abrasive cutting and can cut virtually any material. For instance, they effectively handle materials that are reflective, heat-sensitive, or non-conductive—often unsuitable for laser or plasma cutting.

Cost-Effectiveness

Safe and Sustainable

Waterjet Cutting Design Guidelines

Maximize the quality and efficiency of your waterjet cut parts by following our recommended design guidelines:

Minimum Feature Size

Tolerances

Material Thickness

While waterjet cutting is optimal for materials up to 6" (152mm) in thickness, cutting thicker materials may increase cut times and potentially result in wider kerf widths.

Kerf Width

Corner Radii

File Formats

Level up Your Waterjet Cut Parts

In addition to using waterjet cutting to shape metals and plastics of various thicknesses, waterjet cutting is also the ideal method for processing composite materials such as Carbon Fiber and G10/FR-4. Moreover, we offer a variety of finishing options to enhance the appearance and functionality of your parts. If you need custom materials or finishes not listed here, please contact us.

Metal Waterjet Cutting
Non-Metal Waterjet Cutting
Surface Finishes

Aluminum
Excellent strength-to-weight ratio & corrosion-resistant.
Stainless Steel
Superior corrosion resistance & highly durable.
Carbon Steel
Great strength and durability & widely used in construction.
Brass
Great strength ,durability & widely used in construction.
Copper
Outstanding electrical conductivity & preferred for electrical uses.
Titanium
Strong, lightweight, and corrosion-resistant & ideal for aerospace and medical.
Nickel Alloy
Excellent corrosion resistance and high-temp stability & suited for extreme environments.

Mechanical plastics
Includes ABS, Nylon, Polycarbonate, PEEK, and more.
Arclic
Also known as Plexiglas, it is clear, durable, and resistant to UV light and weathering.
Carbon Fiber
Lightweight, incredibly strong.
G10/FR-4
The go-to material for electronic parts & marine applications.
LE Phenolic
Commonly used for countertops, terminal bases, and propeller blades.

Anodizing
Increases corrosion and wear resistance on aluminum laser cut parts, enhancing surface hardness and offering a variety of color options.
Bead Blasting
Achieves a uniform matte finish free of machining marks or imperfections, often a preparatory step before other surface treatments.
Powder Coating
Adds a uniform, durable layer of color to metals, available in many shades for a long-lasting finish.
Electroplating
Provides functional, decorative, or anti-corrosive finishes, with chrome-plating for auto parts being a common use.
Polishing
Produces a glossy surface that improves visual appeal and minimizes light scattering.
Brushing
Creates a textured, non-reflective finish that masks fingerprints or light scratches.

Gallery of Waterjet Cut Parts

Here are some waterjet cutting projects we have worked for our customers.

Why Waterjet Cutting with Chiggo

Rapid Turnaround
Waterjet cutting is computer-controlled, resulting in a high degree of automation. Additionally, our comprehensive management systems, including CRM and ERP, streamline processes, ensuring smoother operations and on-time delivery of your orders.
Assured High Quality
Our factory is ISO 9001:2015 certified and has over a decade of experience. We maintain a well-established quality management system and a culture of continuous improvement, ensuring traceability from raw materials to delivery. Not satisfied with your parts? We offer a 30-day guarantee for refunds or replacements.
Competitive Pricing
All cutting operations are done in-house, which means no middleman costs and thus the best prices for you. Our advanced nesting capabilities ensure minimal material waste, making large-scale production more cost-effective.
Professional Support
Our knowledgeable team is always ready to provide you with expert advice and assist in optimizing your designs for manufacturing. We aim for a win-win partnership, ensuring you get the best results.

Rapid Turnaround
Assured High Quality
Competitive Pricing
Professional Support

How to Choose the Right Cutting Method for Your Project

We offer various cutting methods for your different project . To help you select the method that best fits your requirements, we provide a direct comparison between waterjet cutting and other cutting techniques.

Attribute	Water jet Cutting	Laser Cutting	Plasma Cutting
Materials	Almost all materials including metals, stone, ceramics, composites	Metals, plastics, some composites	Metals, particularly conductive types
Max Material Thickness	Up to 8''(203mm) m for metals, more for softer materials	Up to 1'' (25mm)for metals, less for reflective materials	Up to 2''(50mm) for most metals
Material Stress	Minimal, no heat-affected zone	Can cause thermal stress, HAZ	Significant thermal stress, HAZ
Cost	High, due to operational costs	Moderate to high, varies with material and thickness	Lower, especially for thick metals
Cutting Waste	Minimal, mostly water and garnet operational costs	Moderate, includes fumes and particulate matter	Moderate to high, includes fumes and slag
Need for Secondary Finishing	Low, often produces a smooth edge	Variable; may require cleaning or deburring based on material	High, often requires grinding or deburring
Shape	Capable of cutting complex 2D and 3D shapes	Best for 2D shapes; limited 3D capability	Primarily 2D shapes; not suitable for complex 3D shapes
Precision	High precision, especially with fine abrasives	Extremely high precision, best for detailed work	Lower precision compared to waterjet and laser
Cutting Speed	Generally slower than laser and plasma	Fast, especially for thin materials	Fast for most metals, especially thinner materials

This table is meant to serve as a general guideline, specifics can vary widely depending on the exact machinery , technology used, and material being cut.

Applications of Waterjet Cutting

Waterjet cutting offers extensive versatility in terms of material types and thickness compared to other cutting methods, making it invaluable across numerous industries.

Stage Application
Industry Application

Blank Preparation
Rapid Prototyping
End-Use Production

Aerospace
Construction and Architecture
Electronics
Automotive
Medical