Ultra-Precision Laser Cutting for Clean Energy, Aerospace & Fuel Cell Systems
Delivering accuracy and fine finishes with cutting-edge laser technology.
What Is Laser Cutting ?
Laser cutting is a high-precision subtractive process where a focused laser beam melts or vaporizes material along programmed paths, ideal for complex geometries and tight tolerances.
Our Laser Cutting Capabilities
Advantages of Laser Cutting
- Unmatched accuracy for complex and intricate designs
- Minimal finishing due to smooth, clean edges
- Works on a wide variety of materials, including steel, stainless steel, aluminum, and non-metals
- Faster turnaround times compared to traditional cutting methods
- Efficient nesting reduces material waste and cost
Types Of Laser Cutting
Thin-Gauge Precision Cutting
Ideal for electronics or intricate internal components
Thick Structural Plates
Optimized for strength-critical frames or mounting applications
Micro Features & Fine Detail
Complex, interlocking shapes with clean edges
High-Volume Production Runs
Repeatability and consistency across large batches
How Laser Cutting Works ?
Digital Design Setup
Parts begin with a CAD model that defines the exact cutting path.
Laser Beam Generation
A powerful fiber or CO₂ laser is concentrated into a fine beam.
Precision Cutting
The focused laser melts or vaporizes material, assisted by gases such as oxygen or nitrogen for optimal edge quality.
Part Removal
Finished components are separated with clean, burr-free edges requiring little to no finishing.
Materials We Work With
Aluminum is a lightweight and highly versatile material that is widely used in various industries. It offers a unique combination of properties including high strength-to-weight ratio, excellent corrosion resistance, malleability, and good thermal and electrical conductivity. These characteristics make aluminum an ideal choice for applications where weight reduction, durability, and efficient heat transfer are important factors, like engine blocks, heat exchangers, and other transportation components.
Offers a wide range of steel options to meet the demands of various applications. Alloy and carbon steel are particularly useful for creating fixtures, mounting plates, draft shafts, axles, torsion bars, gears, bolts, studs, shafts, and structural components. High-quality steel materials provide excellent strength and durability, making them ideal for demanding industrial applications.
Carbon steel is a type of steel alloy primarily made from iron and carbon, where carbon is the main alloying element. It does not contain significant amounts of other elements like chromium, nickel, or molybdenum that are found in other types of steel such as stainless steel.
Specialty alloys (also spelled specialty alloys or special alloys) are metal alloys that are engineered for specific properties or applications that go beyond what common metals or standard alloys (like plain carbon steel or basic aluminum) can offer.
Industries We Serve
Clean Energy & Hydrogen Systems
Fuel cell parts, brackets, housing, and flow channels
Aerospace & Defense
Lightweight components for structural assemblies
Transportation & Automotive
Custom parts for EV systems and mobility platforms
Industrial & Electronics
Enclosures, panels, and machine interface components