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Serving New York, New Jersey, and Connecticut

Titanium Waterjet Cutting Long Island

Titanium Cut Right, Without the Heat

When aerospace specs don’t allow for warped edges or compromised material, waterjet cutting delivers. Clean cuts, no heat-affected zones, and the precision your titanium parts demand—right here on Long Island.
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Built for Precision Work

01

No Heat-Affected Zone

Cold cutting process preserves titanium’s strength and corrosion resistance. Your material properties stay intact from edge to edge.

02

Aerospace-Grade Tolerances

We hold ±0.001″ precision on complex cuts. The kind of accuracy defense and aerospace applications actually require.

03

All Titanium Grades

From commercially pure to Ti-6Al-4V alloy, we cut what you need. Thin sheet or thick plate, the process stays consistent.

40+

Years Of Experience

Precision Titanium Cutting Long Island

Why Waterjet Works for Titanium

Titanium fights back against traditional cutting methods. Its low thermal conductivity traps heat at the tool edge, destroying bits and warping material. Laser and plasma create heat-affected zones that weaken the metal and fail aerospace inspections. Waterjet cutting uses high-pressure water mixed with abrasive garnet to erode titanium without generating heat. No thermal distortion. No compromised edges. No tool wear from titanium’s hardness. Just clean, accurate cuts that preserve the material properties you paid for. For manufacturers in Long Island’s aerospace and defense sector, that means parts that pass inspection the first time, less material waste, and faster turnaround on both prototypes and production runs.
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Built for Precision Work

01

Your parts come off the table with clean edges that often need zero secondary finishing.

02

Material properties stay consistent across the entire part—no weak spots from heat-affected zones.

03

Complex geometries and tight radii that would destroy end mills get cut in a single pass.

04

Expensive titanium stock gets nested efficiently, cutting your material waste and cost per part.

05

Thick plate cuts just as cleanly as thin sheet without changing equipment or setup.

06

Parts stay flat and dimensionally accurate because there’s no heat to cause warping or distortion.

Custom Titanium Cutting Service Long Island

From File to Finished Part

The process starts with your CAD file. We accept DXF, DWG, and STEP formats and review the design before programming the cut. That review catches issues like geometry that’s too tight, features that won’t nest efficiently, or dimensions that need clarification. Once the file is ready, we program the waterjet path and set parameters based on your titanium grade and thickness. The high-pressure stream cuts your parts with abrasive garnet, following the programmed path with precision down to thousandths of an inch. No heat builds up. No tools wear down. Just consistent, repeatable cuts. You receive parts with smooth edges, accurate dimensions, and material properties that match the rest of your stock. Whether you’re running a single prototype or a production batch, the quality stays the same. That consistency matters when you’re working with expensive material and tight deadlines.
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Aerospace Titanium Cutting Long Island

Built for Parts That Can't Fail

Aerospace and defense components don’t get second chances. A weakened edge or dimensional variance means scrapped parts and missed deadlines. That’s why waterjet cutting has become the standard for titanium in these industries. The cold cutting process means titanium’s strength-to-weight ratio stays intact. Corrosion resistance doesn’t degrade at cut edges. Fatigue properties remain consistent. When you’re cutting landing gear components, engine mounts, or structural elements, those details matter. Long Island’s aerospace manufacturers know this. The region’s history in aviation—from Grumman to the current defense supply chain—created a concentration of shops that understand precision work. Waterjet cutting fits that standard. We handle the commercially pure grades and the Ti-6Al-4V alloy used in critical applications, delivering the edge quality and tolerances that AS9100-certified work demands.
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Waterjet Cut Titanium Parts Long Island

What You Actually Get

Waterjet cutting solves the problems titanium creates for traditional methods. Here’s what changes when you cut without heat.

01

File Review & Programming

Send your CAD file. We review the design, optimize for material efficiency, and program the waterjet path to your specifications.

03

Quality Check & Delivery

Parts are inspected for dimensional accuracy and edge quality. You get components ready to use, often with no additional finishing required.

02

Precision Waterjet Cutting

High-pressure water and abrasive cut your titanium parts with no heat generation. Material properties stay intact, edges come out clean.

Frequently Asked Questions

Can waterjet cutting handle all grades of titanium?
Yes. Waterjet cutting works across all titanium grades, from commercially pure (Grades 1-4) to common alloys like Ti-6Al-4V (Grade 5). The process doesn’t change based on the grade—you’re not dealing with different tooling or adjusted parameters that affect quality. Whether you’re cutting soft, ductile Grade 2 for corrosion-resistant applications or the harder Grade 5 alloy used in aerospace structural components, the waterjet delivers the same clean edge and dimensional accuracy. The cold cutting process also means you avoid the work-hardening issues that plague traditional machining methods when cutting titanium alloys. Material thickness matters more than grade. We can cut from thin sheet up to several inches of plate, maintaining precision throughout.
The main difference is heat. Laser cutting melts material, creating a heat-affected zone that can alter titanium’s mechanical properties and cause micro-cracking. For aerospace and medical applications where material integrity is critical, that’s often a deal-breaker. Waterjet uses a cold process—no heat-affected zone, no thermal distortion, no change to the material’s strength or corrosion resistance. Laser cutting is faster on thin materials, typically under 10mm, and works well for high-volume production of simple shapes. But it struggles with thicker titanium and can’t match waterjet’s edge quality on heat-sensitive grades. If your parts need to maintain exact material properties or you’re working with plate over half an inch thick, waterjet is the more reliable choice. The trade-off is speed versus quality and material preservation.
We can hold tolerances down to ±0.001″ on titanium parts, which meets the requirements for most aerospace and defense applications. Actual achievable tolerance depends on material thickness, part geometry, and edge quality requirements. Thicker material or very intricate cuts may require slightly wider tolerances, but we’re typically working within ±0.003″ to ±0.004″ even on complex geometries. That’s significantly tighter than plasma cutting, which usually works at ±0.015″ tolerance. The precision comes from the narrow kerf width of the waterjet stream and the CNC control system that guides the cutting head. For parts that need even tighter tolerances on specific features, waterjet cutting can serve as an efficient roughing process, removing bulk material without heat damage, followed by finish machining on critical dimensions.
Most waterjet-cut titanium parts come off the table with clean edges that need minimal or no secondary finishing. The process produces a smooth, slightly frosted edge finish that’s acceptable for many applications as-is. You won’t see the heavy burrs, dross, or heat discoloration that come from plasma or laser cutting. The edge quality depends on cutting speed—slower cuts produce smoother finishes. For applications where you need a polished or deburred edge, the waterjet-cut surface provides a good starting point that requires less finishing work than thermally cut edges. There’s no heat-affected zone to grind away, no hardened layer to remove. The material at the edge has the same properties as the rest of the part, so any finishing you do choose to perform goes faster and more predictably than it would on laser or plasma-cut titanium.
We work with standard CAD formats: DXF, DWG, and STEP files are preferred because they maintain vector precision and layer organization. If you’re working in AutoCAD, SolidWorks, Fusion 360, or similar programs, those formats export cleanly and give us the information we need to program accurate cuts. For best results, clean up your geometry before sending—use continuous polylines for cut paths, remove reference lines and hatches, and organize different parts or thicknesses on separate layers. If you’re working from a hand sketch or don’t have CAD capability, we can often create the file from your dimensions and drawings. The key is clear communication about what you need. We review every file before cutting to verify dimensions, check for potential issues, and optimize the nesting to reduce your material waste.
Waterjet cutting handles titanium from thin foil up to 6 inches or more in thickness. Most common applications fall in the range of 1mm to 50mm (roughly 0.040″ to 2″), which covers sheet and plate stock used in aerospace, medical, and industrial applications. Thicker material takes longer to cut and may require multiple passes or adjusted parameters to maintain edge quality, but the process remains consistent. Unlike laser cutting, which tops out around 10mm on titanium, or traditional machining that becomes increasingly difficult and expensive as thickness increases, waterjet maintains its advantages across the full thickness range. The cold cutting process means even thick plate comes out flat, with no warping or heat distortion. If you’re working with unusually thick stock or have questions about a specific application, we can discuss the best approach for your project.