Can A Laser Engraver Cut Metal?
Laser engravers have become popular tools for makers, small businesses, and industrial workshops. Many people use them to add designs, serial numbers, or logos to different materials. But one question comes up often: Can a laser engraver cut metal? The answer is not simple. It depends on the type of laser, the metal, and the desired results. Let’s break down what’s possible, what’s not, and what you need to know before trying to cut metal with a laser engraver.
How Laser Engravers Work
Laser engravers use focused light beams to mark or cut materials. The laser’s energy heats the surface, causing it to melt, burn, or vaporize. The main types of lasers used are CO2 lasers and fiber lasers.

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Check Price on Amazon As an Amazon Associate I earn from qualifying purchases.- CO2 lasers are common and affordable. They work well on wood, acrylic, leather, and some plastics.
- Fiber lasers use a different technology. They are designed to work with metals and other hard materials.
The power of the laser, measured in watts, greatly affects what it can do. Lower power is good for engraving, while higher power is needed for cutting.
Can All Laser Engravers Cut Metal?
The short answer is no. Most consumer laser engravers cannot cut metal. Here’s why:
| Laser Type | Can Cut Metal? | Typical Power Range |
|---|---|---|
| CO2 Laser | Rarely (only thin, coated metals) | 40–150 W |
| Fiber Laser | Yes (with sufficient power) | 20–4000 W |
| Diode Laser | No | 1–20 W |
CO2 lasers can engrave coated metals or anodized aluminum but usually cannot cut through metal sheets unless they are extremely thin (under 0.5 mm) and with very high power. Fiber lasers are built for metal. They can cut steel, aluminum, brass, and more, but need enough power to do it efficiently. Diode lasers are not suited for cutting metal at all.

What Metals Can Be Cut By Laser Engravers?
Not all metals respond the same way to lasers. Here’s a quick comparison:

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Check Price on Amazon As an Amazon Associate I earn from qualifying purchases.| Metal Type | Cutting Difficulty | Laser Power Needed |
|---|---|---|
| Stainless Steel | Medium | 1000 W+ |
| Aluminum | High (reflective) | 1500 W+ |
| Carbon Steel | Low | 500 W+ |
| Brass/Copper | Very High (very reflective) | 2000 W+ |
Reflective metals like aluminum, brass, and copper are harder to cut. They reflect much of the laser energy, which can damage the machine if not designed for these materials.
Key Factors That Affect Laser Cutting Of Metal
Several factors decide if a laser engraver can cut metal:
- Laser Power: The higher the wattage, the thicker the metal you can cut.
- Wavelength: Fiber lasers (around 1064nm) are better for metal than CO2 lasers (10,600nm).
- Metal Thickness: Most fiber lasers under 1000 W cut up to 2-3 mm steel, but not thicker.
- Cooling Systems: Cutting metal creates heat; industrial lasers use water cooling to prevent overheating.
- Assist Gas: Oxygen or nitrogen is often used to blow away molten metal and improve the cut.
Many beginners miss that laser focus is critical—an out-of-focus laser will not cut well, even with high power.
Common Mistakes When Trying To Cut Metal
Beginners often overestimate what their machine can do. Here are some frequent errors:

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Check Price on Amazon As an Amazon Associate I earn from qualifying purchases.- Using too little power: A 40 W desktop laser will not cut steel or aluminum, no matter how slow you go.
- Ignoring reflectivity: Cutting reflective metals with a regular laser can cause dangerous back-reflection.
- Skipping safety gear: Laser cutting metal produces fumes and bright light—always use proper eye protection and ventilation.
- Neglecting machine specs: Not all “metal-capable” lasers are truly designed for cutting. Some only engrave or mark.
A less obvious mistake is not considering the cut quality. Low-power lasers may eventually cut through thin foil, but the edges will be rough and burnt.
Examples Of Metal Cutting With Laser Engravers
Industrial shops use high-power fiber lasers (1000–6000 W) to cut:
- Up to 20 mm carbon steel
- Up to 12 mm stainless steel
- Up to 8 mm aluminum
Entry-level fiber lasers (100–500 W) can cut thinner sheets, like 1 mm stainless steel or 2 mm mild steel, but much slower. For most hobbyists, metal engraving is possible, but cutting is limited unless you buy a true industrial machine.
One surprising tip: Some makers use a metal marking spray with CO2 lasers to mark steel, but this does not cut the metal—it only leaves a surface mark.

When Is Metal Cutting With A Laser Engraver Worth It?
Laser cutting metal makes sense if you need:
- Clean, precise shapes
- Complex, repeatable designs
- Fast production of small parts
It’s less practical for thick metal, large projects, or one-off cuts where other tools (like a plasma cutter) might be faster and cheaper. For businesses, investing in a proper fiber laser brings long-term value, but for home use, it’s rarely cost-effective.
Choosing The Right Laser Engraver For Metal
If you plan to cut metal, consider these:
- Type: Only fiber lasers are truly effective for cutting most metals.
- Power: For stainless steel, look for at least 1000 W. Lower power limits you to thin sheets.
- Safety: Industrial lasers require special training, exhaust systems, and safety gear.
- Budget: True metal-cutting fiber lasers start around $10,000 and go much higher.
If your needs are light, consider outsourcing metal cutting or using a local makerspace.

Frequently Asked Questions
Can A Co2 Laser Engraver Cut Metal?
A standard CO2 laser engraver can engrave coated metals or anodized aluminum, but it cannot cut most metals. Only very thin, coated sheets might be cut with high-power CO2 lasers, but results are usually poor.
What Is The Minimum Power Needed To Cut Metal With A Laser?
To cut steel or stainless steel reliably, you generally need at least 500–1000 watts of fiber laser power. Lower power may only mark or engrave, not cut through.
Are Diode Lasers Able To Cut Metal?
Diode lasers are not suitable for cutting metal. Their power and wavelength are not efficient for metal cutting. At best, they can engrave painted or coated surfaces.
Is Laser Cutting Metal Dangerous?
Yes, it can be. The process produces intense light, fumes, and hot metal, which require proper safety gear and ventilation. Reflective metals can also damage the laser optics if not handled correctly.
Where Can I Learn More About Industrial Laser Cutting?
For more technical details and industrial applications, you can visit the Laser Cutting Wikipedia page.
Laser engravers are powerful tools, but not all are made for metal cutting. With the right equipment and knowledge, metal laser cutting is possible, but not as simple as it looks in online videos. Always match the tool to the job, and never underestimate the importance of laser safety.