Getting your first laser results right involves understanding three parameters — power, speed, and passes — and how they interact with your specific material. This guide explains the fundamentals, gives practical starting points for common materials, and covers the most frequent problems new xTool users encounter and how to fix them.
The Three Parameters That Control Every Laser Job
Power (%)
Power is the percentage of the laser's maximum output applied to the job. 100% power delivers the machine's full rated wattage at the focal point. More power means more energy per unit area, which means deeper cuts, more material removal, and more char on organic materials. For engraving, high power with high speed produces a different result than low power with low speed even at the same energy density — the former engraves more aggressively.
General rule: For cutting, use high power (70–100%). For engraving, start lower (30–60%) and adjust for depth and contrast.
Speed (mm/s)
Speed is how fast the laser head moves across the material. Slower speed = more time per unit area = more energy delivered = deeper cut or darker engrave. Higher speed = less energy per unit area = shallower cut or lighter engrave.
General rule: For cutting, use lower speed (10–50mm/s on most materials). For engraving, higher speeds (200–600mm/s) produce faster, lighter marks; lower speeds (50–150mm/s) produce deeper, darker marks.
Passes
The number of times the laser traverses the same path. For cutting, multiple passes allow the laser to progressively cut through material that a single pass at the same settings would not fully cut. Each pass removes more material. For engraving, multiple passes deepen the engraving without increasing char from a single high-power pass.
xTool Creative Space — Built-in Material Presets
xTool Creative Space (XCS) includes tested material presets for all xTool machines. For your first jobs, use these presets — they are a reliable starting point developed by xTool's testing team and are regularly updated. Access them in XCS by selecting your material from the dropdown in the processing settings panel. Always run a small test on scrap material before committing to the full job, even with presets, as material density and coating vary between suppliers.
Starting Settings by Material
These are starting point ranges — your specific machine, material thickness, and material density will require adjustment. Always test first.
3mm Basswood (Diode 40W)
Cutting: Power 90–100%, Speed 25–35mm/s, 1 pass
Engraving (light): Power 30–40%, Speed 400–600mm/s, 1 pass
Engraving (deep): Power 60–80%, Speed 100–200mm/s, 1–2 passes
3mm Acrylic — Opaque (Diode 40W)
Cutting: Power 90–100%, Speed 20–30mm/s, 1–2 passes
Engraving: Power 40–60%, Speed 300–500mm/s, 1 pass
Note: Clear acrylic cannot be cut by diode lasers — CO2 required
3mm Acrylic — Any Colour (CO2 55W, xTool P2S)
Cutting: Power 70–85%, Speed 30–40mm/s, 1 pass
Engraving: Power 25–40%, Speed 400–600mm/s, 1 pass
Edge quality tip: Air assist on for cutting to maximise flame-polished edge quality
3mm Leather
Cutting: Power 80–100%, Speed 15–25mm/s, 1–2 passes
Engraving: Power 25–45%, Speed 300–500mm/s, 1 pass
Note: Genuine leather varies significantly in density — always test a piece from the same batch
Anodised Aluminium (Diode)
Engraving: Power 80–100%, Speed 200–400mm/s, 1 pass
Note: The laser removes the anodised layer, revealing the bare aluminium beneath. Contrast depends on anodising thickness and colour
Stainless Steel (Fiber, xTool F1 Ultra)
Marking: Power 60–80%, Speed 300–600mm/s, 1 pass
Deep engraving: Power 90–100%, Speed 50–100mm/s, 3–5 passes
Colour on steel (MOPA): Colour varies by pulse width — use the XCS colour mapping presets as a starting point
Common Problems and How to Fix Them
Incomplete cut — material not cutting through
Causes: Power too low; speed too high; material thicker than settings assume; focus height incorrect; multiple passes needed.
Fix: Increase power by 10–15%, reduce speed by 20%, or add a second pass. Check that the material is flat on the bed (bowing causes inconsistent focal distance). Verify focus is set correctly for your material thickness.
Excessive char and burning on wood
Causes: Speed too low (too much dwell time); power too high; air assist not engaged.
Fix: Increase speed by 20–30% and reduce power slightly. Ensure air assist is running during cutting — it removes combustion gases and reduces secondary burning. Masking tape on the wood surface before cutting also significantly reduces char and smoke staining.
Engraving too light or too dark
Too light: Increase power, reduce speed, or add a pass.
Too dark / over-engraved: Reduce power by 10–20%, increase speed. For high-contrast engraving without depth, high speed and lower power often produces cleaner results than low speed and high power.
Stringing and ooze on acrylic engraving
Cause: Power too high for engraving — melting rather than vaporising the surface.
Fix: Reduce power significantly (try 20–30%), increase speed. For acrylic engraving, cooler and faster usually produces a cleaner result than slower and hotter.
Lines visible between engraving passes
Cause: Line interval (spacing between scan lines) is too wide relative to the beam spot size.
Fix: Reduce the line interval in XCS settings. A tighter interval produces a more uniform engrave surface but takes longer. 0.1mm is a common starting point for fine engraving.
Metal marking uneven or inconsistent
Cause: Surface is not flat; focus height varying across the part; metal surface has varying reflectivity or coating.
Fix: Ensure the part is perfectly flat and secure. For curved surfaces, use xTool's curved surface engraving mode (available on F2 Ultra, F1 Ultra) which adjusts focus dynamically as the contour changes.
xTool Creative Space vs LightBurn
xTool Creative Space (XCS) is xTool's free, dedicated software. It handles design creation, import, and machine control. Material presets are built in, camera positioning works natively, and the workflow from design to job start is streamlined. For beginners and most small business applications, XCS covers everything needed.
LightBurn (paid licence, ~€50) is compatible with all xTool machines and offers more granular control over parameters — useful for advanced users who need fine-tuned settings, complex job sequencing, or integration with existing design workflows from RD-Works or similar.
Available from Eolas Prints
Eolas Prints is an authorised xTool reseller based in Cantabria, Spain. If you have questions about settings for a specific material or application on any xTool machine, contact us — our team works with xTool hardware daily and can advise on specific configurations.
A laser engraver is one of the few pieces of workshop equipment with a direct route to revenue from the day it arrives. The product categories it enables — personalised gifts, custom signage, branded merchandise, trophies, jewellery — are in consistent demand, sold at healthy margins, and require no specialist knowledge to get started. This guide covers the practical side of building a laser business with xTool: which machine for which business model, what products to sell, and what the economics actually look like.
The Three Main Laser Business Models
1. Personalisation and Gifts
The largest and most accessible laser business category. Engraving names, dates, and messages onto gifts — wooden boards, leather items, keyrings, acrylic ornaments, jewellery, glasses, trophies. Primary sales channels are Etsy, local markets, pop-up events, and corporate clients ordering branded gifts in volume.
Key characteristics: High unit margin on low material cost, repeat customers, seasonal peaks (Christmas, Valentine's Day, Mother's Day, weddings). Volume is the constraint — faster machines process more orders per day.
Right machines: F1 Portable or F1 Ultra for metal and organic personalisation; S1 40W for organic-only high volume; M1 Smart if vinyl-cut items are also in the range.
2. Sign Making and Architectural
Custom signage, plaques, lettering, and decorative panels for businesses, homes, and events. Materials: acrylic, wood, MDF, leather. Typically larger orders with higher per-job value. Clients include interior designers, estate agents, restaurants, retail, and construction.
Key characteristics: Larger material costs, higher per-job revenue, less seasonal. Cut quality and material range matter more than personalisation speed.
Right machines: P2S or P3 (CO2) for acrylic and thick wood cutting. The ability to cut clear acrylic cleanly is a CO2-exclusive capability that sign makers cannot do without.
3. Specialist High-Value Products
Crystal trophies, premium metal awards, industrial part marking, jewellery. Higher machine investment, lower volume, much higher per-unit margin. Often involves B2B clients — companies, sports organisations, medical and industrial manufacturers.
Key characteristics: Longer sales cycle, larger orders, specialist knowledge adds value. Machine ROI measured in weeks rather than months once clients are established.
Right machines: F1 Ultra or F2 Ultra MOPA for metal and trophy work; F2 Ultra UV for crystal and glass engraving.
Machine Recommendations by Business Type
Business type
Recommended machine
Why
Market stall / on-site personalisation
F1 Portable
Battery-compatible, 2kg, IR for metal, 4,000mm/s speed
Etsy / online gift shop (organic materials)
S1 40W
High-power enclosed diode, Class 1 safe, high throughput
Etsy / online gift shop (metal + organic)
F1 Ultra
Metal + organic in one machine, 10,000mm/s galvo production speed
Sign making and acrylic fabrication
P2S
55W CO2 — only technology that cuts clear acrylic cleanly
Trophy and awards
F1 Ultra
Metal marking at galvo speed, precision on small plaques
Crystal and glass gifts (premium)
F2 Ultra UV
3D inner glass engraving — no other machine does this
Jewellery personalisation
F1 Ultra or F2 Ultra MOPA
Fiber precision on precious metals; MOPA adds colour capability
Industrial part marking (B2B)
F2 Ultra MOPA
60W MOPA — industrial traceability marking standard
Best-Selling Product Categories
These consistently generate strong margins across laser businesses:
Personalised wooden gifts: Name boards, family signs, wedding gifts, keepsake boxes. Low material cost (€3–8), sell for €25–80. Diode or CO2.
Metal keyrings and tags: Engraved with names, dates, or logos in steel or aluminium. Material cost under €2, sell for €10–20. IR or fiber laser required.
Acrylic signage: Business name signs, door plaques, event signage. Material €5–20, sell for €30–150. CO2 required for clear acrylic.
Leather goods: Wallets, belts, notebook covers with engraved initials or patterns. Material €5–15, sell for €35–80. Diode or CO2.
Crystal trophies: 3D inner-engraved awards for sports, corporate, and education. Material €8–25, sell for €60–200. UV laser required.
Stainless steel tumblers: Personalised drinkware, high-repeat corporate orders. Material €8–15, sell for €30–60. CO2 or rotary diode.
The Economics — What to Expect
Laser businesses typically operate at 70–85% gross margin on materials (material cost is low relative to sale price). The main costs are machine amortisation, consumables (lenses, air filters, nozzles), and time. A personalisation business processing 10 orders per day at an average of €35 each generates €350/day gross revenue. On a 20-day working month, that is €7,000 — against a machine cost of €1,549–€3,899 depending on machine choice. Most well-run laser businesses recover machine cost within 2–6 months of reaching steady-state order volume.
The machines with the fastest production speeds (F1 Ultra at 10,000mm/s, P3 at 1,000mm/s) offer the clearest throughput advantage at volume — when you are turning down orders because the machine can't keep up, upgrading to a faster machine pays for itself directly.
Getting Started — Practical First Steps
Choose your primary material and product category before choosing a machine — the machine follows the material, not the other way around.
Start with one product line, perfect it, then expand. The most successful laser businesses start narrow and go deep before broadening.
xTool Creative Space is free and handles everything from design import to machine control. LightBurn (paid) is available for users who want advanced control and is fully compatible with all xTool machines.
The xTool community (Facebook groups, Printables, Reddit) is one of the most active maker communities in the market — a practical resource for settings, project ideas, and troubleshooting.
Available from Eolas Prints
Eolas Prints is an authorised xTool reseller based in Cantabria, Spain. We stock the complete xTool range and ship across Europe. If you are starting a laser business and want advice on machine selection for your specific product category, contact us before you buy — getting the right machine for your business model makes a significant difference to your early revenue.
The xTool F2 Ultra UV occupies a unique position in the laser market — it does things no diode, CO2, or standard fiber laser can do, and it is the first consumer-grade desktop machine to make several of these capabilities accessible. This guide explains the technology, what it produces, and which businesses it serves.
What UV Cold Processing Actually Is
Most lasers process materials thermally — the laser heats material to its vaporisation point, removing it as gas and plasma. The heat is the mechanism. UV lasers at 355nm operate differently: the photon energy at this wavelength is high enough to break molecular bonds directly, ablating material photochemically rather than thermally. The result is material removal without significant heat generation — which is why it's called cold processing.
The practical consequences are significant: materials that thermal lasers would crack (glass), melt (heat-sensitive plastics), or discolour (electronics coatings) are processed cleanly by UV. The absence of a heat-affected zone means clean edges, no micro-fractures, no thermal spread beyond the target area.
3D Inner Glass Engraving — What It Is and How It Works
Glass is transparent to UV light — the beam passes through the surface without affecting it. But if the UV beam is focused to a precise point inside the glass, the photon density at that focal point is high enough to create a micro-fracture within the glass volume. By moving this focal point systematically in three dimensions (X, Y, and Z), the machine creates patterns, text, and three-dimensional models suspended inside the glass object — invisible from the surface until the object is backlit.
This is the technology behind crystal trophies, personalised glass blocks, and decorative crystal balls sold as premium gifts and corporate awards. Previously limited to industrial laser systems costing tens of thousands of euros, the xTool F2 Ultra UV makes this technique accessible from a desktop machine.
What can be engraved inside glass: Text, logos, 3D models, photographs converted to 3D point clouds. The xTool Creative Space software includes AI-powered 3D model generation from photographs — upload a portrait and the software generates a 3D point cloud for inner engraving automatically.
Surface Engraving vs Inner Engraving
The F2 Ultra UV includes two switchable field lenses — one optimised for inner engraving (focused inside the material) and one for surface engraving (focused on the material surface). This makes it a genuinely dual-mode machine:
Inner mode: 3D structures suspended inside glass, crystal, or transparent acrylic
Surface mode: Clean frosted engraving on glass surfaces, ceramic marks, fine detail on acrylic, electronics marking
Material Compatibility
Material
Process
Notes
Clear glass and crystal
3D inner engraving + surface frosting
The primary application — the UV wavelength is uniquely suited
Transparent acrylic
Surface engraving + inner possible
Clean burn-free edges — CO2 and diode leave heat marks on clear acrylic
Ceramics and porcelain
Surface marking
Permanent marks on fired ceramic without cracking risk
Silicone and technical plastics
Surface marking
No heat damage — marks heat-sensitive materials other lasers cannot
Leather
Surface engraving
Ultra-fine detail, zero fumes from burning
Wood
Surface engraving
Works but CO2 or diode is more cost-effective for wood
PCBs and electronics
Component marking
Component marking without thermal damage
The Business Model — What Products Does This Enable?
The F2 Ultra UV opens product categories that are simply not accessible with other desktop laser technologies:
Crystal trophies and corporate awards: 3D inner engraving of logos, portraits, and 3D models inside crystal blocks. High perceived value, high margin. Currently a market served by specialist suppliers — the F2 Ultra UV allows small studios and personalisation businesses to produce these in-house.
Personalised glassware: Whisky glasses, wine bottles, beer mugs, and decanters with inner 3D or surface-frosted personalisation. Wedding gifts, corporate gifts, bar merchandise.
Ceramic and tile marking: Permanent logos and personalisation on fired ceramic tiles, mugs, and plates for the gift and home décor market.
Jewellery with glass and stone: Studios engraving on glass or semi-precious stone components of jewellery pieces.
Industrial component marking: Electronics, medical devices, and precision instruments that require marking without thermal damage.
F2 Ultra UV Key Specifications
Laser type
5W UV (355nm)
Engraving speed
Up to 15,000 mm/s (galvo)
Camera system
Dual 48MP — 0.2mm positioning accuracy
Field lenses
2 — inner engraving + surface engraving
Engraving modes
3D inner, surface, embossing, rotary
Software
xTool Creative Space (AI 3D generation)
Price
€4,649
UV vs Other Technologies on Glass
Diode laser on glass: Cannot engrave — the 450nm beam passes through glass. Requires spray coating to mark glass surfaces, which adds time and obscures fine detail. No inner engraving capability.
CO2 laser on glass: Engraves glass surfaces well — the 10,600nm wavelength is absorbed by glass, creating frosted marks without coating. Cannot do inner engraving. Produces good surface frosting but generates heat that can cause micro-fracturing on thin glass or around curved surfaces.
UV laser on glass: Cold processes both the surface and the interior. No micro-fractures, no coating required, and uniquely capable of 3D inner engraving. The technically correct and most capable technology for all glass applications.
Available from Eolas Prints
Eolas Prints is an authorised xTool reseller based in Cantabria, Spain. The xTool F2 Ultra UV is in stock and ships across Europe with EU warranty. If you are considering this machine for a specific product line or application, contact us — we are happy to discuss whether it is the right fit for your workflow.
The xTool P2S and P3 are CO2 laser cutters — a category operating on fundamentally different physics from diode lasers. Understanding what CO2 technology is specifically designed to do makes the investment decision clear. This guide covers the complete material capability of both machines, the practical differences between 55W and 80W, and which applications justify each.
Why CO2 Is the Right Technology for Thick-Material Cutting
CO2 lasers emit at 10,600nm — far infrared. Organic materials absorb this wavelength with extremely high efficiency compared to the 450nm of diode lasers. The practical result: a 55W CO2 cuts 18mm basswood in a single pass. A 40W diode at the same thickness requires multiple passes and produces rougher, more charred edges. For anything over 10mm thick, CO2 is the correct technology — not abstractly better, but because the absorption physics make the cut faster, cleaner, and achievable at all.
CO2 also produces a flame-polished edge on cast acrylic — optically clear, requiring no post-processing. This is why CO2 is the standard technology for sign shops and acrylic fabricators.
Material Capabilities
Wood
CO2 is the natural wood-cutting laser. The P2S cuts basswood, birch plywood, MDF, pine, walnut, cherry, and oak. Practical cutting limits: basswood up to 18mm (P2S) or 30mm (P3) in a single pass. Engraving quality is excellent — smooth gradients and clean edges on detailed woodwork, personalised plaques, decorative panels, and architectural models.
Acrylic
Acrylic is where CO2 demonstrates its clearest advantage. Diode lasers cannot cut clear acrylic — the beam passes through it. CO2 cuts all acrylic colours including clear, with a flame-polished edge that is optically transparent and requires no sanding. P2S cuts up to 20mm; P3 up to 25mm. Essential for sign shops, display manufacturers, and businesses producing acrylic lettering, awards, and decorative objects.
Leather
CO2 laser-cut leather produces clean, sealed edges — the heat seals the leather fibres simultaneously, preventing fraying. P2S cuts genuine leather up to 8mm and engraves with high contrast. For leather goods manufacturers, CO2 edge quality is significantly better than mechanical cutting or diode laser cutting.
Fabric and Textiles
Cuts cleanly with heat-sealed edges that prevent fraying on synthetics. Cotton, polyester, nylon, silk, felt, and denim. The large beds of the P2S (600×400mm) and P3 (700×430mm) accommodate full panels for garment decoration and textile design.
Glass and Stone (Engraving Only)
CO2 engraves glass and stone without the spray coating required by diode lasers. The 10,600nm beam interacts directly with these surfaces, creating frosted engraving for personalised glassware, tiles, and stone markers. For glass cutting, the xTool F2 Ultra UV is the correct machine.
What CO2 Cannot Do
CO2 cannot process bare metal — the 10,600nm wavelength reflects off metal surfaces. For metal marking alongside a CO2 workflow, a separate fiber or IR machine is needed. Diode or IR modules can handle coated and anodised metals as a complementary capability.
P2S vs P3 — Which to Choose
xTool P2S (55W)
xTool P3 (80W)
Laser power
55W CO2
80W CO2
Build area
600 × 400 mm
700 × 430 mm
Max speed
600 mm/s
1,000 mm/s
Basswood single pass
18mm
30mm
Acrylic single pass
20mm
25mm
Fire safety
Standard
AI detection + CO2 suppression
Material recognition
No
Automatic
Price
€4,199
€7,049
The P2S handles the majority of small business CO2 applications. The P3's 80W becomes necessary when: materials are routinely over 18mm thick; the machine runs all day in a commercial premises requiring fire suppression; or automatic material recognition would save significant per-job setup time.
The P3's Safety Infrastructure — Why It Matters
The P3 is the first consumer CO2 laser with a built-in CO2 fire suppression system. At 80W, the machine generates significant heat in thick wood and MDF — smouldering can ignite if left unattended. The P3's AI camera monitors the work area in real time and activates suppression automatically on flame detection. For businesses running the machine commercially, this directly reduces operational risk and may affect insurance requirements.
Who Buys the P2S and P3
Sign makers: Acrylic lettering, wooden plaques, MDF display boards — CO2 is the sign industry standard for good reason
Furniture makers and woodworkers: Decorative inlays, personalised panels, and joints in wood up to 30mm
Model makers and architects: Precision cuts in 3–15mm plywood and MDF for scale models
Leather goods manufacturers: Pattern cutting and branding with sealed-edge quality
Gift and personalisation studios: High-volume engraving on wood, glass, and stone at CO2 speed and quality
Available from Eolas Prints
Eolas Prints is an authorised xTool reseller based in Cantabria, Spain. Both the P2S and P3 are in stock and ship across Europe. Contact us to discuss which configuration is right for your production requirements.
Metal laser engraving is one of the most commercially valuable laser applications — and one of the most misunderstood. The most common mistake is purchasing a diode laser expecting it to mark metal, only to find the 450nm wavelength reflects off bare metal surfaces without effect. Metal requires a specific approach depending on the type of metal, the desired result, and the production volume. This guide explains what is possible with each xTool machine and which is right for each application.
Why Metal Requires a Different Laser Wavelength
Metal surfaces reflect visible light — which is why they appear shiny. The 450–455nm blue wavelength used by diode lasers reflects off bare metal rather than being absorbed. The exception is coated or anodised metals: anodised aluminium has a surface layer that absorbs the diode wavelength, which is why diode lasers mark anodised aluminium but not bare aluminium.
Effective metal marking requires 1064nm — the infrared wavelength range where metals absorb rather than reflect. All fiber and IR lasers in the xTool range operate at 1064nm.
Four Types of Metal Laser Processing
Surface Marking (Oxidation)
The most common application. The laser heats the metal surface to create a controlled oxide layer — a permanent, flush, scratch-resistant colour change. No material is removed. On stainless steel this produces marks from straw-yellow through blue and purple depending on temperature. On tool steel it produces deep black annealing marks. Used for serial numbers, QR codes, surgical instruments, tool identification, and branded metal products.
Machines: All xTool fiber and IR machines. Speed and contrast increase significantly from the 2W IR (F1, F2) through 20W fiber (F1 Ultra) to 60W MOPA (F2 Ultra).
Colour Engraving on Stainless Steel (MOPA)
Standard fiber lasers produce oxidation in a limited colour range. MOPA lasers, with independent pulse width control, produce a full spectrum on stainless steel: vivid blue, gold, purple, red, and true black. Colours are permanent, produced by controlled oxide thicknesses, and require no pigments. Used for premium cutlery, trophy plaques, architectural hardware, branded surgical instruments, and luxury goods.
Machines: F1 Ultra (20W fiber — good colour range), F2 Ultra (60W MOPA — full spectrum, deepest saturation, most consistent results).
Deep Engraving (Material Removal)
At sufficient power, the fiber laser removes metal material creating a physically recessed mark. Used for industrial part marking that must survive abrasion, tooling marks, and high-wear environments where surface oxidation would be removed in service.
Machines: F1 Ultra (20W — light deep engraving on soft metals), F2 Ultra (60W MOPA — deep engraving on all metals including hardened steel).
Thin Metal Cutting
The F1 Ultra's 20W fiber cuts stainless steel up to 0.3mm, brass up to 0.4mm, aluminium up to 0.2mm. The F2 Ultra at 60W cuts up to 2mm on all three. Applications: metal stencils, jewellery blanks, decorative metal elements, and custom hardware previously requiring outsourced laser cutting.
Machine Comparison for Metal Applications
Application
F1 (2W IR)
F2 (5W IR)
F1 Ultra (20W fiber)
F2 Ultra (60W MOPA)
Stainless steel marking
Basic
Good
Fast, high contrast
Deep, full colour
Colour on steel
Limited
Limited
Good range
Full spectrum
Stainless steel cutting
✗
✗
Up to 0.3mm
Up to 2mm
Bare aluminium marking
Grey marks
Better marks
Black possible
True black, deep
Brass and copper
Basic
Good
Deep marks, colour
Full capability
Gold and silver (jewellery)
Basic
Good
Excellent precision
Best results
Titanium
Good
Good
Good colour range
Widest colour range
Anodised aluminium
✓
✓
✓
✓
Recommended Machines by Use Case
Jewellery and Precious Metals
Jewellery engraving requires precision above speed — fine detail on small objects, without heat damage to stones or settings. The F1 Ultra's 0.002mm accuracy and 10,000 mm/s galvo speed make it the correct machine for rings, pendants, bracelets, and watch cases. Deep, permanent marks on gold, silver, platinum, and titanium at commercial production speeds. The F2 Ultra MOPA adds colour capability for premium pieces.
Trophy and Award Manufacturing
Stainless steel and aluminium plaques in high volume. The F1 Ultra processes these at 10,000 mm/s — a batch of 20 plaques takes minutes not hours. The F2 Ultra MOPA adds colour options for premium trophy work.
Industrial Part Marking
Serial numbers, QR codes, data matrix codes, and compliance marks on metal components requiring permanence and scan-readability. The F2 Ultra MOPA's 60W power and MOPA pulse control produce marks to industrial traceability standards.
Market Traders and On-Site Personalisation
The F1 Portable's 2W IR + 2kg weight + USB-C power makes it the only professional metal-capable laser that operates on battery at a market stall. For traders doing on-site metal personalisation — keyrings, tags, cutlery — this combination is unique in the market.
Available from Eolas Prints
Eolas Prints is an authorised xTool reseller based in Cantabria, Spain. The full F-series range — F1, F1 Ultra, F2, F2 Ultra — ships to customers across Europe with EU warranty.
Every laser engraver or cutter uses one of a small number of laser technologies. The technology determines which materials the machine can process — not just which ones it does better. Understanding the physics of each laser type takes the guesswork out of machine selection and prevents costly mistakes when sourcing equipment for a specific application.
How Lasers Interact with Materials — The Core Principle
A laser is a focused beam of light at a specific wavelength. Whether a material is processed by that laser depends almost entirely on whether the material absorbs that wavelength. Glass is transparent to visible light but absorbs infrared. Aluminium reflects visible light but absorbs UV photons. Organic materials like wood and leather absorb broadly across wavelengths but particularly efficiently in the infrared range. This is why there is no single laser that processes every material equally well — the physics won't allow it.
Diode Lasers (450–455nm)
Modern desktop diode lasers use semiconductor lasers in the blue wavelength range. This wavelength is absorbed efficiently by most organic and dark-coloured materials and is the starting point for most xTool buyers.
Processes well: Wood, bamboo, leather, cork, rubber, fabric, paper, dark and opaque acrylic, anodised aluminium, painted surfaces. At 40W, cuts basswood up to 25mm.
Cannot process: Bare metal (reflected), clear acrylic (transmitted), glass (transmitted), white or very light acrylic (insufficient absorption).
The galvo diode advantage: When a diode source is paired with galvanometer mirror steering rather than a moving gantry, engraving speed leaps from 400–600 mm/s to 4,000 mm/s. This is the architecture of the xTool F1 and F2 — the same diode wavelength at dramatically higher throughput. For high-volume engraving on organic materials, galvo diode is the most cost-effective production technology available.
xTool diode machines: M1 Smart, M1 Ultra, S1 (enclosed, 20W/40W), F1 Portable (galvo), F2 (galvo).
Infrared Laser (1064nm)
At 1064nm, metal surfaces absorb the beam rather than reflecting it. This is the entry point to metal processing. IR modules at 2–5W (as found in the xTool F1 and F2) are specifically suited for marking bare metals — stainless steel, aluminium, brass, copper — and technical plastics and ceramics that diode lasers cannot mark cleanly.
In practice, most IR module users are jewellers, metalworkers, market traders doing personalisation, and sign makers who need occasional metal marking alongside organic material work. The dual-source architecture (diode + IR in one machine) makes this accessible without purchasing separate machines.
Fiber Laser (1064nm)
Fiber lasers also operate at 1064nm but at significantly higher power than IR modules. Where a 2W IR module marks the surface, a 20W fiber laser engraves deeply, marks with high contrast and permanence, and cuts thin sheet metal. The xTool F1 Ultra cuts stainless steel up to 0.3mm and aluminium up to 0.2mm — capabilities impossible with diode or CO2 technology.
Combined with galvo steering at 10,000 mm/s, the F1 Ultra processes metal jobs at speeds that make commercial production volumes viable from a desktop machine. Fifty engraved metal tags that would take hours on a gantry take minutes on the F1 Ultra.
MOPA Fiber Laser
MOPA (Master Oscillator Power Amplifier) fiber lasers provide independent control over pulse width and frequency — parameters that standard fiber lasers cannot separate. This unlocks three capabilities unavailable in standard fiber:
Full colour spectrum on stainless steel: Different pulse widths produce different oxide thicknesses, producing different visible colours. Blue, gold, purple, red, and true black are all reproducible and permanent without pigments.
True black on bare aluminium: Standard fiber produces grey marks on aluminium. MOPA's short pulses produce genuine black oxide — the industry standard for aluminium part marking.
Coating-precise removal: MOPA removes coatings without thermal spread into the substrate — essential for electronics, precision instruments, and complex coated surfaces.
The xTool F2 Ultra's 60W MOPA is competitive with industrial fiber systems at a fraction of the cost. For businesses where colour marking on metal is a core product offering, MOPA is the correct technology.
CO2 Laser (10,600nm)
CO2 lasers emit at 10,600nm — far infrared. Organic materials absorb this wavelength with extremely high efficiency. The result is decisive cutting power on wood, acrylic, leather, paper, and fabric that diode lasers cannot match at comparable wattage. A 55W CO2 cuts 18mm basswood in a single pass; a 40W diode requires multiple passes on the same thickness.
CO2 also produces a flame-polished edge on cast acrylic — optically clear, smooth, requiring no post-processing. This is why CO2 is the standard technology for sign shops, furniture makers, and acrylic fabricators.
Cannot process: Bare metal. The 10,600nm wavelength reflects off metal surfaces entirely.
xTool CO2 machines: P2S (55W), P3 (80W with AI fire detection).
UV Laser (355nm)
UV lasers at 355nm operate through photochemical ablation — high-energy photons break molecular bonds directly, removing material without significant heat generation. This is categorically different from thermal laser processing and enables applications no other laser technology can achieve.
3D inner glass engraving: The UV beam focused inside transparent glass creates micro-fractures within the material volume — building 3D structures suspended inside glass or crystal objects. Crystal trophies, personalised glass blocks, and premium glassware decoration require this technology and nothing else.
Heat-sensitive materials: Electronics, precision plastics, silicone, and coated surfaces that thermal lasers melt or discolour are marked cleanly by UV's cold processing mechanism.
Ceramics and porcelain: Fired ceramic surfaces receive clean, burn-free marks without the thermal cracking risk of infrared lasers.
xTool UV machine: F2 Ultra UV (5W, 15,000 mm/s via galvo, dual 48MP cameras).
Technology Decision Matrix
Application
Correct technology
xTool machine
Cutting thick wood, acrylic, leather
CO2
P2S or P3
Engraving and cutting organic materials
Diode
S1 40W or M1 Smart
High-speed batch engraving on organics
Galvo diode
F2 (15W + 5W IR)
Marking bare metal
Fiber or IR
F1 Portable or F1 Ultra
Colour engraving on stainless steel
Fiber (20W+)
F1 Ultra
Industrial colour + deep metal marking
MOPA (60W)
F2 Ultra MOPA
3D inner glass, ceramics, cold processing
UV
F2 Ultra UV
Vinyl cutting + laser in one machine
Diode + blade
M1 Smart or M1 Ultra
Print + cut (colour printing on hard surfaces)
Diode + inkjet + blade
M1 Ultra or M2 Color Craft
Available from Eolas Prints
Eolas Prints is an authorised xTool reseller based in Cantabria, Spain, offering the complete xTool range across all laser technologies. Contact us with your material and application requirements — we'll identify the correct technology and machine before you spend.
Choosing a laser engraver or cutter is not as simple as picking a wattage and clicking buy. The xTool range spans eleven machines across five fundamentally different laser technologies — each suited to a different set of materials, workflows, and business models. This guide cuts through the confusion with a practical framework: understand your materials first, then choose the technology, then choose the machine.
The One Question That Decides Everything: What Do You Need to Process?
Every laser technology has a wavelength, and every material absorbs certain wavelengths and reflects or transmits others. A laser that works beautifully on wood will do nothing to bare metal. A CO2 laser that cuts acrylic cleanly cannot mark stainless steel. Before comparing machines, answer this: what materials will you work with most?
The Five xTool Laser Technologies at a Glance
Technology
Wavelength
Best for
Cannot process
Diode laser
450–455nm
Wood, leather, acrylic (opaque), fabric
Bare metal, clear acrylic, glass
Infrared (IR)
1064nm
Metal marking, ceramics, technical plastics
Thick cutting
Fiber
1064nm
Deep metal engraving, colour on steel, thin metal cutting
Organic materials (use diode)
MOPA fiber
1064nm
Full colour metal engraving, black on aluminium
Organic materials
CO2
10,600nm
Thick wood and acrylic cutting, production output
Bare metal
UV
355nm
3D inner glass engraving, cold processing, ceramics
Thick material cutting
The Complete xTool Range — Every Machine Mapped
Machine
Technology
Price
Primary use case
M2 Color Craft
Diode + UV + blade + pen
€655
Colour printing on hard materials
M1 Smart
10W Diode + blade
€1,199
Laser engraving + vinyl cutting
M1 Ultra
10W Diode + blade + inkjet + pen
€1,849
Print-and-cut, 4-in-1 workflows
S1 (20W/40W)
Diode, Class 1 enclosed
€1,410+
Safe enclosed high-power diode
F1 Portable
10W Diode + 2W IR, galvo
€1,549
Portable metal + organic, 4,000mm/s
F2 (5W IR)
15W Diode + 5W IR, galvo
€1,549
Dual-laser galvo, 400×400mm area
F1 Ultra
20W Fiber + 20W Diode, galvo
€3,899
Colour steel, deep metal, 10,000mm/s
P2S
55W CO2
€4,199
Thick wood/acrylic cutting, sign making
F2 Ultra UV
5W UV, galvo
€4,649
3D inner glass, ceramics, cold processing
P3
80W CO2
€7,049
Production CO2, AI fire safety
F2 Ultra MOPA
60W MOPA + 40W Diode, galvo
€7,299
Industrial MOPA colour, deep marking
Choosing by Budget
Under €1,000 — Creative Entry Point
The M2 Color Craft at €655 combines UV laser, diode, blade cutter, and pen plotter for full-colour prints directly onto wood, acrylic, and hard surfaces. It's the most versatile machine at this price and the only desktop device that does full-colour printing without ink cartridges.
€1,000–€2,000 — Serious Studio
For pure diode power in a safe enclosed format, the S1 40W is the most capable enclosed diode laser available. For users who also need metal marking capability, the F1 Portable adds 2W IR and galvo speed at the same price point. The M1 Smart is the right choice if vinyl cutting is part of the workflow.
€2,000–€5,000 — Small Business Production
Two very different machines serve this tier. The P2S is for businesses whose primary material is thick wood, acrylic, or leather — sign shops, furniture makers, craft studios. The F1 Ultra is for personalisation businesses working with metals at volume — trophies, jewellery, branded merchandise. These two machines serve opposite ends of the material spectrum at the same price tier.
€5,000+ — Professional and Industrial
The P3 at €7,049 adds 80W CO2 power, larger build volume, AI fire detection, and built-in CO2 suppression — the choice for production CO2 operations where the machine runs all day. The F2 Ultra MOPA at €7,299 delivers 60W MOPA fiber capability — the right choice for industrial metal colour engraving, deep marking of hard metals, and applications requiring the full MOPA colour spectrum on stainless steel.
Quick Decision Guide
Answer these questions in order:
Do you need to mark bare metal? Yes → you need a fiber or IR laser (F1, F1 Ultra, F2, F2 Ultra). No → continue.
Do you need to cut wood over 10mm thick or any clear acrylic? Yes → CO2 (P2S or P3). No → continue.
Do you need to engrave inside glass or on heat-sensitive materials? Yes → UV (F2 Ultra UV). No → continue.
Do you need high-speed batch production? Yes → galvo machine (F1, F1 Ultra, F2, F2 Ultra). No → continue.
Do you need vinyl cutting alongside laser? Yes → M1 Smart or M1 Ultra. No → S1 is your enclosed diode entry point.
Available from Eolas Prints
Eolas Prints is an authorised xTool reseller based in Cantabria, Spain, serving customers across Europe. Every machine in this guide is in stock. Not sure which is right for your application? Contact us — we advise based on your specific materials and workflow before you buy.
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