Découpe au Laser -- Du Prototype à la Production
“Des prototypes à la production : découpe laser de métal, bois et acrylique avec une précision inégalée. Service rapide et prix compétitifs.”
5/5
Années d'Expérience
CNC Laser Cutting Services: Precision and Efficiency for Complex Designs
What Is CNC Laser Cutting?
CNC laser cutting is a high-precision manufacturing process that uses a focused laser beam, controlled by computer numerical control (CNC), to cut, engrave, or etch materials with extreme accuracy. This non-contact process ensures clean edges, minimal material waste, and the ability to produce intricate shapes and complex patterns that are difficult to achieve with traditional cutting methods. CNC laser cutting is widely used for metals, plastics, composites, and specialty materials in industries like aerospace, automotive, electronics, and industrial manufacturing.
Caractéristiques Clés et Avantages
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High Precision & Accuracy – Cutting tolerances up to ±0.05 mm for thin and medium sheets.
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Material Versatility – Works with stainless steel, carbon steel, aluminum, brass, copper, acrylic, wood, and composite materials.
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Clean & Smooth Edges – Minimal burrs, no mechanical deformation, and excellent surface finish (Ra 0.8 μm achievable).
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Complex Geometries – Capable of cutting intricate patterns, micro-holes as small as 0.2 mm, and curved or angular shapes.
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Fast & Efficient Production – Cutting speeds up to 12 m/min for thin sheets, reducing cycle times and improving throughput.
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Non-Contact Process – No tool wear, reduced maintenance, and minimal material distortion.
MW+: Your CNC Laser Cutting Partner
MW+ offers professional CNC laser cutting services with ISO-certified quality control, advanced fiber and CO₂ laser systems, and engineering support to meet your design requirements. We deliver precise, repeatable, and high-quality parts for both prototyping and mass production.
Why Choose MW+
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CNC-controlled precision with tolerances up to ±0.05 mm
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Supports sheet thickness from 0.5 mm up to 20 mm (metal) and up to 50 mm (plastics/wood)
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Full inspection and quality assurance reports
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Fast turnaround for small and large batches
Services de Découpe au Laser de Précision et Fabrication de Métal en Feuille
Notre entreprise de découpe au laser offre la plus haute précision pour vos tâches les plus difficiles. Nous proposons des solutions de découpe au laser clés en main pour de nombreux matériaux différents, et le découpage de métal en feuille est notre expertise dans l'industrie de la fabrication métallique. Grâce à notre technologie avancée de laser à fibres, nous obtenons des tolérances extrêmement serrées de ±0,1 mm et fournissons des résultats parfaits pour les prototypes et la production en série.
Capacités de Découpe au Laser et de Fabrication Métallique :
- Technologie Avancée : Nous utilisons une technologie de découpe laser à fibre CNC de pointe pour un découpage rapide et sans défaut de l'acier, de l'aluminium, du laiton et du cuivre.
- Expertise en Matériaux : En plus de la découpe au laser de métal en feuille, nous découpons également des plastiques, du bois et des composites au laser pour répondre à divers besoins d'application.
- Assurance Qualité : Le service de découpe au laser est soutenu par des processus certifiés ISO 9001 qui garantissent une qualité constante et une précision reproductible pour chaque commande.
- Service de A à Z : En tant que guichet unique, nous combinons la découpe avec le pliage, le soudage et la finition pour des services de fabrication métallique complets.
Faites confiance à notre expertise pour répondre à vos spécifications techniques et délais de livraison. Demandez un devis pour apprécier la fiabilité et la précision qui nous permettent d'être une entreprise de découpe au laser de premier plan.
Plus de 20,000 Pièces de Précision, Plus de 150 Matériaux
4.9/5
Norme de Tolérance
Garantie de Précision de ±0.0005"
Depuis 2015
5/5
Finition de Surface
Finition Miroir C8-16 μin Ra
Depuis 2015
4.8/5
Pièce de Travail Maximale
Capacité de 40" × 28" × 20"
Depuis 2015
4.5/5
Dureté du Matériau
Traité jusqu'à 65 HRC
Depuis 2015
Tolerances de Découpe au Laser : Guide des Normes et Capacités
Limites pour la taille nominale
Métaux (ISO 2768-f)
Plastiques (ISO 2768-m)
0.5mm* to 3mm
±0.05mm
±0.1mm
Over 3mm to 6mm
±0.05mm
±0.1mm
Over 6mm to 30mm
±0.1mm
±0.2mm
Over 30mm to 120mm
±0.15mm
±0.3mm
Over 120mm to 400mm
±0.2mm
±0.5mm
Over 400mm to 1000mm
±0.4mm
±0.8mm
Over 1000mm to 2000mm
±0.5mm
±1.2mm
| Category | Parameter | Standard Grade | Precision Grade | Validation Method |
|---|---|---|---|---|
| Material Properties | Ultimate Tensile Strength | 450 MPa (Al 6061) | 900 MPa (Ti-6Al-4V) | ASTM E8/E21 Testing |
| Thermal Expansion Coeff. | 23.6 μm/m°C (Al) | 8.6 μm/m°C (Invar) | TMA Analysis | |
| Dimensional Control | Positional Tolerance | ±0.005″ | ±0.0008″ | CMM (0.5μm resolution) |
| Surface Profile | 0.010″ | 0.002″ | Laser Scanning | |
| Process Capabilities | Minimum Feature Size | 0.020″ | 0.005″ | Microscope Measurement |
| Aspect Ratio (Depth/Dia.) | 10:1 | 20:1 | Tool Deflection Analysis | |
| Thermal Management | Operating Temp Range | -40°C to +120°C | -196°C to +350°C | Thermal Cycling Tests |
| Thermal Conductivity | 167 W/mK (Cu) | 400 W/mK (CVD Dia.) | Laser Flash Analysis | |
| Surface Engineering | Ra Surface Roughness | 125 μin | 4 μin | White Light Interferometry |
| Coating Thickness | 25-50 μm | 5-10 μm | XRF Measurement | |
| Dynamic Performance | Fatigue Cycles @ 10^6 | 350 MPa | 550 MPa | Resonant Fatigue Testing |
| Vibration Damping | 0.05 ζ | 0.15 ζ | Modal Analysis | |
| Metrology | Measurement Uncertainty | ±0.0002″ | ±0.00005″ | NIST Traceable Standards |
| Flatness/Parallelism | 0.001″/in | 0.0002″/in | Optical Flats | |
| Environmental | Corrosion Resistance | 500h Salt Spray | 2000h Salt Spray | ASTM B117 Testing |
| Outgassing (TML/CVCM) | <1.0%/0.1% | <0.1%/0.01% | NASA ASTM E595 |
Finitions de Surface de Découpe au Laser
Nous proposons des finitions pour l'esthétique et la performance : anodisation, polissage, sablage, revêtements et traitement thermique. Trouvons celle qui convient !
Tel que usiné
Cette finition usinée est rugueuse et présente des marques d'outils, représentant la forme la plus basique de traitement de surface sans finition ni polissage supplémentaires.
Anodisation
"Il crée une couche d'oxyde protectrice sur l'aluminium, augmentant la résistance à la corrosion et la dureté, et permettant la teinture pour améliorer l'apparence."
Polissage
"Le polissage lisse les surfaces à un haut éclat, améliorant l'apparence et réduisant la rugosité tout en offrant une certaine protection contre la corrosion."
Finition Brossée
"Une finition brossée présente de fines lignes parallèles pour un aspect texturé, améliorant la prise et réduisant les empreintes digitales."
Sablage
Le sablage utilise de l'air à haute pression et des particules abrasives pour nettoyer ou texturer les surfaces, améliorant l'adhérence des revêtements.
Électropolissage
L'électropolissage est un processus électrochimique qui lisse et éclaircit les surfaces métalliques, éliminant les imperfections et améliorant la résistance à la corrosion.
Matériaux de Usinage de Précision : Métaux et Plastiques pour Composants Industriels
Matériaux d'Usinage de Précision : Titane, Inconel 718 et Laiton
D3 is a high carbon, high chromium tool steel known for its excellent wear resistance and ability to maintain a sharp edge. It is commonly used for cutting tools, dies, and industrial applications requiring high durability.
Subtypes:
- D3 (Standard)
- D3 Cold Work Tool Steel
Pre-Hardened Tool Steel
P21 is a pre-hardened tool steel that offers good machinability and wear resistance. It is ideal for making molds and dies, as it doesn’t require extensive heat treatment.
Subtypes:
- P21 (Standard)
- P21+ (Improved)
Hot Work Tool Steel
H11 is a hot work tool steel known for its toughness and thermal fatigue resistance. It is used in applications involving high temperatures, such as die casting and forging.
Subtypes:
- H11 (Standard)
- H11A (Modified for improved toughness)
Polyoxymethylene (Acetal)
POM is a high-performance engineering thermoplastic known for its low friction, high stiffness, and excellent dimensional stability. It’s widely used in precision parts and mechanical components.
Subtypes:
- POM-C (Copolymer)
- POM-H (Homopolymer)
Polyamide (Nylon)
PA is a versatile synthetic polymer known for its high strength, toughness, and excellent chemical and wear resistance, commonly used in textiles, automotive components, and industrial applications.
Subtypes:
- PA(Nylon) Blue
- PA6 (Nylon)+GF15 Black
- PA6 (Nylon)+GF30 Black
- PA66 (Nylon) Beige (Natural)
- PA66 (Nylon) Black
Polypropylene
PP is a lightweight, durable thermoplastic known for its chemical resistance and versatility. It is widely used in packaging, automotive parts, and consumer goods.
Subtypes:
- PP Homopolymer
- PP Copolymer
High-Density Polyethylene
HDPE is a strong and versatile thermoplastic known for its high strength-to-density ratio. It is commonly used in containers, piping, and plastic bottles.
Subtypes:
- HDPE (Standard)
- HDPE (Recycled)
Low-Density Polyethylene
LDPE is a flexible and durable thermoplastic known for its low density and high chemical resistance. It is often used in packaging films and bags.
Subtypes:
- LDPE (Standard)
- LDPE (Recycled)
Polycarbonate
PC is a strong, impact-resistant thermoplastic known for its clarity and heat resistance. It is commonly used in eyewear lenses, safety equipment, and electronic components.
Subtypes:
- PC (Standard)
- PC (Flame Retardant)
High-Impact Polystyrene
HIPS is a tough and impact-resistant thermoplastic known for its ease of processing and good surface finish. It is commonly used in consumer products and packaging.
Subtypes:
- HIPS (Standard)
- HIPS (Recycled)
Polybutylene Terephthalate
PBT is a thermoplastic engineering polymer known for its excellent mechanical properties and chemical resistance. It is often used in automotive and electrical applications.
Subtypes:
- PBT (Standard)
- PBT (Reinforced)
Polyamide-imide
PAI is a high-performance thermoplastic known for its excellent thermal stability and mechanical properties. It is used in high-temperature applications and aerospace components.
Subtypes:
- PAI (Standard)
- PAI (Filled)
High-Speed Steel
M2 is a high-speed steel known for its high hardness, wear resistance, and ability to retain hardness at elevated temperatures. It is commonly used for cutting tools and drills.
Subtypes:
- M2 (Standard)
- M2 (Coated)
High-Speed Steel
HSS is a high-performance tool steel known for its ability to cut at high speeds without losing hardness. It is widely used in manufacturing cutting tools.
Subtypes:
- HSS (Standard)
- HSS (Coated)
Polyether Ether Ketone
PEEK is a high-performance thermoplastic known for its excellent chemical resistance and thermal stability. It is used in specialized applications such as aerospace and medical devices.
Subtypes:
- PEEK (Standard)
- PEEK (Reinforced)
Polymethyl Methacrylate
PMMA is a transparent thermoplastic known for its clarity and UV resistance. It is commonly used as a lightweight alternative to glass in various applications.
Subtypes:
- PMMA (Standard)
- PMMA (Impact Resistant)
Polytetrafluoroethylene (Teflon)
PTFE is a high-performance fluoropolymer known for its non-stick properties and chemical resistance. It is widely used in coatings, seals, and gaskets.
Subtypes:
- PTFE (Standard)
- PTFE (Filled)
