Usinage Multi-Axes (3 axes, 4 axes, 5 axes) | SSP
MW+ propose un usinage CNC multi-axes (3-4-5 axes) de haute précision pour des pièces complexes. Délai d'exécution rapide. Tolérances strictes. Fiable pour les secteurs aérospatial, médical et automobile.
Multi-Axis CNC Machining: Precision Components in 3, 4, and 5 Axes
What Is Multi-Axis Machining?
Multi-axis CNC machining is an advanced manufacturing process that allows simultaneous movement of cutting tools along multiple axes—3-axis, 4-axis, and 5-axis—to produce complex, high-precision parts with tight tolerances. By enabling rotational and angular movements in addition to linear X, Y, and Z axes, multi-axis machining can create intricate geometries, undercuts, angled surfaces, and contoured profiles that are difficult or impossible with standard CNC methods.
This process is widely used for aerospace components, automotive parts, medical devices, molds, dies, and precision engineering parts, delivering both efficiency and accuracy in prototyping and production.
Caractéristiques Clés et Avantages
3-Axis Machining – Moves along X, Y, and Z axes; ideal for simple prismatic parts and flat surfaces. Accuracy up to ±0.01 mm.
4-Axis Machining – Adds rotational motion around the X-axis (A-axis), allowing features like slots, pockets, and angled cuts. Suitable for small batch production with cycle times 20–30% faster than sequential setups.
5-Axis Machining – Provides simultaneous movement along X, Y, Z axes plus A and B rotational axes. Enables complex surfaces, free-form contours, multi-sided machining in a single setup. Tolerance as tight as ±0.005 mm, surface finish Ra 0.4 μm achievable.
Complex Geometry Capability – Undercuts, curved surfaces, deep pockets, and compound angles can be machined efficiently.
Material Flexibility – Metals (aluminum, stainless steel, titanium, brass, copper alloys) and high-performance plastics (PEEK, PTFE, POM, ABS).
MW+: Your Multi-Axis Machining Partner
MW+ provides professional multi-axis CNC machining services with strict ISO-certified quality control, advanced 3-axis, 4-axis, and 5-axis machining centers, and full inspection capabilities. We deliver high-precision, repeatable results for prototype, small-batch, and mass-production requirements.
Why Choose MW+
Full multi-axis capabilities with tolerances up to ±0.005 mm
Surface finishes as smooth as Ra 0.4 μm for critical applications
Engineering support for design optimization, toolpath planning, and material selection
Efficient turnaround and consistent quality for both domestic and international clients
Usinage CNC Axial | Tolérances de ±0,0005" |
Nous proposons des services avancés d'usinage CNC 3, 4 et 5 axes pour des projets de toutes complexités. De la création de prototypes à la production, nous usinons des composants avec la haute précision et l'efficacité que votre secteur exige.
Nos Capacités :
Fraisage 3 Axes : Fiable et précis pour des pièces standard.
Usinage 4 Axes : Ajoute une rotation pour des caractéristiques complexes sur des cylindres et plusieurs faces de pièces.
Usinage Simultané 5 Axes : Pour les géométries les plus complexes, permettant un contournage complexe et réduisant les temps de configuration.
Excellence Technique :
Nous usinons une large gamme de matériaux, y compris l'aluminium, le titane, les aciers inoxydables et les plastiques techniques, en maintenant des tolérances standard de ±0,0005″ et en gérant des pièces allant jusqu'à 50″ x 30″ x 28″.
Certified Quality:
Our commitment to quality is verified by key certifications, ensuring reliability for critical applications:
AS9100 / ISO 9001 (Aéronautique & Qualité)
ISO 13485 (Dispositifs Médicaux)
Enregistré auprès de l'ITAR
Accréditation NADCAP pour l'Inspection
Nous sommes un partenaire de confiance pour les industries aérospatiale, médicale et automobile, alliant des décennies d'expertise à une technologie de pointe.
Contactez-nous pour discuter de la manière dont nos capacités d'usinage multi-axes peuvent apporter précision et valeur à votre prochain projet.
Services d'Usinage Multi-Axes de Précision : Solutions CNC de 3 à 5 Axes
3x-axis
Fraisage 3 axes pour des géométries complexes en 2,5D. Atteignez des tolérances de ±0,01 mm dans l'aluminium, l'acier et les plastiques.
4x-axis
Fraisage indexé à 4 axes pour une précision continue sur plusieurs faces. Usinez des contours complexes et des caractéristiques angulées (±0,008 mm) sans repositionnement.
5x-axis
Le véritable fraisage 5 axes est un usinage simultané pour des composants de qualité aérospatiale. Atteignez des tolérances de ±0,005 mm sur des formes organiques complexes.
Les Matériaux que nous fournissons pour nos services multi-axes
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)
Tolérance pour les Services d'Usinage Multi-Axes
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 |
|---|---|---|---|---|
| Machine Accuracy | Positional Accuracy | ±0.0015″ (3-axis) | ±0.0003″ (5-axis) | Laser Tracker (ISO 230-2) |
| Volumetric Accuracy | ±0.003″ (per ft³) | ±0.0005″ (per ft³) | Ballbar Testing (ISO 230-4) | |
| Tooling Performance | Tool Deflection | <0.002″ @ 10:1 L:D | <0.0005″ @ 20:1 L:D | Strain Gauge Measurement |
| Tool Change Repeatability | ±0.0004″ | ±0.0001″ | Dial Indicator Test | |
| Workholding | Fixture Repeatability | ±0.002″ | ±0.0005″ | CMM Probing (NIST Traceable) |
| Dynamic Clamping Force | 500 lbf (Hydraulic) | 1500 lbf (Pneumatic) | Load Cell Verification | |
| Surface Quality | Ra Surface Finish | 32 μin (End Mill) | 4 μin (Diamond Tool) | White Light Interferometry |
| Form Error (Freeform) | ±0.003″ | ±0.0005″ | 3D Laser Scanning | |
| Process Capabilities | Minimum Feature Size | 0.010″ (3D Contour) | 0.001″ (Micro-Milling) | SEM/ Optical Microscopy |
| Simultaneous Axis Sync | ±15 arc-sec (4th/5th) | ±3 arc-sec (5+ axis) | Rotary Encoder Feedback | |
| Thermal Stability | Thermal Drift (8hr) | ±0.001″/°C | ±0.0002″/°C | Laser Displacement Sensors |
| Coolant Temp Control | ±2°C (Flood Coolant) | ±0.5°C (Chiller System) | Thermocouple Logging | |
| Material Removal | MRR (Aluminum) | 15 in³/min | 50 in³/min (HSM) | Force Dynamometer |
| Hard Material Capability | HRC 45 (Steel) | HRC 65 (Ceramics) | Tool Wear Analysis (SEM) | |
| Dynamic Performance | Vibration Damping | 0.05 ζ (Structural) | 0.20 ζ (Active Control) | Modal Analysis (FFT) |
| Settling Time (Step Response) | 50 ms | 10 ms | High-Speed Encoder Tracking | |
| Metrology Integration | On-Machine Probing | ±0.0005″ (Touch Probe) | ±0.0001″ (Laser Probe) | Master Artifact Calibration |
| Real-Time Error Comp | 50% Error Reduction | 90% Error Reduction | Closed-Loop Feedback System |
