Steel Material CNC Machining Parts Hydraulic Fittings with ±0.002~0.005mm Tolerance and ISO9001 Certified
Supplier of precision Steel CNC Machining Parts and Hydraulic Fittings with comprehensive engineering support and quality assurance.
| Product Name | CNC Machining Parts |
|---|---|
| Material Available | Steel |
| Processing | CNC |
| Tolerance | ±0.002~0.005mm |
| Drawing Accepted | IGES(igs), STEP(stp), SolidWorks (sodprt), PRT, AutoCad, or Samples |
| Inspection | CMM, Projector, Height Gauge, etc. |
| Lead Time | 7~35 working days |
| Quality Assurance | ISO9001:2015, SGS, RoHs |
| Payment Term | MoneyGram, Western Union, T/T, D/P, D/A, L/C |
| Price | According to your drawing or requirements |
| Engineer Support | Available for engineering assistance and drawings design |
| Packaging | Bubble and Carton or Customization |
|---|---|
| Port | Shenzhen |
CNC machining parts refer to components produced using CNC machines, which are operated by pre-programmed computer software. These machines can process a wide range of materials, including metals (aluminum, steel, titanium), plastics (acrylic, POM, ABS), and composites, to create intricate and high-precision parts. CNC machining is ideal for producing both one-off prototypes and high-volume production runs.
CNC machining allows for incredibly precise manufacturing. The computer-controlled process ensures consistent and repeatable results, with tolerances as tight as a few microns. This makes CNC machining an ideal choice for industries that require exacting standards, such as aerospace, medical, and automotive manufacturing.
CNC machines can produce parts with intricate shapes, cavities, and features that would be impossible or very difficult to achieve with traditional manual machining methods. This capability makes CNC machining the preferred choice for producing complex components.
CNC machining can handle a wide variety of materials, including metals, plastics, and composites. The ability to work with different materials and create a range of part shapes and sizes makes CNC machining a versatile solution for many industries.
Once the design is programmed, CNC machines can run autonomously with minimal human intervention. This leads to faster production times, especially for high-volume runs. CNC machining can handle large production volumes without compromising on quality, making it a cost-effective solution for both small and large-scale manufacturing.
Aerospace components require the highest levels of precision. CNC machining is used to produce parts like turbine blades, airframes, and engine components. These parts often have complex geometries and must meet strict tolerances to ensure safety and performance.
CNC machining is widely used to manufacture engine components, transmission parts, suspension systems, and precision fittings. The automotive industry relies on CNC machining for producing high-performance parts that require durability and precision.
In the medical field, CNC machining is used to produce surgical instruments, implants, and diagnostic equipment. These parts require stringent quality control to meet regulatory standards and patient safety requirements.
CNC machining is also used to create parts for electronic devices, such as housings, connectors, and heat sinks. The accuracy of CNC machining ensures that electronic components fit perfectly and perform optimally.
- Manufacturability Review: Identification of potential production issues
- Cost Reduction Analysis: Alternative approaches, material optimization
- Tolerance Analysis: Statistical tolerance stacking, specification review
- Fixture/Tooling Design: Custom workholding solutions for complex parts
- Process Optimization: Sequencing, tool selection, cycle time reduction
- CAD Software: SolidWorks, CATIA, UG/NX, Autodesk Inventor, AutoCAD
- CAM Software: Mastercam, HyperMILL, PowerMILL, CATIA, UG/NX
- Simulation: Virtual machining verification, collision detection, material removal simulation
- Reverse Engineering: 3D scanning (laser, structured light) to CAD model conversion
- Prototyping: Rapid prototyping support via 3D printing for design validation
- Finite Element Analysis: Stress, thermal, modal analysis for component optimization
- Fluid Dynamics: Flow analysis for manifolds, fluid system components
- Thermal Analysis: Heat sink performance, thermal management solutions
- Drafting & Documentation: Creation of manufacturing drawings, GD&T application
| Production Type | Standard Lead Time | Expedited Options | Factors Affecting Lead Time |
|---|---|---|---|
| Prototype (1-10 pcs) | 5-15 business days | 3-5 days (+30-50%) | Material availability, complexity, fixturing |
| Low Volume (10-100 pcs) | 10-25 business days | 5-10 days (+25-40%) | Tooling requirements, secondary operations |
| Medium Volume (100-1,000 pcs) | 3-5 weeks | 2-3 weeks (+20-35%) | Production scheduling, capacity |
| High Volume (1,000+ pcs) | 6-12 weeks | 4-8 weeks (+15-30%) | Material procurement, dedicated production runs |
| Large Parts (>1m dimension) | 4-10 weeks | 3-6 weeks (+25-50%) | Special handling, machine availability |
- Standard Packaging: Poly bags with desiccant in partitioned cartons
- ESD-Sensitive: Antistatic bags, conductive foam, static-dissipative containers
- Cleanroom Packaging: Double-bagged, cleanroom compatible materials
- VCI Protection: Volatile corrosion inhibitor papers/films for ferrous metals
- Custom Fixturing: CNC-machured foam inserts, custom racks, reusable containers
- International Shipping: Export-rated crates, climate-controlled options available
- Global Shipping: Relationships with major carriers (DHL, FedEx, UPS)
- Export Documentation: Commercial invoice, packing list, certificate of origin
- Compliance Documentation: Material certifications, RoHS/REACH declarations
- Inventory Management: Consignment stock, bonded warehousing, kanban systems
- Just-In-Time Delivery: Scheduled deliveries aligned with production schedules
Get in Touch
Have questions about our products or want to discuss a custom order? Our team is ready to help you.