Oversized Structural Components
Large support structures, mounting bodies, equipment components, and custom industrial parts.
Large-Format CNC Machining
Large-Format CNC Machining for Oversized Components, Plates, Molds, and Equipment Parts
EASEMFG supports CNC machining for larger structural components, oversized plates, tooling parts, molds, equipment bases, and industrial machine components. Maximum machining size reference is 2000 x 900 x 800 mm, with feasibility reviewed according to final drawing, material, geometry, and clamping method.
2000 mm
Maximum X-axis machining size reference.
900 mm
Maximum Y-axis machining size reference.
800 mm
Maximum Z-axis machining size reference.
Drawing Review
Actual feasibility depends on material, geometry, setup, and inspection requirements.
When Large-Format CNC Machining Is Needed
Oversized Structures
Suitable for larger aluminum or steel structures, equipment frames, and industrial base parts.
Large Plates
Useful for large mounting plates, fixture plates, machine panels, tooling plates, and custom-sized flat parts.
Molds and Tooling
Supports mold-related machining, tooling bases, fixture blocks, and industrial tooling components.
Setup Planning
Large parts require early review of clamping, tool access, deformation risk, and inspection method.
Typical Large-Format CNC Machined Parts
Large-format machining is selected when part size, setup space, rigidity, or fixture planning becomes a key project factor.
Large Plates and Panels
Fixture plates, base plates, machine panels, custom plates, and precision flat components.
Mold and Tooling Parts
Mold bases, tooling blocks, large fixture parts, and machining preparation components.
Large-Format Machining Project Review Focus
Large parts should be reviewed before quotation to avoid setup, deformation, transport, and inspection risks.
| Review Item | Why It Matters | Typical Check Points |
|---|---|---|
| Part Size | Large size affects machine selection, fixture planning, and tool reach. | Overall length, width, height, machining allowance, setup direction. |
| Material and Rigidity | Large plates or structures may deform during clamping or machining. | Aluminum, steel, stainless steel, plate thickness, rib structure, stress release. |
| Clamping and Datum | Stable datum planning is required for large parts and repeated operations. | Datum surfaces, support points, fixture method, flatness control. |
| Inspection Method | Oversized components may require practical measurement planning. | Critical dimensions, hole positions, flatness, perpendicularity, assembly interfaces. |
Note: 2000 x 900 x 800 mm is a machining size reference. Final feasibility, tolerance control, surface finish, lead time, and inspection method should be confirmed according to the final CAD file, 2D drawing, material, and project quantity.
Need Large-Format CNC Machining?
Send your CAD file, drawing, material requirement, quantity range, tolerance notes, and surface finishing needs. EASEMFG can review whether the part is suitable for large-format CNC machining.
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