CNC Turning Services in Gurugram for Shafts, Bushes, Threads, and Repeat Job Work
Use this page when the part is rotational, batch-based, and needs controlled diameters, shoulders, threads, or concentric features. This is the tighter route between a general machine-shop query and a precise production RFQ.
When this service page is the right fit
CNC turning is usually the correct route when the drawing revolves around diameters, shoulders, grooves, threads, or concentric features that need to stay consistent across repeat batches. Buyers often begin on a broad machine shop page, but the requirement becomes clearer once the part is identified as a turned component.
Typical jobs include shafts, spacers, sleeves, threaded adapters, bushes, pins, rollers, and turned blanks for downstream milling or grinding. If the part needs prismatic faces, slotting, or pocketing after turning, the next route is usually CNC milling. If the drawing is inspection-heavy with tighter critical features, it often overlaps with precision machining.
For Gurgaon, Manesar, and Delhi NCR buyers, this page should represent the exact CNC turning intent: repeatable production, predictable geometry, and process control that is tighter than general job work but more specific than a broad workshop overview.
CNC turning capability snapshot
The strongest version of this page is not just “we do CNC turning.” It should explain what kind of turned work is a fit, how the process is controlled, and what a buyer can expect from the route.
Feature Control
Best suited to turned diameters, steps, grooves, threads, tapers, and concentric features on repeat jobs.
Inspection Discipline
Critical dimensions are checked against the supplied drawing through first-piece review and in-process verification.
Material Range
Common batches include carbon steel, alloy steel, stainless steel, brass, aluminum, and engineering plastics.
Production Fit
Useful for repeat job work, ongoing batch support, and turned parts that need stable output over time.
CNC turning capability at a glance
Reference figures for standard production jobs at our Gurugram workshop. Contact us with your drawing for job-specific confirmation.
| Parameter | Standard | Precision |
|---|---|---|
| Diameter tolerance | ±0.05mm | ±0.01–0.02mm |
| Surface finish (Ra) | 1.6–3.2µm | 0.8µm achievable |
| Concentricity | 0.05mm TIR | 0.01–0.02mm TIR |
| Thread tolerance | 6H / 6g standard | Close-fit on request |
| Max swing (approx.) | ~250–300mm | Job-specific |
| Materials | MS, alloy steel, SS, Al, brass | Same + engineering plastics |
| Typical lead time | 3–5 working days | As agreed on drawing |
Typical CNC turning jobs we support
Most CNC turning enquiries from Gurgaon and Manesar fall into one of these part families. If your drawing matches, this is the right route for your RFQ.
Production shafts, stepped shafts, and turned rollers
Sleeves, bushes, and press-fit cylindrical parts
Threaded adapters, studs, and custom fastener components
Spacers, collars, rings, and turned blanks for secondary operations
Pins, couplings, and small repeat components with shoulder control
Hydraulic, automotive, and general-engineering turned parts
How we keep CNC turning jobs consistent
Consistency is usually the buying reason behind this route. The process needs to show how the drawing becomes a stable repeat job instead of one-off machining.
01
Drawing Review
We study diameters, shoulders, thread callouts, finish expectations, and material before tooling is finalized.
02
First-Piece Logic
A first part is checked against the drawing so the batch starts from a verified setup rather than assumption.
03
In-Process Checks
Repeat dimensions are monitored during the run so feature drift is caught before it affects the batch.
04
Batch Release
Finished lots are reviewed for the critical dimensions that matter to fit, assembly, and repeat use.
Related machining services from our Gurgaon workshop
CNC turned parts often need a follow-on process — milling, precision inspection, or tooling support. These pages cover those adjacent capabilities.
All Services Hub
Compare CNC turning against the broader service architecture.
Machine Shop Gurgaon
The broad machine-shop overview for buyers evaluating overall in-house machining capability.
Precision Machining Services
Inspection-led machining for fit-critical parts, tighter tolerances, and controlled feature verification.
CNC Milling Services
Profile milling, hole-pattern machining, pocketing, and plate or housing work for prismatic industrial parts.
Grinding Services Gurgaon
Cylindrical grinding and surface grinding job work for shafts, die plates, and hardened components requiring tight finish tolerances.
Facilities & Quality Inspection
Capability, inspection, and process-control overview for buyers qualifying the workshop.
CNC Turning FAQ
What CNC turning tolerances can you hold in Gurugram?
Our CNC turning setup routinely holds tolerances of ±0.02mm on standard production jobs and tighter on inspection-critical features where drawing requirements demand it.
What materials do you machine on the CNC lathe?
We work with mild steel (EN8, EN24), alloy steel (EN31, 42CrMo4), stainless steel (SS304, SS316), aluminium, brass, copper, and engineering plastics depending on the part requirement.
Can you handle CNC turning job work for suppliers near IMT Manesar?
Yes. Our workshop in Sector 18, Sarhol is about 10–15 km from IMT Manesar and we regularly support Tier-1 and Tier-2 suppliers in the Manesar industrial belt.
What is the typical lead time for CNC turning job work in Gurgaon?
Most standard CNC turning batches are scheduled within 3–5 working days depending on complexity and material availability. Urgent jobs can often be prioritised — call us to discuss.
Do you offer repeat batch CNC turning with consistent quality?
Yes. Repeat production is a core use case. We use first-piece inspection and in-process checks to ensure dimensional consistency across each batch.
What surface finish is achievable on CNC turned parts?
Standard turning achieves Ra 1.6–3.2µm. With finishing passes and correct tool selection we achieve Ra 0.8µm on critical bore and shaft surfaces where surface quality matters.