CNC Shaft Remake — Verified Precision From Sample

CNC Shaft Remake — Verified Precision From Sample

Controlled CNC remakes for alignment- and fit-critical shafts.

We produce new shaft remakes—not repairs—using dimensional verification from sample or legacy prints. Critical datums, concentricity, and fits are measured and recovered to eliminate misalignment and premature failure. The result is a predictable, install-ready component when downtime leaves no room for guesswork.

Request a Quote

Request a Quote

Request a Quote

CNC Remakes of Shaft Components

Shafts are commonly remade when damage, wear, or missing documentation makes repair unreliable or impossible. A full CNC remake allows clean datum recovery, verified geometry, and controlled tolerances—delivering a part that can be trusted at installation without hidden risks.

Drive shafts with worn or broken journals

Stepped shafts with multiple bearing and seal interfaces

Splined shafts requiring verified profile and alignment

Keyed shafts with torque-transfer features

Long shafts with straightness or runout requirements

Precision shafts with press-fit or slip-fit diameters

Custom shafts from obsolete or unsupported equipment

How We Control Accuracy in CNC Remakes

Accuracy comes from verified geometry and controlled machining—not patchwork fixes.

Re-establish primary datums to control length, runout, and concentricity

Maintain feature-to-feature alignment across journals, shoulders, and interfaces

Eliminate uncertainty caused by distortion, wear, or undocumented changes

Deliver predictable fit and function on first installation

Request a Quote

Request a Quote

When a CNC Remake Makes Sense

Clear indicators a remake is required:

Shaft is cracked, snapped, or permanently deformed

Alignment or sealing failures cannot be risked

Original drawing is missing, outdated, or unreliable

Component is obsolete or unsupported

Wear has altered critical diameters or shoulders

Prior fixes introduced cumulative dimensional error

Technical Capabilities

Materials

4140 and other alloy steels

1018 carbon steel

6061 aluminum

7075 aluminum

Tolerances

Controlled diameter and length tolerances

Recovered concentricity and runout

Verified shoulder and feature locations

Tolerances

True position on port patterns and critical bores routinely held to tight, production-grade limits

Flatness control on sealing and mounting faces down to 0.0005–0.001 in, application-dependent

Consistent, documented tolerances maintained across repeat batches and scheduled releases

Common Features

Dimensional measurement from sample or print

Datum-based inspection strategy

Documented verification prior to release

Request a Quote

Request a Quote

Frequently Asked Questions

What are your typical lead times?

What are your typical lead times?

What are your typical lead times?

What are your typical lead times?

What file types do you accept?

What file types do you accept?

What file types do you accept?

What file types do you accept?

What tolerances can you hold?

What tolerances can you hold?

What tolerances can you hold?

What tolerances can you hold?

What materials do you machine?

What materials do you machine?

What materials do you machine?

What materials do you machine?

What quantities do you support?

What quantities do you support?

What quantities do you support?

What quantities do you support?

Request a Fast Quote

We accept PDF, STEP, IGES, Parasolid, and SolidWorks files — NDAs welcome.

We accept PDF, STEP, IGES, Parasolid, and SolidWorks files — NDAs welcome.

T&D Machine

Serious Machining for Serious Parts.

Contact

Email: sales@tdmachine.net

Phone: (262) 781-3870

Location

Wisconsin, USA