Take on production challenges with CNC Lathe Machining in Olympia, WA, designed for precision, consistency, and real-world workflow efficiency. Roberson Machine Company helps reduce downtime, scrap, and tooling bottlenecks by building processes that repeat cleanly at scale. Contact us online or call 573-646-3996 to learn more about Olympia, WA, CNC lathe machining and coordinate your next release.
Learn more about:
- How CNC lathes support production-ready components
- How turning and multi-axis machining combine in a single workflow
- Our Doosan Puma TT1800SY multi-turret, multi-spindle turning capability
- Industries and applications that depend on turned features at scale
- Examples of real components manufactured at volume
- How to initiate a CNC turning or multi-axis machining project with our team
Roberson Machine Company provides the machining technology, process expertise, and production capacity needed to support long-term runs with predictable quality and stable unit cost.
Table of Contents
- The Importance of Lathe Machining in the CNC Production Process
- CNC Lathe Operations & Multi-Axis Machining
- Industries & Applications Supported by CNC Lathe Machining in Olympia, WA
- Doosan Puma TT1800SY: Multi-Turret, Multi-Spindle Lathe for High-Throughput Production
- Frequently Asked Questions
- Why Us for CNC Lathe Machining in Olympia, WA?
Check out our reviews, case studies, blog, and FAQs to see real machining outcomes and production details. For 20+ years, we’ve helped companies convert drawings into repeatable, production-ready parts using Olympia, WA, CNC lathe machining and multi-axis machining.
The Importance of Lathe Machining in the CNC Production Process
CNC machining powers modern manufacturing, with CNC lathes producing rotational components with consistent geometry and controlled surfaces. When tools, offsets, feeds, and inspection steps are dialed in, CNC turning holds the diameters, bores, threads, and sealing surfaces that downstream CNC milling and assembly rely on.
Modern CNC lathes equipped with bar feeding, live tooling, and multi-spindle layouts can cut, drill, tap, and finish in a single setup—reducing handoffs, minimizing variation, and keeping production on schedule.
Olympia, WA, CNC Lathe Operations & Multi-Axis Machining
Turning and milling complement each other in multi-axis machining. The lathe establishes core geometry—accurate diameters, concentric relationships, and functional surfaces—while milling adds pockets, flats, slots, and 3D features that aren’t possible on a spindle-driven machine alone. This workflow keeps features aligned, reduces secondary setups, and helps decrease manufacturing downtime.
We CNC metals, alloys, stainless steels, aluminum, titanium, and production-grade polymers. Horizontal turning centers, bar feeders, live tooling, and multi-axis capability allow us to complete many parts in a single setup and maintain accuracy from the first article through every release.
- Hard turning: Optimized tool paths for hardened steels and finishing operations.
- Long turning capacity: Horizontal turning up to 48″ when geometry allows.
- Live-tool capability: All drilling, tapping, and milling completed without a second setup.
- Short, predictable lead times: Predictable cycles with automation that keeps jobs flowing.
CNC lathe machining in Olympia, WA, stands out as one of the most versatile CNC machining methods when accuracy, concentricity, and efficient output matter most.
Industries & Applications Supported by Olympia, WA, CNC Lathe Machining
CNC lathe machining plays a central role in production across medical, aerospace, automation, and high-throughput industrial environments. The industries below rely on accurate diameters, bores, threads, and stable concentric features—along with examples of the components we’ve produced at volume.
- Medical & Pharmaceutical Production: Precision valve bodies, microscope components, acrylic instrument parts, plus other small turned assemblies.
- Industrial Automation & Robotics: Cylindrical tooling, bushings, guides, and end-of-arm tooling built for consistent repeatability.
- Aerospace: Housings, couplings, sleeves, and other concentric components that require stable finishes and verified geometry.
- Military & Defense: Threaded hardware, sleeves, connectors, and precision-machined rotary components produced for high-performance defense environments.
- Automotive & EV: Shafts, pins, bushings, and drive shaft components produced at scale with consistent dimensional results.
- Food & Beverage: Stainless rollers, spindle components, and sanitary turned parts designed for washdown environments.
- Packaging & Production Lines: Ink rollers, guide shafts, and other cylindrical tooling used in nonstop, high-throughput equipment.
- Energy & Power Generation: Valve components, manifolds, and turned parts made to tolerate pressure, wear, and tough service cycles.
Across industries in Olympia, WA, CNC lathe machining holds dimensional relationships, surface quality, and predictable unit cost from one run to the next. If you’re preparing new releases or expanding an existing product, our team can help review drawings, map the workflow, and define a clear path to production. See our team, reach out online, or call 573-646-3996 to discuss your next project.
Doosan Puma TT1800SY: Multi-Turret, Multi-Spindle Lathe for High-Throughput Production
To expand its turning capacity, Roberson Machine Company now runs the Doosan Puma TT1800SY — a multi-turret, multi-spindle turning center built for precise, high-throughput machining. The machine combines roughing, finishing, drilling, tapping, and milling into a single cycle to keep features aligned and minimize handling.
Main–sub spindle transfer, parallel cutting, and bar-fed workflows make it a strong match for two-sided or multi-op parts that must maintain accurate relationships from operation to operation. Its layout supports high-throughput workloads with stable, predictable cycle times.
Key Specifications & Capabilities
This spec set covers the TT1800SY features that impact real production workflows: spindle speed and torque, bar capacity, travel envelopes, and the live-tooling and handoff systems that reduce setup count and stabilize cycle times.
TT1800SY Technical Overview
| Category | Specification | Value | Why It Matters |
|---|---|---|---|
| Capacity | Swing Over Bed | 9.1″ | Envelope for small to mid-sized turned components. |
| Recommended Turning Diameter | 8.3″ | Sweet spot for production work on this platform. | |
| Max. Turning Diameter (Upper / Lower) | 9.1″ / 9.1″ | Handles symmetrical turning on both turrets. | |
| Bar Working Diameter | 2.6″ | Supports steady bar-fed production for many shaft-style parts. | |
| Axis Travels | X-Axis Rapid Traverse | 787 IPM | Reduces non-cutting time between features. |
| Z-Axis Rapid Traverse | 1,575 IPM | Keeps cycle times down on longer parts. | |
| X1 / X2 Travel | 6.5″ / 7.5″ | Room for twin-turret work on complex parts. | |
| Y-Axis Travel | 3.9″ | Enables off-center milling and drilling operations. | |
| Z1 / Z2 / A Travel | 27.6″ / 28.4″ / 30.3″ | Supports front- and back-working on longer components. | |
| Spindles | Main Spindle Speed | 5,000 RPM | Good balance of metal removal and finish capability. |
| Main Spindle Power / Torque | 29 HP · 154 ft-lbs | Supports heavy cuts while maintaining surface quality. | |
| Sub Spindle | 5,000 RPM · 29 HP | Full-power back-working and accurate part handoff. | |
| Turret & Live Tooling | Tool Stations | 12 stations per turret | Plenty of room for turning, drilling, and milling tools. |
| Turret Index Time | 0.15 sec | Fast indexing keeps chips flowing. | |
| Max Rotary Tool Speed | 5,000 RPM (7.5 / 1.5 HP motor) | Handles most drilling, tapping, and light milling work at the spindle. | |
| Footprint | L × W × H | 154″ × 89″ × 82″ | Compact floor space for a full twin-spindle, twin-turret lathe. |
| Machine Weight | ≈ 19,400 lbs | Mass and rigidity for stable cutting and better finishes. |
This configuration supports one-and-done machining for small to mid-sized components—maintaining concentricity, clean shoulder transitions, sealing surfaces, and multi-op geometry across every production run.
What the Puma TT1800SY Unlocks for Olympia, WA, CNC Lathe Machining & Production
In practice, the TT1800SY boosts production by tightening geometric control and eliminating setup transitions that normally add cost and variation. Key advantages include:
- Shorter part flow: Pulls multiple setups into one streamlined, uninterrupted cycle.
- Cleaner feature relationships: Keeps diameters, bores, and milled geometry tied to the same centerline.
- Better performance on two-sided parts: Accurate spindle handoff reduces variation on mirrored and back-worked features.
- Fewer fixtures and handling steps: Lowers stack-up error and minimizes opportunities for dimensional drift.
- More predictable scheduling: Predictable cycle times support better release forecasting and tooling management.
- Efficient volume scaling: Bar-fed throughput and balanced cutting stabilize output during extended production runs.
Whether you’re producing shafts, bushings, housings, sleeves, couplings, or multi-op turned/milled components, the Puma TT1800SY supports rapid moves from prototype to production with reliable, repeatable output, reinforcing its role in Olympia, WA, CNC lathe machining.
Need to validate a part on the new system? Contact us online or call 573-646-3996 to see how the Puma TT1800SY can strengthen your workflow and help reduce production delays.
Frequently Asked Questions
When planning CNC lathe workflows, the main questions tend to center on part fit, lead time, and how turning connects with the rest of your build. These FAQs outline the points that matter when shifting from prototypes or single runs to production-grade CNC lathe machining in Olympia, WA.
What types of parts are a good fit for CNC lathe machining in Olympia, WA?
CNC lathes are built for rotationally symmetric parts with diameter and concentricity requirements. Typical candidates include:
- Shafts, pins, and bushings
- Housings, sleeves, and couplings
- Valve bodies and manifolds with critical sealing surfaces
- Rollers and cylindrical tooling for automation and packaging
- Turned parts that also need milled flats, slots, or drilled features
When high-volume runs rely on consistent diameters, shoulders, and threads, CNC lathe machining becomes the foundation of the workflow.
How does a multi-turret, multi-spindle lathe change production compared to a standard lathe?
Multi-turret, multi-spindle systems allow much more work to be done in a single cycle without relying on several machines and setups. That means:
- Front- and back-working (two-sided parts) completed in one continuous process
- Roughing and finishing handled in parallel rather than in separate runs
- Fewer fixtures and handling steps, which lowers stack-up error
- More stable cycle times as volumes increase
For the kinds of turned parts that normally require multiple handoffs, a machine like the Puma TT1800SY turns that into a one-and-done workflow.
What do you need to quote a CNC lathe machining project?
Clear engineering intent makes quoting easier and leads to smoother production. Helpful inputs include:
- Current drawings with tolerances and any critical feature callouts
- Material and finish requirements
- Target quantities (per release and annual volume)
- Expected delivery cadence or release schedule
- Any inspection, documentation, or packaging requirements
If parts of the package are still evolving, we can begin with provisional prints and refine everything before confirming production pricing.
What tends to drive cost on CNC lathe machined parts in Olympia, WA?
Piece price on lathe-machined parts typically reflects setup effort, cycle time, and the chosen material. Common cost drivers include:
- Complex workholding or multiple setups that could be consolidated
- Very tight tolerances or surface finish requirements on multiple features
- Challenging materials (hard alloys, difficult chip control, or long overhangs)
- Heavy interruption from milling, cross-holes, or deep drilling operations
- Small lot sizes that repeat tooling and setup time too often
Upfront conversations about tolerances, material choices, and functional needs often highlight ways to maintain cost and lead time within a practical range.
How do you maintain repeatability across large lots and repeat releases?
Repeatability is achieved by locking the entire process, not only the first cycle. Typical controls include:
- Standardized fixturing and workholding for the entire workflow
- Documented tool lists, offsets, and tool life management
- In-process checks on critical diameters, bores, and threads
- Final inspection routines tied to print requirements
- Lot records that tie parts, dates, and inspection data together
Once a lathe workflow proves out, those controls maintain consistency from the first article through every release.
When should Olympia, WA, CNC lathe work be combined with milling or other processes?
Many components run best when turning sets the core geometry while other processes add the remaining features. That often looks like:
- Lathe operations setting diameters, shoulders, and critical bores
- Live-tool work or downstream milling adding flats, keyways, pockets, or patterns
- Secondary processes (EDM, grinding, or honing) reserved for features that truly need them
Reviewing the full print and functional requirements early on makes it simpler to choose what belongs on the lathe and what should move to another process.
Why Choose Us for Olympia, WA, CNC Lathe Machining?
Roberson Machine Company offers the process control, equipment, and production experience needed to achieve reliable, repeatable CNC lathe machining in Olympia, WA. We back long-term production schedules with stable workflows and tooling strategies that help keep releases on schedule.
- Turning processes structured to hold the diameters, bores, threads, and sealing features your assemblies require
- Fast, single-setup machining using bar feeding, live tooling, and multi-spindle capability
- Steady dimensional consistency from the first article through repeat releases
- Material flexibility working across stainless, aluminum, alloys, titanium, and production-grade polymers
- Workflows built to reduce scrap, tooling delays, and downstream variation for predictable scheduling
Our core services include:
- Custom CNC Machining for Part Production
- CNC Machine Automation
- Oil and Gas Precision Machining
- Aerospace Manufacturing
- Automotive Part Manufacturing
- EDM Machining
- High Volume CNC Machining
- Industrial Automation
- Solar Panel Manufacturers
Roberson Machine Company supports new releases, scaled production, and ongoing CNC lathe machining workflows. Explore our team and capabilities, request a quote online, or call 573-646-3996 to talk about the benefits and opportunities available with Olympia, WA, CNC Lathe Machining.