Take on production challenges with CNC Lathe Machining in Boston, MA, 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 Boston, MA, CNC lathe machining and coordinate your next release.
Learn more about:
- How CNC lathes support production-ready components
- How turning and multi-axis machining integrate in one workflow
- Our Doosan Puma TT1800SY multi-turret, multi-spindle production capability
- Industries and applications depending on turned features at scale
- Examples of actual components produced at volume
- How to begin a CNC turning or multi-axis machining project with our team
Roberson Machine Company delivers machining technology, process expertise, and production capacity that keep long-term runs consistent in quality and 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 Boston, MA
- Doosan Puma TT1800SY: Multi-Turret, Multi-Spindle Lathe for High-Throughput Production
- Frequently Asked Questions
- Why Us for CNC Lathe Machining in Boston, MA?
Explore our reviews, recent case studies, the blog, and FAQs for real machining examples and production insight. For over two decades, we’ve supported companies with Boston, MA, CNC lathe machining and multi-axis machining that turn drawings into consistent, production-ready components.
The Importance of Lathe Machining in the CNC Production Process
CNC machining drives today’s manufacturing, and CNC lathes anchor the process by producing rotational components with consistent geometry and controlled surfaces. Once tools, offsets, feeds, and inspection steps are dialed in, CNC turning maintains the diameters, bores, threads, and sealing surfaces needed for downstream CNC milling and assembly.
Using bar feeding, live tooling, and multi-spindle layouts, modern CNC lathes cut, drill, tap, and finish in one setup—reducing handoffs, minimizing variation, and keeping production on schedule.
Boston, MA, CNC Lathe Operations & Multi-Axis Machining
Turning and milling work together in multi-axis machining. The lathe sets core geometry—accurate diameters, concentric relationships, and functional surfaces—while milling adds pockets, flats, slots, and 3D features you can’t achieve on a spindle-driven machine alone. This workflow keeps features aligned, reduces secondary setups, and helps cut manufacturing downtime.
We handle metals, alloys, stainless steels, aluminum, titanium, and production-grade polymers. Equipped with horizontal turning centers, bar feeders, live tooling, and multi-axis capability, we finish many parts in one setup and maintain accuracy from the first article through every release.
- Hard turning: Refined tool paths built for hardened steels and final finishing.
- Long turning capacity: Horizontal turning reach up to 48″ with the right geometry.
- Live-tool capability: Drilling, tapping, and milling handled in a single setup.
- Short, predictable lead times: Automation plus steady cycles keep lead times consistent.
Among modern approaches, CNC lathe machining in Boston, MA, remains a highly versatile CNC machining method when accuracy, concentricity, and efficient production drive the project.
Industries & Applications Supported by Boston, MA, CNC Lathe Machining
CNC lathe machining plays a key role in production for medical, aerospace, automation, and high-throughput industrial environments. These industries depend on accurate diameters, bores, threads, and stable concentric features—plus examples of components we’ve produced at volume.
- Medical & Pharmaceutical Production: Precision valve bodies, microscope components, acrylic instrument parts, along with other compact turned assemblies.
- Industrial Automation & Robotics: Cylindrical tooling, bushings, guides, and end-of-arm tooling crafted for predictable repeatability.
- Aerospace: Housings, couplings, sleeves, and other concentric components requiring stable finishes and validated geometry.
- Military & Defense: Threaded hardware, sleeves, connectors, and precision-machined rotary components used across defense applications.
- Automotive & EV: Shafts, pins, bushings, and drive shaft components produced at volume with reliable dimensional control.
- 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 high-speed, high-throughput equipment.
- Energy & Power Generation: Valve components, manifolds, and turned parts engineered to withstand pressure, wear, and demanding service cycles.
In every industry we serve in Boston, MA, CNC lathe machining preserves dimensional relationships, surface quality, and stable unit cost from run to run. If you’re launching a new release or scaling a current run, our team can review your drawings, map the process, and outline a workable production plan. Learn more about our team, connect online, or call 573-646-3996 to talk through your project.
Doosan Puma TT1800SY: Multi-Turret, Multi-Spindle Lathe for High-Throughput Production
To boost turning capacity, Roberson Machine Company now operates the Doosan Puma TT1800SY — a multi-turret, multi-spindle turning center engineered for speed and precision. It integrates roughing, finishing, drilling, tapping, and milling into a single cycle to keep features aligned and cut unnecessary handling.
Main–sub spindle transfer, parallel cutting, and bar-fed workflows make it ideal for two-sided or multi-op parts that require accurate relationships from one operation to the next. The layout handles high-throughput work while keeping cycle times stable and predictable.
Key Specifications & Capabilities
This spec set details TT1800SY features that shape real production workflows, from spindle speed and torque to bar capacity, travel envelopes, and the live-tooling and handoff systems that lower 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 enables one-and-done machining for small to mid-sized components, holding concentricity, clean shoulder transitions, sealing surfaces, and multi-op geometry on every run.
What the Puma TT1800SY Unlocks for Boston, MA, CNC Lathe Machining & Production
In production settings, the TT1800SY raises efficiency by tightening geometric control and eliminating setup transitions that can add cost and variation. Key advantages include:
- Shorter part flow: Turns multiple setups into a single, continuous production cycle.
- Cleaner feature relationships: Keeps diameters, bores, and milled geometry aligned on the same centerline.
- Better performance on two-sided parts: Precise spindle handoff limits variation across mirrored and back-worked features.
- Fewer fixtures and handling steps: Lowers stack-up error and minimizes opportunities for dimensional drift.
- More predictable scheduling: Consistent cycle times help forecast releases and manage tooling life.
- Efficient volume scaling: Bar-fed throughput and balanced cutting maintain steady performance in extended runs.
Whether you’re producing shafts, bushings, housings, sleeves, couplings, or multi-op turned/milled components, the Puma TT1800SY streamlines the shift from prototype to production with consistent, repeatable output, making it a key asset for Boston, MA, CNC lathe machining.
Have a part ready for validation on the new system? Connect online or call 573-646-3996 to explore how the Puma TT1800SY can strengthen your workflow and help reduce production delays.
Frequently Asked Questions
If you’re planning CNC lathe workflows, the important questions are usually about part fit, lead time, and how turning integrates with the rest of your build. These FAQs cover the details that matter when moving from prototypes or one-off runs into production-grade CNC lathe machining in Boston, MA.
What types of parts are a good fit for CNC lathe machining in Boston, MA?
CNC lathes perform best on rotationally symmetric components where diameters and concentricity are critical. 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 components repeat at scale and require stable diameters, shoulders, and threads, CNC lathe machining typically forms the backbone of the process.
How does a multi-turret, multi-spindle lathe change production compared to a standard lathe?
With multi-turret, multi-spindle equipment, more operations happen in one cycle instead of being split across multiple 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 turned components that often need multiple setups and handoffs, the Puma TT1800SY reduces it all to a single, uninterrupted workflow.
What do you need to quote a CNC lathe machining project?
Clear engineering intent produces stronger quotes and more predictable 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 specs are still shifting, we can review provisional prints and refine the package ahead of production pricing.
What tends to drive cost on CNC lathe machined parts in Boston, MA?
Piece price on turned parts generally comes from a combination of setup effort, cycle time, and 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
Discussing tolerances, materials, and functional requirements early on often reveals paths to keep cost and lead time under control.
How do you maintain repeatability across large lots and repeat releases?
Repeatability is driven by locking the full process, not simply the first run. 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 Boston, MA, CNC lathe work be combined with milling or other processes?
Many parts work best when turning handles the core geometry and other processes pick up 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
Going through the full print and functional requirements early helps identify what should live on the lathe and what fits better in another process.
Why Choose Us for Boston, MA, CNC Lathe Machining?
Roberson Machine Company offers the process control, equipment, and production experience needed to achieve reliable, repeatable CNC lathe machining in Boston, MA. We back long-term production schedules with stable workflows and tooling strategies that help keep releases on schedule.
- Turning processes built to maintain the diameters, bores, threads, and sealing features essential to your assemblies
- Quick, one-setup machining with bar feeding, live tooling, and multi-spindle capability
- Dimensional consistency from first article to every repeat release
- Material flexibility in stainless, aluminum, alloys, titanium, and production-grade polymers
- Workflows engineered 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 helps drive new releases, scaled production, and long-term CNC lathe machining workflows. Learn more via our team and capabilities, request a quote online, or call 573-646-3996 to discuss the benefits and opportunities that come with Boston, MA, CNC Lathe Machining.