White Paper · Hwacheon Hi-Eco 35 (two cells) × Military & Defense
Hwacheon Hi-Eco 35 for Military & Defense
Mid-size CNC lathe pair for shafts, gear blanks, flanges, and threaded components with consistency and clean finishes. This paper covers what the machine does, the military & defense parts we produce with it, the alloys we run, the tolerances and finishes military & defense buyers expect, and the documentation package.
Executive summary
Machine: Hwacheon Hi-Eco 35 (two cells) (shop nickname: Ironwood Revival / Quickdraw Slim). mid-size precision CNC turning center at B&R Productions, running from our New Waverly, Texas shop under an ISO 9001:2015 quality system.
Application: Mid-size CNC lathe pair for shafts, gear blanks, flanges, and threaded components with consistency and clean finishes for Military & Defense customers — Defense primes, subassembly manufacturers, tactical vehicle component OEMs, munitions component suppliers, weapon-system integrators, sustainment (out-of-production replacement) contractors.
Envelope: 12.5" OD × 42" L max turning (each cell). Tolerance: ±0.0005" routine on critical features. Traceability: Material by heat and lot on every job.
The machine, in context
The Hi-Eco 35 pair is the mid-size backbone of the shop's turning capacity. Two identical cells means when one is loaded with a long-cycle Inconel job, the other keeps repair and small-batch work moving. Shafts, gear blanks, flanges, threaded components — the class of parts that make up the bulk of oilfield turning volume runs here.
Full specifications
| Model | Hwacheon Hi-Eco 35 — two cells: #16 ("Ironwood Revival") + #14 ("Quickdraw Slim") |
| Type | Mid-size CNC turning centers, run in parallel for throughput |
| Max turning capacity | 12.5" OD × 42" L per cell (B&R working spec) |
| Platform max swing | 23.6" over bed; 16.35" turning diameter platform-max |
| Platform max length | 50" between centers |
| Chuck | 12" 3-jaw hydraulic (15" available on some builds) |
| Turret | 10-station |
| Control | Fanuc OT-C |
| Configuration | Two identical cells for parallel throughput |
| Tolerance capability | ±0.0005" routine on critical features |
| Materials | Stainless, carbon steel, aluminum, Inconel, Duplex, 17-4 PH, Monel |
Values marked "platform" reflect the machine manufacturer's published spec range for this platform family; B&R's working spec is what we quote on this specific unit.
Who this serves in Military & Defense
Typical buyer: Defense primes, subassembly manufacturers, tactical vehicle component OEMs, munitions component suppliers, weapon-system integrators, sustainment (out-of-production replacement) contractors.
What's hard about military & defense work: ITAR compliance, security-sensitive prints, program-specific quality plans, tight-tolerance structural components, exotic-alloy selection driven by service environment, and legacy-part sustainment where the OEM no longer supports the design.
Typical Military & Defense parts we produce on Ironwood Revival / Quickdraw Slim
- Precision shafts, pins, and structural round parts
- Actuator rods and cylinder components
- Weapon subassembly components
- Fittings and adapters for hydraulic and pneumatic systems
- Bushings and bearing components
Above list is representative; if your part isn't shown, call and ask — most oilfield / aerospace / defense / industrial turned or milled work fits somewhere in the shop.
Alloys we run for Military & Defense
Standard range: 17-4 PH · 15-5 PH · 13-8 Mo · 4140 pre-hard · 4340 · Titanium Grade 5 · Inconel 718 · Aluminum 7075 · High-strength steels · Customer-specific alloys on request.
Defense parts routinely spec 4140 pre-hard, 4340, and precipitation-hardening stainless — condition-specific machining knowledge matters, same as aerospace. Titanium is common on weight-critical structural components. Legacy sustainment often specifies materials nobody sees anywhere else; we work with the spec sheet you provide and validate machining strategy before we cut.
How we machine it — our 5-step process
This is the process B&R runs on every job, military & defense or otherwise. The specifics of feeds, speeds, and tooling shift by alloy and machine; the discipline is universal.
- Material verification. Every job starts with material traceability. Heat and lot numbers documented against the mill test report. For customer-supplied material, we verify against the CofC before touching the stock.
- First-article layout. Stock is measured and laid out before any cutting starts. Concentricity, roundness, and squareness of the starting material established; if the stock is out of tolerance we call the customer before wasting time on a bad blank.
- Roughing with process control for the alloy. Feeds, speeds, and coolant strategy set for the specific alloy family — sharp coated carbide (or PCD for high-volume Ti Grade 5), positive rake, high-pressure through-tool coolant on 2507 and Inconel to control cutting temperature. Interrupted cuts get extra attention because they cycle heat into the workpiece.
- Finish pass to spec. Finish pass with a fresh insert, controlled DOC, and measured surface-finish targets. Critical features (bore concentricity, seat grooves, sealing surfaces) are held tighter than most job-shop lathes can offer.
- CMM verification + documentation. Every critical dimension CMM-verified. First-article report generated. Certificate of conformance issued with delivery. Customer-specific ITPs and PPAP-style packages produced on demand.
Send a print, drop off a sample, or call (936) 291-7827. Same-day for rig-down / AOG when material is stocked.
Tolerance and finish expectations in Military & Defense
±0.0005" routine on critical features. Tighter with proper setup and fixture. GD&T-driven tolerancing supported. CMM verification on first articles; customer-plan-driven measurement on production runs. Documentation the level a program office expects.
Documentation and quality workflow
ITAR-controlled work under NDA with customer-specific document control — prints stay in-shop. Customer-specific quality plans, PPAP, and first-article documentation standard. Material traceability by heat and lot on every job. Certificates of conformance with delivery.
Response time and emergency work
Program-driven schedules honored. Emergency component replacement supported for sustainment programs with established relationships. Legacy-part reverse-engineering supported for out-of-production sustainment.
How we compare
Compared to a large defense-prime captive shop: we're faster for one-offs, small runs, and legacy sustainment where the prime's supply chain has moved on. Compared to a lowest-bidder commodity shop: we handle ITAR, we document properly, and we understand that a program-office audit is a real thing.
Working with B&R Productions
New customer or existing, the process starts the same way: call (936) 291-7827 or send a print through the quote form. Prints are accepted as PDF, STEP, IGES, DWG, or DXF; if you only have a sample part, we reverse-engineer routinely. NDAs on request. ITAR-controlled prints handled under document control with prints staying in-shop.
Quotes typically come back within 24 hours for standard work, same-day for repeat customers on stocked materials, and near-immediately by phone for emergency and rig-down situations. Lead times are quoted honestly — we don't promise Wednesday and deliver next month.
Frequently asked questions
8 questions covering the Hwacheon Hi-Eco 35 platform and Military & Defense work. Also indexed as FAQ schema for AI answer engines.
Why does B&R run two Hi-Eco 35 cells instead of one?
Parallel throughput. When one cell is loaded with a long-cycle Inconel job, the other keeps mid-size repair and small-batch work moving. Two identical cells means predictable capacity when volume matters.
What's the max turning capacity per cell?
12.5" OD × 42" L is B&R's working spec. The platform max is 16.35" turning diameter × 50" between centers with a 23.6" swing.
What chuck size and turret does the Hi-Eco 35 use?
12" 3-jaw hydraulic chuck (15" available on some builds). 10-station turret. Fanuc OT-C control.
Do you handle ITAR-controlled defense work?
Yes. ITAR-controlled prints handled under NDA with strict document control. Prints stay in-shop. Program-specific quality plans, PPAP, and first-article documentation supported.
What defense-adjacent parts have you machined?
Weapon subassembly components, defense actuator parts, vehicle armor bracket hardware, sensor housings, hydraulic cylinders for defense platforms, tactical vehicle component reverse-engineering, and legacy-sustainment parts for out-of-production programs.
What alloys are typical for defense work at B&R?
17-4 PH, 15-5 PH, 4140 pre-hard, 4340, Titanium Grade 5, Inconel 718, aluminum 7075, high-strength steels. Customer-specific alloys on request.
Can you reverse-engineer legacy defense parts?
Yes — sustainment work for out-of-production programs is a regular part of our mix. Send a worn sample and any documentation available; we'll produce the replacement with full material traceability.
What tolerances do you hold on defense components?
±0.0005" routine on critical features. Tighter with the right fixture. Every critical dimension CMM-verified. Documentation to customer spec.
Hwacheon Hi-Eco 35 (two cells) overview · All white papers · Military & Defense industry page
