Precision machining from Estonia — dedicated engineer on every order
CNC turning, CNC milling, laser marking and metal 3D printing — with robotic automation for lights-out production. Tolerances down to ±0.02 mm, delivery times you can plan around.
What we offer
We deliver precision-machined and additively manufactured components in all sizes — from single prototypes to larger series production.
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Multi-axis CNC turning on CMZ TA, TD, TTS and TTL lathes — from single prototypes to series of thousands. Live tooling allows milling, drilling and threading in the same setup, eliminating re-clamping and maintaining concentricity. Twin-spindle and sub-spindle configurations complete both ends of a bar in one cycle. We turn shafts, bushings, flanges, valve components, threaded fittings and precision rotational parts in steel, stainless steel, aluminium, titanium, Inconel, brass, PEEK and POM. RoboJob Turn-Assist automation enables lights-out overnight production runs for series work.
CMZ TA/TD/TTS/TTL · Ø 6–460 mm · L up to 3,200 mm · ±0.02 mm
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3- and 5-axis vertical machining on Hyundai WIA KF5600II, F500 and F650 centres with linear roller guideways and BBT dual-contact spindle interfaces. 5-axis simultaneous milling handles complex contoured surfaces, undercuts and compound angles in a single setup — reducing fixtures, improving accuracy and shortening lead time. Typical parts: housings, brackets, manifolds, impellers, medical implant components, structural aerospace parts and die/mould inserts. RoboJob Mill-Assist enables automated pallet loading for unattended series production. HW-MMS smart factory software provides real-time process monitoring.
Hyundai WIA KF5600II/F500/F650 · 2000 × 3000 × 500 mm · 5-axis · ±0.005 mm
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TRUMPF TruMark fibre, UV and ultrashort pulse lasers cover the full range of marking procedures: engraving, ablation, annealing, black marking, colour change and foaming — each suited to a different material and quality requirement. Annealing gently oxidises stainless steel and titanium surfaces to create durable, smooth markings ideal for medical components, leaving no residue that could trap contamination. Black marking uses extremely short pulses to create deep-black, high-contrast, corrosion-resistant codes without ablating the surface — the standard for UDI-compliant medical device labelling. Deep engraving is used for dies, moulds and stamping tools where a permanent depression is required. For plastics, we offer colour-change marking (light-on-dark or dark-on-light contrast), foaming (raised, tactile markings), and layer ablation for day/night-design automotive panels. Every job is verified in-process with VisionLine image processing for code placement and OCR/OCV readability — critical for serialised traceability in regulated industries.
Fibre · UV · Ultrashort pulse · Annealing · Black marking · Engraving · Foaming · Up to 10,000 parts/day
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Selective Laser Melting (SLM) on Atlix TruPrint systems with TRUMPF fibre lasers, with Automatic Multilaser Alignment checked every two layers to 40 µm accuracy. Metal AM is most valuable where geometry, not volume, drives the design: internal cooling channels that follow the contour of a tool cavity (conformal cooling), part consolidation of multi-component assemblies into a single printed body, and topology-optimised structures where material is placed only where load paths require it — cutting weight by 30–60% versus a machined equivalent while maintaining stiffness. Lattice and lightweight infills are common in aerospace brackets, medical implants (where porous lattice structures also improve osseointegration) and motorsport components. Real-time Melt Pool Monitoring and Powder Bed Monitoring detect porosity, spatter and recoating defects layer-by-layer, with full traceability per build. Printed parts are typically post-machined on our CNC equipment for critical interfaces, then stress-relieved, heat-treated or HIP’d as required — a true design-to-delivery loop under one roof.
316L · Ti6Al4V · Inconel · AlSi10Mg · CoCr · Tool steels · Layer 20–150 µm
Who we work with
What we machine
We work with a broad range of metals, plastics and composite materials.
Technology and equipment
We continuously invest in state-of-the-art production equipment from world-leading suppliers — to ensure precision, capacity and reliability on every single job.
TA Series · TD Series · TTS Twin-Spindle · TTL Turning Centre
CMZ has been manufacturing CNC lathes in Spain since 1945 — built for a service life of over 20 years. The TA Series features a rigid prismatic bed, an oil-cooled turret with a built-in 12,000 rpm live-tool motor, and integrated spindle technology for thermal stability across long production runs. The TD Series handles large parts up to Z3200 bed length. The TTS twin-spindle lathe completes bar-turning in a single setup; the TTL turning centre combines dual turrets with simultaneous milling on the sub-spindle — from a 50 mm bar to a finished part without reclamping.
F400 · F500PLUS · F500/50 · KF5600II · F650 Series
Hyundai WIA vertical machining centres are built around a high-rigidity box structure with linear roller guideways on all axes for low non-cutting time and consistent precision under heavy loads. Double-anchored, pretensioned ballscrews on X, Y and Z eliminate thermal growth for outstanding repeatability. Angular contact bearing headstocks deliver high torque at the spindle for hard-milling of die/mould and medical components. The KF5600II adds through-spindle coolant and a dual-contact BT/BBT spindle interface for maximum rigidity at high speed. Hyundai WIA’s HW-MMS smart factory software monitors machine status, load, and program in real time.
Turn-Assist · Mill-Assist · Tower · Pallet-Load
With over 2,000 robot installations worldwide, RoboJob is the market leader in CNC automation. The Turn-Assist is the benchmark in CNC lathe automation for over 15 years — its patented stacking principle, configurable dual-gripper table and intuitive software allow automation of a wide range of part diameters and weights without additional adjustments. The Mill-Assist, launched in 2012 and now in its second generation, is the most compact and user-friendly loading solution for 5-axis milling centres, handling any workpiece shape or material with two versatile interchangeable grippers. The Tower vertical lift system stores workpieces, clamping devices and pallets on up to 28 levels for extended lights-out runs. All systems use RoboJob’s graphical touchscreen software — no robotics experience required, operational within days of installation.
TruMark 5010 · TruMark 6030 · TruMark Station 5000 · TruMicro Mark
TRUMPF TruMark fibre and ultrashort pulse lasers deliver permanent, high-contrast markings on metals, plastics, glass, ceramics and silicon. The TruMark 6030 adjusts focus in real time for marking on 3D free-form surfaces. For medical and aerospace parts, the TruMicro Mark uses picosecond pulses for cold black marking — creating a corrosion-resistant nanostructure with virtually no heat-affected zone, surviving aggressive cleaning cycles. VisionLine image processing verifies code placement and readability in-process. All systems are laser class 1 — no additional protective enclosure required.
TruPrint 1000 · TruPrint 3000
Born from TRUMPF Additive Manufacturing, Atlix TruPrint systems use multi-laser Selective Laser Melting (SLM) with TRUMPF fibre lasers to build fully dense metal parts layer by layer. Automatic Multilaser Alignment (AMA) checks beam alignment every two layers to 40 µm accuracy. Melt Pool Monitoring and Powder Bed Monitoring detect process deviations in real time. A closed inert powder circuit enables safe handling of reactive alloys with full material traceability.
Capacity and accuracy
We are experienced in working with demanding industrial customers — from oil and gas to medical equipment and the maritime sector. All parts undergo systematic quality control before delivery.
CMZ lathes and Hyundai WIA machining centres, automated with RoboJob robot cells and TRUMPF TruMark laser marking, give us the capacity to run round-the-clock production with documented traceability.
Client feedback
We sent MetalHUB a complex subsea valve housing in Inconel 625. First article was within spec on every dimension — delivered in four days. That kind of reliability is rare at this price point.
We prototyped a titanium surgical guide with MetalHUB. The surface finish and dimensional accuracy were excellent. The measurement report was complete and exactly what our quality team needed for submission.
We needed 3,000 aluminium brackets on a two-week lead time. MetalHUB confirmed within hours, updated us daily, and shipped on time. No surprises — exactly what you want from a contract manufacturer.
How we work
A simple and transparent process tailored to industrial customers.
Upload drawings (DXF, STEP, PDF) or describe your requirements. We respond within one working day with an initial assessment.
You receive a detailed quote with pricing, material selection, tolerances and lead time. No hidden costs.
We start as soon as the order is confirmed. You can track progress along the way. All parts are documented with a measurement report.
Anodising, zinc plating, passivation, sandblasting or polishing — coordinated through our certified partners. One order, one point of contact.
Secure packaging, measurement report enclosed, shipped via DHL or DB Schenker. 1–2 day transit to Norway. Express available.
How we ensure accuracy
Every part leaves our facility with documented proof of compliance. No exceptions.
The first part of every new order is fully inspected against your drawing before series production begins. Dimensional report provided as standard.
Complex geometries and GD&T callouts are verified on our Zeiss coordinate measuring machine. Measurement uncertainty <2 µm.
Every material batch is documented with mill certificates (EN 10204 3.1). Heat number and cert shipped with every order on request.
Ra values measured on critical surfaces. Visual inspection under controlled lighting before packaging. Any non-conformance is flagged immediately.
A full dimensional report (PDF) is included with every shipment. Optional: PPAP Level 3 documentation for automotive and tier-1 suppliers.
Our quality management system is certified to ISO 9001:2015. Audit records and certificates available on request for supplier qualification.
Common questions
Answers to the questions we hear most from new clients.
We accept all standard CAD and drawing formats: STEP, IGES, DXF, DWG, STL, PDF and native files from SolidWorks, CATIA, Fusion 360 and Inventor. If you have an older format, contact us — we can usually work with it. For 3D printing we require STEP or STL.
Prototypes and small batches are typically ready in 3–5 working days from order confirmation. Series production lead times depend on quantity, complexity and current capacity — usually 2–4 weeks. Express service (48 hours) is available for urgent orders. We confirm the exact date before you place the order.
No minimum order quantity. We run single prototypes as readily as series of 10,000+. For very low quantities, set-up costs are amortised differently, which we reflect transparently in the quote.
Yes. All materials are sourced with EN 10204 3.1 mill certificates from certified suppliers. Heat number and cert are shipped with the parts on request, or provided electronically as a PDF. For medical and aerospace orders, full material traceability is included as standard.
As-machined (Ra 0.8–3.2 µm), fine finish (Ra 0.4 µm), anodising (Type II and III), zinc plating, electroless nickel, passivation (stainless), sandblasting and polishing. We work with certified post-processing partners and coordinate the full supply chain if needed.
We ship via DHL, FedEx and DB Schenker with full tracking. Standard transit to Norway is 1–2 working days from dispatch. We handle all export documentation including EUR.1 movement certificates for preferential EU–EEA tariff treatment. Customs clearance support available on request.
Absolutely. We sign NDAs as a routine part of our onboarding process — especially for defence, medical and product development clients. Send us your standard NDA or use ours. Signed and returned within one working day.
Standard machining tolerance is ±0.05 mm. Tight tolerance work is routinely held to ±0.02 mm. For critical fits and bearing seats we regularly achieve ±0.005 mm with CMM verification. If your drawing calls tighter, discuss it with us — we'll tell you honestly what's achievable.
Get started
Tell us about your project. We will get back to you with a concrete quote within one working day.