Mach 32 | Mach 54
Mach is a futuristic, highly productive, compact VMC built for efficient machining of high-volume small parts. With its narrow body design, it integrates seamlessly into machining lines and cells, while front and rear accessibility of machine elements ensures minimum spacing between machines.
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Mach | Mach 32 | Mach 54 |
|---|---|---|
Long/Trans/Vert – X/Y/Z (mm) | 350 × 250 × 250 | 500 × 400 × 400 |
Spindle nose to table top min/max (mm) | 150 – 400 | 180 – 580 |
Table height from the floor (mm) | 880 | 810 |
Rapid traverse X / Y / Z (m/min) | 60 / 60 / 60 | 50 (50 / 60) |
Spindle taper | BT 30 (BBT30 / HSKA50) | BT 30 (BBT30 / HSKA50) |
Power, cont./S2 10 min (kW) | 2.2 / 3.7 | 5.5 / 7.5 – Mitsubishi |
3.7 / 5.5 / 7.5 – Fanuc |
4.9 / 7.4 / 9.3 – Siemens |
Torque, cont./S2 10 min (Nm) | 3.5 / 11.8 | 26.3 / 35.8 – Mitsubishi |
23.5 / 35 / 47.7 – Fanuc |
27 / 40 / 52 – Siemens |
Spindle speed (rpm) | 12000 | 8000 (12000) |
Spindle – Option Power, cont./S2 10 min (kW) | 2.2 / 3.7 | 2.2 / 3.7 |
Spindle – Option Torque, cont./S2 10 min (Nm) | 3.5 / 11.8 | 3.5 / 11.8 |
Spindle – Option Spindle speed (rpm) | 15000 (20000 / 24000) | 15000 (20000 / 24000) |
Table Size (mm) | 520 × 330 | 600 × 400 (900 × 400) |
Table type: T-slot (No. × size × pitch) | 3 × 14 × 125 | 3 × 14 × 125 |
Table Load Capacity (kg) | 250 | 400 |
Pallet Size (mm) | 500 × 280 (M12 holes) | 550 × 380 (M12 holes) |
Pallet load capacity (kg) | 160 | 200 |
Pallet load height (mm) | 980 | 810 |
Pallet change time (sec) | 10 | 10 |
Tool change system type | Direct pick-up | Direct pick-up |
Tool storage capacity | Standard (Optional): 8 (20) | Standard (Optional): 22 (26) |
Pull stud type | MAS-403 P30T-1 | MAS-403 P30T-1 |
Max. tool dia. (AI pockets full / adj. pockets empty) (mm) | 70 | 80 / 140 |
Max. tool length (mm) | 150 | 300 |
Max. tool weight (kg) | 3 | 3.5 |
Tool to tool time (sec) | 2 | 2 |
Chip-to-chip time (C-C) (sec) | 4.4 | 3.9 |
Accuracy as per ISO 230-2
Positioning (mm) | 0.009 | 0.009 |
Accuracy as per ISO 230-2
Repeatability (mm) | 0.007 | 0.007 |
Floor space with APC (W × D) (mm × mm) | 995 × 3200 (1200 × 3750) | 1280 × 3650 (1455 × 4120) |
Machine height (mm) | 2500 | 2940 |
Basic machine weight with APC (kg) | 3500 (4000) | 4700 (5050) |
Total connected load (Basic Std machine) (kVA) | 17 | 25 |
Compressed air (bar) | 6 | 6 |
Power supply | 3 Phase 415 V, 50 Hz | 3 Phase 415 V, 50 Hz |
CNC system | Mitsubishi M80 | Mitsubishi M80 / Siemens 828D / Fanuc / Oi MF |
XTRON Series is developed for high productivity, performance & ergonomic features.
Tailored solutions for machining large-sized components for Aerospace & Energy sectors or industries.
Precision and productivity ensured. We added more features providing top-level flexibility.
Heavy frame & innovative design support heavy cutting to produce a better surface finish.
Built with a Rigid cast iron structure and lower chip-to-chip time for high-volume production.
Mach is a futuristic, high productive, compact VMC for efficient machining of high volume small parts.
Contact us online or join us at one of our events to explore potential partnerships and collaborations. Our custom solutions are manufactured using cutting-edge technologies and the latest methodologies.
Mach is a compact, high-productivity vertical machining center series built for efficient machining of high-volume small parts. Designed around a narrow body footprint, Mach integrates seamlessly into machining lines and production cells—while front and rear accessibility of key machine elements supports minimum spacing between machines.
The Mach lineup includes Mach 32 and Mach 54, giving manufacturers a consistent platform concept that can be matched to different work envelopes, tooling needs, and production priorities—without losing the core benefits that make Mach ideal for line integration.
Mach is engineered for optimum space utilization, with a narrow body design that supports close machine placement in production lines. This is especially valuable in high-volume environments where floor space, line layout, and operator access all affect throughput.
High-volume machining is often won or lost in the “in-between” minutes—rapid moves, repositions, and repeated approach/retract routines. Mach is positioned as an agile platform with rapid traverse capability and high Z-axis acceleration, supporting a faster production rhythm across repetitive cycles.
Mach features an isolated machining zone concept, with linear axes positioned overhead. The practical benefit is protection: chips and coolant are better contained in the cutting area rather than collecting around sensitive axis elements. Over longer runs, this supports cleaner operation, easier maintenance routines, and more stable day-to-day performance.
In high-volume small-part machining, chips accumulate fast. Mach emphasizes a bed design intended for efficient chip evacuation—supporting cleaner machining conditions, reducing recutting risk, and helping maintain stable tool life and surface finish.
Mach is designed to work as a stand-alone machine or as part of a machining line. It supports manual loading as well as robot automation, making it easier to start with a manual cell and scale toward automation as volumes grow.
Mach includes a practical production-ready base configuration that supports stable operation and repeatable machining.
Motion and stability essentials: AC servo drives for all axes and an electronic counterbalance for the Z axis support controlled movement and consistent machining behavior.
Reliability and protection features: automatic centralised lubrication and bellow covers for axes protection support long-term reliability in continuous production.
Daily operation essentials: manual pulse generator, work light, three-tier lamp, coolant gun, and air gun support setup efficiency and operator usability.
Coolant baseline: a basic coolant system with bed wash and flood coolant supports routine chip control.
Model-specific spindle and tool capacity baseline:
Mach 32 is listed with a 12,000 rpm spindle and an 8-tool magazine.
Mach 54 is listed with an 8,000 rpm spindle and a 22-tool magazine.
Mach can be configured with upgrades that remove real production bottlenecks—tool changes, chip evacuation, setup time, and operator dependency.
Higher-speed spindle capability and thermal control: a 24,000 rpm spindle option and a spindle chiller option support processes that benefit from higher spindle speeds, smaller tools, and stable high-speed machining.
Table configuration flexibility: Mach can be configured with different table concepts depending on how parts are loaded and how features are accessed, including fixed table, rotary table, rotary production system, and tilting rotary table options.
Expanded tool capacity: optional tool magazine upgrades increase flexibility for multi-operation parts, part-family production, specialised tooling, and the use of sister tools in longer runs.
Through-spindle coolant: a coolant-through-spindle option (16 bar) with hydro-cyclone filtration supports deeper features and drilling-heavy cycles by improving chip evacuation and stabilising tool life.
Pallet workflow and automation readiness: rotary auto pallet changer, robot automation interface, and automation-related hydraulic options support faster changeovers and more production-oriented cell design.
Operator workflow upgrades: features like an automatic front door support more streamlined production routines, especially in semi-attended workflows.
Mach 32 is typically the fit when compactness and high-speed small-part machining are the priority and tooling requirements are simpler.
Mach 54 is typically the fit when you want more work envelope and tool capacity to support more complex part cycles, higher operation count per part, or broader part-family production—while still maintaining a compact line-integration approach.
Mach is designed for high-volume machining of small parts where compact footprint and production rhythm matter.
Common application fit includes:
High-volume prismatic parts that benefit from efficient, repeatable cycles
Drilling and tapping-intensive components where tool change efficiency and chip control improve throughput
Production cells where minimum spacing between machines and line integration improve overall output
Automation-friendly environments where robot loading, pallet workflow, or rotary/tilting table strategies support scalability
Mach series is a compact, high-productivity vertical machining center platform built for efficient machining of high-volume small parts. With a narrow footprint for line integration, agile machine dynamics, an isolated machining zone concept, and configuration flexibility that supports automation and multiple table strategies, Mach is designed to help manufacturers improve throughput while keeping production stable, clean, and scalable.
