Closed-chamber
FXT20 + C-series
Floor-standing closed-chamber system for production-line tube welding. OD 3.175-168 mm. 200-group library, built-in printer.
FYID-Feiyide
FYID Настольная микроорбитальная TIG-система для полупроводников — Ø3–12 мм
FYID Настольная микроорбитальная TIG-система для полупроводников — Ø3–12 мм
Обычная цена
$13,553.00
Обычная цена
Цена со скидкой
$13,553.00
Цена за единицу
за
Стоимость доставки рассчитывается при оформлении заказа.
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01 / What it is
An integrated benchtop orbital welder for ultra-small tubing.
The FYID-Feiyide M12 Benchtop Micro Orbital Welding System is a fully integrated automatic orbital GTAW (TIG) welding station for thin-wall stainless steel, titanium, and high-purity alloy tube in the OD 3 mm to OD 12 mm outer diameter range. The power source, control system, and 2.2 L water-cooling tank are integrated into a single unit measuring 500 x 380 x 300 mm - a footprint that fits on a standard lab bench, inside a cleanroom equipment bay, or at a gas cabinet fabrication bench without a dedicated equipment layout.
The M12 is engineered for two specific contexts that the floor-standing FXT20 + C-series doesn't address well: laboratory R&D environments where bench space is constrained and 1 - 0 welds per day is the working tempo, and semiconductor cleanroom gas cabinet construction where OD 1/8 / (3.175 mm) instrument tubing for analytical lines, distribution branches, and process gas micro-manifolds dominates the scope.
At OD 3–6.8 mm tubing the minimum axial clearance is 12.2 mm - meaning the head can reach into tightly-packed gas cabinet manifold geometries without disassembly. At OD 10–12 mm the clearance increases to 26.4 mm. This compactness is what allows the M12 to weld joints that floor-standing orbital heads cannot physically access.
02 / Engineering specifications
Spec sheet for procurement.
Welding process
Autogenous orbital GTAW (TIG) - DC Pulse mode
Tube OD range
OD 3 mm - OD 12 mm
Max avg weld current
30 A
Input voltage
220 V AC +/-20%, 50/60 Hz (single-phase)
Cooling system
Integrated 2.2 L water tank - no external chiller required
Unit footprint
500 x 380 x 300 mm (L x W x H)
HMI display
10-inch color touchscreen, Chinese / English
Stored programs
200 groups (Expert Parameter Library)
Data output
Thermal printer + USB function per KB
Materials
316L EP-grade / 304L / titanium Grade 2 / high-purity alloys
Inner bead quality
SEMI F19/F20-type oxidation-control target on EP-316L
Cleanroom fit
Suitable for cleanroom equipment bay; gas cabinet bench mounting
Certifications
CE; other certification requirements confirmed by order
Delivery
Confirmed by configuration, production schedule, and logistics
Warranty
12 months whole-machine; consumables excluded
Minimum axial clearance required
Tube OD 3 - 6.8 mm
12.2 mm minimum clearance
Tube OD 10 - 12 mm
26.4 mm minimum clearance
03 / Procurement questions
What buyers ask before the PO.
When should I use M12 instead of FXT20 + C5 / C10?
Two decision points. Bench space: M12 is 500 x 380 x 300 mm desktop unit; FXT20 + C-series is floor-standing with a 33 kg power source in a 63 x 45 x 37 cm aviation case. Volume: M12 is engineered for 1 - 0 welds per day (lab/R&D tempo). For production lines welding hundreds of joints per shift on OD 3-12 mm tubing, the FXT20 + C5 / C10 is the right system.
Can M12 do production work, not just lab?
M12 is suitable for low-volume gas cabinet construction and small-batch semiconductor instrument tubing assembly. For continuous production runs requiring higher duty cycle and larger water reservoir, the FXT20 + C-series is the production-grade system. The cost differential reflects the duty cycle and tank capacity, not weld quality on the joint itself.
Does M12 produce the same inner bead quality as floor-standing systems?
Yes, for appropriate tube sizes and project requirements. The M12 supports SEMI F19/F20-type inner-bead oxidation-control targets on EP-316L tubing. The pulse-controlled current and argon-envelope architecture are similar; final acceptance depends on WPS, purge setup, material, and inspection plan.
What's the minimum axial clearance for the welding head?
For OD 3–6.8 mm tubing, the head requires 12.2 mm minimum clearance in the axial direction (from the joint center). For OD 10–12 mm tubing, the clearance increases to 26.4 mm. This is dense-pack tube friendly compared to most orbital heads on the market.
Can it weld titanium for aerospace hydraulic instrumentation lines?
Yes. M12 supports titanium Grade 2. For aerospace and aviation precision tubing applications, M12 handles the OD 3-12 mm range that dominates hydraulic and pneumatic distribution instrumentation. Pre-loaded programs cover stainless / titanium; specific aerospace prime contractor procedures may require custom WPS development on request.
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