Enclosures For Aerospace Industry

Frigate fabricates aerospace-grade metal enclosures for aircraft systems, benches, and ground support, engineered to the spec. 

Aerospace Metalwork Built to the Print

Weight-aware stiffness in large panels

Formed ribs, selective mass loading, and gusseted frames keep wide faces flat and door gaps consistent without unnecessary weight.

Avionics-friendly interfaces

Prepared lands, gland plates, and precise hole patterns accept connectors, filters, and RF hardware with clean bonding paths.

Materials and finishes for ramp conditions

316L, 5052/6061, and coated steels pair with zinc-rich or epoxy primers and durable topcoats to resist jet fuel, UV, and salt.

Our Clients

Trusted by Engineers and Purchasing Leaders 

Excellence You Can Trust

Recognized for achieving verified dimensional stability through advanced process calibration and consistent material performance across every production cycle.

Thermal and Altitude Behavior Managed

Geometry and features handle sunload, cold-soak, and pressure swings across flight and ramp environments. 

Pressure equalization with protection

 Breather elements and baffled paths relieve pressure deltas while blocking moisture ingress and particulate. 

Sun and cold exposure control

 Reflective finishes, optional double-wall roofs, and conductive paths temper radiant heat and stabilize sensitive electronics. 

Airflow that avoids short-circuiting

 Partitioned bays and guided intake/exhaust routes sweep heat off drives and supplies without recirculation. 

Enclosures For Aerospace Industry

Vibration, Shock and Handling Discipline

Structures maintain alignment through transport, lift, and operational spectra. 

Panel stability under vibration

Rib geometry and fastener spacing are tuned to raise panel modes above common harmonics from APUs, carts, and test stands. 

Door integrity at scale

Reinforced hinge carriers and multi-point latches keep compression even along tall doors and access panels. 

Transport and hoist readiness

Sequence-controlled forming and weld fixturing preserve squareness so cabinets arrive aligned for immediate assembly. 

Enclosures For Aerospace Industry

Corrosion Control and Fluid Resistance

Edges, joints, and surfaces are engineered for airfield chemicals and maritime exposure. 

Chemistry-aware selections

 Materials and coatings are chosen to tolerate de-icers, cleaning agents, and salt fog in mixed climates. 

Mixed-metal isolation

 Bushings, washers, and sealants separate dissimilar pairs and protect grounding points from galvanic attack. 

Edge and seam longevity

Hem folds, edge radii, and full-length welds maintain coating thickness and reduce crevice formation at flanges and corners.

Enclosures For Aerospace Industry

EMI Hygiene and Grounding for Avionics Racks

Continuity and routing protect signal integrity in RF-dense spaces. 

Seam continuity across openings

Paint-masked lands, conductive gaskets, and door jumpers carry return paths across doors, windows, and gland plates. 

Clean ground tie-ins

Bonded studs and reserved bus locations provide reliable attachment for filters, shields, and surge paths. 

Cable discipline

Separated trays, bend-radius guides, and standoff rules keep power, control, and RF lines from coupling inside the cabinet. 

Enclosures For Aerospace Industry

Our Machined Products 

We support your production needs with CNC-machined parts, subassemblies, and performance-critical components. 

Industrial Fan Impeller - IMG
Flap Actuator Bracket - IMG (2)
Knee Joint Femoral Component - IMG (2)
Dental Implant Abutment - IMG (2)
Ballistic Helmet Mounting Rail - IMG (2)
Micro-Drill Spindle - IMG (3)
Linear Guide Carriage - IMG (2)
Connector Shell Retention Clip - IMG (2)
Fuel Nozzle Swirl Plate - IMG (2)
Coordinate Measuring Machine Probe Head -IMG (3)
Steering Rack Component - IMG (3)
ball screw nut - IMG (2)
Surgical Drill Guide - IMG
Engine Mount Strut - IMG (2)
Collaborative Robot Torque Sensor Mount - IMG

Words from Clients

See how global OEMs and sourcing heads describe their experience with our scalable execution.

Words from Clients

See how global OEMs and sourcing heads describe their experience with our scalable execution.

Enclosures For Aerospace Industry

4.9/5

Over 100 Reviews

Enclosures For Aerospace Industry
Enclosures For Aerospace Industry

Frigate’s Global Presence

Frigate takes pride in facilitating “Make in India for the globe“.  As our global network of Frigaters provides virtually limitless capacity, and through our IoT enabled platform your parts go directly into production. By digitally and technologically enabling “the silent pillars of the economy” MSME and SME manufacturing industries, we are able to tap the huge potential for manufacturing to bring the best results for our clients.

Enclosures For Aerospace Industry

100,000+

Parts Manufactured

250+

Frigaters

2000+

Machines

450+

Materials

25+

Manufacturing Process

How You Benefit with Us

Frigate brings stability, control, and predictable performance to your sourcing operations through a structured multi-vendor system. 

Enclosures For Aerospace Industry
Enclosures For Aerospace Industry

2.8X

Sourcing Cycle Speed

Frigate’s pre-qualified network shortens decision time between RFQ and PO placement.  

Enclosures For Aerospace Industry

94%

On-Time Delivery Rate

Structured planning windows and logistics-linked schedules improve project-level delivery reliability. 

Enclosures For Aerospace Industry

4X

Multi-Part Consolidation

We enable part family batching across suppliers to reduce fragmentation.  

Enclosures For Aerospace Industry

22%

Quality Rejection Rate

Multi-level quality checks and fixed inspection plans lower non-conformities. 

Enclosures For Aerospace Industry

30%

Procurement Costs

Optimized supplier negotiations and bulk order strategies reduce your overall sourcing expenses. 

Enclosures For Aerospace Industry

20%

Manual Processing Time

Automation of sourcing and supplier management significantly reduces time spent on manual tasks. 

Other Industries We Serve 

We deliver machining support across sectors that require consistency, material reliability, and tight dimensional control. 

Enclosures For Hydrogen Infrastructure
Enclosures For Aerospace Industry
enclosures for defense
enclosures for medical equipment
enclosures for industrial automation
enclosures for battery energy storage systems
enclosures for electric vehicle
enclosures for data centers
Enclosures For eVTOL Infrastructure
Get Clarity with Our Manufacturing Insights

Having Doubts? Our FAQ

Check all our Frequently Asked Questions

For ramp and hangar exposure, what really changes in an enclosure spec?

Jet fuel, UV, salt fog, and constant handling push cabinets beyond typical industrial duty. Frigate builds to the print with hemmed edges, flush hardware, screened vents, reinforced hinges, and multi-point latching so large faces stay quiet and access points keep their gaps under cart vibration and APU run-ups.

How does Frigate handle de-icers and aggressive cleaners?

Frigate matches materials and finishes to airfield chemistry - 

  • 316L or 5052/6061 with epoxy-rich primers and durable topcoats for chemical splash zones. 
  • Controlled edge radii and hem folds to maintain coating thickness at corners. 
  • Passivated stainless after fabrication at cut edges and welds. 
  • Isolated fasteners and compatible washers to cut galvanic pairs. 
Can Frigate keep stiffness without adding mass?

Yes. Frigate keeps panels flat and doors aligned while respecting program weight: 

  • Rib geometry and gusset placement tuned to span length and hinge loads. 
  • Gauge transitions only where structure needs it, not across every surface. 
  • Local mass at latch posts and hinge carriers instead of broad thickening. 
  • Removable internal stiffeners that preserve access and service clearances. 
Do Frigate cabinets maintain EMI continuity for avionics-grade racks?

Continuity is treated as part of the metalwork. Frigate prepares paint-masked lands, applies conductive gaskets, and adds door jumpers so return paths cross doors, windows, and gland plates. Reserved ground studs keep filter and shield tie-ins clean, while cable trays and standoffs separate RF, control, and power to limit coupling inside dense racks. 

How does Frigate account for pressure and altitude swings from lab carts to airside?

 Frigate sets up pressure behavior without compromising ingress - 

  • Breather elements sized for delta-P while blocking moisture and dust. 
  • Baffled paths that avoid straight line-of-sight into electronics. 
  • Seal compression maintained with planar gasket lands around long doors. 
  • Materials and coatings chosen to tolerate cold-soak and rapid warm-up. 
what’s Frigate’s strategy for Shock and vibration from APUs and tow vehicles?

 Loads are spread and noise modes are pushed out of common spectra - 

  • Rib patterns and fastener spacing tuned to raise panel natural frequencies. 
  • Hinge carriers and multi-point latching that keep door lines true after lifts. 
  • Weld sequencing that reduces residual stress and oil-canning. 
  • Isolation interfaces where cabinets sit near carts, stands, or test benches. 
Can Frigate build strictly to the drawing and still provide DFM input?

Yes. Frigate executes hole patterns, bend radii, flatness, and hardware callouts as shown, and on request, flags risks of gasket compression at long spans, bend relief near seals, backshell clearance at dense connectors, vent direction relative to sunload or spray, and mixed-metal joints at ground points. Interfaces and envelopes stay untouched unless a change is invited. 

Connector density is high; how are gland plates and clearances handled?

Bulkhead plates are fabricated with consistent hole-to-edge distances, paint masking where continuity is required, and spacing that preserves bend radius for RF and power lines. Frigate keeps clearance for backshells and strain relief, and aligns mounting lands so filters and feedthroughs seat squarely without field slotting. 

If a program shifts from lab carts to full airside deployment, what can Frigate adapt without altering interfaces?

Door architecture can move to multi-point compression, panel spans gain discreet ribs, and material/finish stacks step up for UV, while hole patterns and external geometry remain to the print. Frigate makes these adjustments at the metalwork level so mating equipment, grounding points, and cable routes stay exactly where the program expects. 

How does Frigate future-proof enclosures for next-generation telecom technologies?

Frigate designs scalable, modular enclosures capable of accommodating new 5G modules, fiber equipment, or edge-computing devices. The flexible internal architecture, adjustable mounting systems, and optimized thermal and EMI management allow seamless integration of emerging technologies. This future-proofing reduces CAPEX risk, ensures long-term network adaptability, and maximizes ROI for telecom operators. 

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LOCATIONS

Registered Office

10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.

Operations Office

9/1, Poonthottam Nagar, Ramanandha Nagar, Saravanampatti, Coimbatore-641035, Tamil Nadu, India. ㅤ

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LOCATIONS

Registered Office

10-A, First Floor, V.V Complex, Prakash Nagar, Thiruverumbur, Trichy-620013, Tamil Nadu, India.

Other Locations

GENERAL ENQUIRIES

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