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Metallic Enclosures

Metallic enclosures incorporate multi-layered corrosion-resistant alloys with anodized or passivated surface treatments to prevent oxidation, even in highly saline or chemically aggressive environments. Precision-machined gasket interfaces ensure compliance with IP67, IP68, and NEMA 4X standards, effectively preventing moisture ingress, particulate contamination, and pressure differentials that could cause condensation buildup inside sealed systems. For applications requiring extended submersion resistance, enclosures undergo hydrostatic pressure testing to validate long-term sealing performance. 
HY D R O L Y SIS RESIS T ANCE

Material Type & Grade

Mild steel (CRCA), Stainless Steel SS 304/316, or Aluminum 5052-H32

Surface Finish

Powder coating (polyester/epoxy hybrid) with phosphate pre-treatment, 70–120 microns

IP Rating

IP54, IP65, or IP66 as per IEC 60529 standard

NEMA Rating

NEMA 4, 4X, 6, 12 (depending on design)

Impact Resistance (IK)

IK08 to IK10 as per IEC 62262, depending on enclosure thickness and design
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Product Description

Our enclosures employ integrated conductive coatings like nickel-copper or silver-based EMI shielding layers. Seamless grounding interfaces ensure low-resistance shielding performance across a broad frequency spectrum. Additionally, custom waveguide apertures and ferrite-loaded shielding mechanisms enhance attenuation. These features make our enclosures ideal for defense, aerospace, and high-speed computing applications where electromagnetic compatibility (EMC) is mandatory. 

EMI/RFI Shielding

Optional shielding with conductive gaskets and bonded panels; attenuation up to 60 dB

Thermal Management

Passive venting, filtered louvers; optional forced cooling, heat exchangers, or vortex coolers

Grounding & Bonding Points

Integrated M6/M8 grounding studs; designed to meet IEC 60364 and UL 508A

Sealing System

Continuous gasket sealing using polyurethane or EPDM for long-term compression

Fire Resistance Rating

UL 94 V-0 rated non-metallic components; tested as per IEC 60695 series

Environmental Compliance

RoHS, REACH, WEEE compliant materials and finishes

Load Bearing Capacity

Static load capacity up to 1000 kg, verified by IEC 60297 test standards

Operating Temperature Range

-40°C to +80°C for non-ventilated enclosures; temperature-dependent with fans

UV Stability

UV-resistant powder coating as per ISO 11341 and ASTM G154 for outdoor exposure

Salt Spray Resistance

720–1000 hours per ASTM B117, depending on coating and material type

Seismic Rating

GR-63-CORE compliant for Zone 4 when mounted with seismic anchoring kits

Mounting Provisions

Wall-mount, pole-mount, and floor-standing options; adjustable 19″/23″ rack rails

Dimensions

Customizable; standard heights from 6U to 47U, widths 600mm–800mm, depths 400–1200mm

Weight Capacity

Up to 1200 kg distributed static load, depending on enclosure size and material

Lock Type

Standard 3mm double-bit, quarter-turn latch; optional padlockable, keylock, or digital locks

Technical Advantages

Our metallic enclosures are CNC-milled from aerospace-grade 6061-T6 or 7075-T6 aluminum and reinforced with internal structural ribbing to resist deformation under impact forces. Vibration-isolated mounting brackets and elastomeric damping interfaces reduce mechanical stress on enclosed PCBs and electronic modules, ensuring compliance with MIL-STD-810G, DO-160, and IEC 60068-2 standards. We offer hardened enclosures with AR500 or titanium alloy reinforcements engineered to withstand mechanical loads exceeding 100g acceleration profiles for applications exposed to extreme acceleration or ballistic threats. 

Certain high-precision applications require enclosures that maintain vacuum integrity, inert gas sealing, or hermetic encapsulation to prevent exposure to contaminants or atmospheric degradation. Our enclosures are precision-machined to tolerances within ±5 microns, utilizing laser-welded seams and high-compression gasket materials to achieve helium leak rates below 10⁻⁶ mbar∙L/s, meeting NASA and ESA outgassing specifications. For high-altitude and space-based systems, our pressure-equalizing MEMS-based breather valves ensure that enclosures maintain structural stability during rapid pressure changes, preventing deformation or failure of internal components. 

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Industry Applications

Aerospace & Avionics

Shields avionics from EMI and withstands extreme altitudes, vibration, and rapid temperature changes. 

Defense & Military

Protects sensitive electronics from shock, electromagnetic pulses (EMP), and high-G acceleration impacts. 

Industrial Automation

Houses PLCs and control systems, preventing dust ingress and ensuring heat dissipation in high-power machinery. 

Telecommunications

Provides RF shielding for network infrastructure, reducing signal interference in high-frequency transmission systems. 

Medical Equipment

Ensures electromagnetic compatibility (EMC) for diagnostic devices and maintains sterility in controlled environments. 

Automotive & EVs

Encases power electronics, shielding against electromagnetic interference from high-voltage systems and rapid thermal fluctuations. 

Regulatory Compliance and Industry Standards

Compliance with global regulatory frameworks is essential for electronic enclosures deployed in mission-critical and safety-sensitive environments. Our designs undergo rigorous validation, including accelerated lifecycle testing, high-temperature exposure cycles, and high-voltage dielectric breakdown analysis to ensure adherence to UL 94 V-0 flame resistance, IEC 60529 ingress protection, and RoHS/REACH material safety regulations

Our engineering team specializes in application-specific enclosure customization, leveraging CAD-integrated design optimization, computational fluid dynamics (CFD) analysis, and high-precision multi-axis CNC manufacturing to meet your exact technical requirements.

Metallic Enclosures

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Having Doubts? Our FAQ

Check all our Frequently Asked Question

How does Frigate ensure electromagnetic compatibility (EMC) in Metallic Enclosures for high-frequency applications?

Frigate employs multi-layer conductive coatings, such as silver or nickel copper, to create low-impedance shielding surfaces. Seamless grounding interfaces reduce electromagnetic leakage. Custom-designed waveguide apertures allow controlled airflow while maintaining RF attenuation. For ultra-high-frequency applications, ferrite-loaded shielding enhances signal absorption beyond 10 GHz. 

How do Frigate’s Metallic Enclosures maintain structural integrity under extreme mechanical stress?

Frigate designs enclosures using aerospace-grade alloys like 7075-T6 aluminum and hardened stainless steel. Precision CNC machining ensures tight tolerances, minimizing weak points. Internally reinforced structures with shock-isolated mounting systems absorb high-impact loads. These designs meet MIL-STD-810 for defense and aerospace applications. 

How do Frigate’s gas-tight Metallic Enclosures prevent contamination in vacuum and high-purity environments?

Frigate utilizes laser-welded seams to eliminate micro-leaks. High-compression elastomeric seals provide a hermetic barrier against gas diffusion. Helium leak testing ensures tightness below 10⁻⁶ mbar∙L/s. These enclosures are ideal for semiconductor fabrication, space electronics, and medical sterilization chambers. 

What advanced thermal management technologies does Frigate integrate into Metallic Enclosures?

Frigate incorporates phase-change materials to stabilize temperature fluctuations. Integrated vapor chambers rapidly dissipate heat from high-power components. Liquid-cooled mounting surfaces handle extreme thermal loads. Custom heat pipe arrays improve thermal conduction, ensuring performance stability in avionics, automotive power systems, and RF amplifiers. 

How do Frigate’s Metallic Enclosures provide long-term corrosion resistance in extreme environments?

Frigate uses advanced surface treatments, including hard anodizing, plasma electrolytic oxidation, and chemical vapor deposition coatings. Stainless steel fasteners with cathodic protection prevent galvanic corrosion. Salt spray testing verifies resistance for marine, offshore, and chemical processing applications exceeding 5,000 hours of exposure. 

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LOCATIONS

Global Sales Office

818, Preakness lane, Coppell, Texas, USA – 75019

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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Metallic Enclosures

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