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| Hebei Bendin Industrial Technology Co., Ltd. |
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100mm GI Perforated Cable Tray — Compact, Corrosion-Resistant, and Thermally Efficient Cable Management
When space is constrained but performance cannot be compromised, the Bendin Industrial 100mm GI Perforated Cable Tray delivers full-sized protection and durability in a compact footprint. Designed for branch circuits, control wiring, and light to medium cable loads, this tray provides the same engineering excellence as its wider counterparts in a space-optimized 100mm width.
Fabricated from cold-rolled low-carbon steel and protected with a hot-dip galvanized coating conforming to ASTM A123 and EN ISO 1461, the tray achieves a minimum zinc layer thickness of 65µm, delivering over 20 years of corrosion-resistant service in medium-corrosion environments. The precision-stamped perforated base — with an open area ratio of 20% to 35% — enables continuous passive convection, achieving 30% to 50% superior heat dissipation compared to solid-bottom trays. Solid sidewalls retain cables securely, shield against dust and falling debris, and provide partial electromagnetic shielding absent in open ladder designs.
Ideal for control and instrumentation cable runs, branch distribution in commercial buildings, lighting circuits in damp workshops, and compact cable pathways in underground parking and service floors, the 100mm GI Perforated Cable Tray proves that smaller dimensions do not mean smaller performance. With a complete range of same-material galvanized accessories ensuring full system-wide corrosion protection and electrical continuity, this tray is the space-efficient, cost-effective solution for projects where every millimeter counts.
Technical Specifications at a Glance
| Specification | Parameter |
|---|---|
| Product Name | GI Perforated Cable Tray |
| Width | 100mm (available range: 50–1000mm) |
| Side Rail Height | 50mm / 75mm / 100mm / 150mm / 200mm / 250mm |
| Standard Length | 2.44m / 3.0m |
| Base Material | Cold-rolled low-carbon steel, Grade Q235 |
| Material Thickness | 1.0mm / 1.2mm / 1.5mm / 2.0mm |
| Galvanizing Process | Hot-dip galvanizing |
| Coating Standard | ASTM A123 / EN ISO 1461 |
| Zinc Coating Thickness | ≥65µm (steel ≥3mm); ≥55µm (steel <3mm) |
| Perforation Pattern | Staggered round holes, Ø6–8mm |
| Open Area Ratio | 20%–35% |
| Load Classes | Light Duty / Medium Duty / Heavy Duty |
| Safe Working Load | 10–60 kg/m (at 1.5m span, per load class and height) |
| Temperature Range | -40°C to +150°C |
| Corrosion Classification | Suitable for C1–C3 environments (ISO 12944-2) |
| Expected Service Life | 20+ years (C1–C2); 15+ years (C3) |
| Salt Spray Resistance | ≥500h to white rust; ≥1,000h to red rust (ASTM B117) |
| Fire Performance | Non-combustible; zero flame spread |
| Electrical Continuity | Maintained across all bolted splice joints |
| Edge Finish | Fully deburred, smooth edges |
| Accessories | Galvanized bends, tees, crosses, reducers, splice plates, brackets, hangers, grounding straps |
| Certifications | Mill certificates, zinc thickness reports, dimensional conformance reports available |
Compact Dimensions, Uncompromised Engineering
The 100mm GI Perforated Cable Tray from Bendin Industrial is purpose-built for installations where space is at a premium but performance expectations remain absolute. Whether routing control cables alongside equipment, distributing branch circuits through congested service corridors, or managing instrumentation wiring in tight ceiling voids, this tray delivers every advantage of the galvanized perforated design in a width optimized for compact cable bundles.
The Science of Long-Term Protection
Corrosion is the primary failure mode of cable support systems in damp, humid, or semi-exposed environments. The 100mm GI Perforated tray addresses this threat at the metallurgical level. Each section is immersed in a molten zinc bath at approximately 450°C, creating a multi-layered zinc-iron alloy coating that bonds permanently to the steel substrate. This hot-dip galvanizing process, executed to ASTM A123 and EN ISO 1461 standards, deposits a minimum coating thickness of 65µm on structural sections. The zinc layer corrodes sacrificially — meaning it protects the underlying steel at cut edges, punched holes, and weld seams throughout the tray's service life. Qualified for environments up to ISO 12944 C3 classification, this tray withstands the continuous humidity of damp workshops, the condensation cycles of underground parking structures, and the weather exposure of protected outdoor installations for two decades or more.
Thermal Management for Cable Longevity
Cable insulation degrades predictably with heat. Industry research consistently demonstrates that every sustained 10°C increase above a cable's rated operating temperature can halve its expected service life. The 100mm tray's perforated base is engineered specifically to combat this thermal aging mechanism. Staggered round perforations — typically 6mm to 8mm in diameter and distributed across the full base plane — create an open area of 20% to 35%. This enables continuous, unforced natural convection: ambient air enters from below, absorbs heat from energized cable surfaces, rises through the perforations, and exits the tray. The thermal performance advantage is substantial — testing and field data consistently show 30% to 50% lower heat retention compared to solid-bottom trays of equal dimensions. For the specifier, this translates directly into maintained current ratings, extended cable life, and reduced lifecycle costs.
Structural Integrity in a Smaller Footprint
Reduced width does not mean reduced structural engineering. The 100mm tray is fabricated using the same continuously seam-welded construction as the wider range — sidewalls are joined to the base with a full-length continuous weld, not spot-welded or intermittently tacked. This ensures uniform load transfer and eliminates stress concentration points that could initiate failure under load. The perforation pattern is designed so that the remaining steel web between holes retains the structural capacity required for the specified load class. Available in material thicknesses from 1.0mm to 2.0mm and side rail heights from 50mm to 250mm, the system is configurable for light-duty control and signal circuits through to medium-duty power distribution branches. Load selection is verified against manufacturer load-span tables to ensure safe support spacing for the intended cable weight.
Multi-Layered Cable Protection
The sidewalls of the 100mm tray perform functions that extend well beyond simple structural support. They act as physical barriers, shielding contained cables from small falling objects, incidental tool contact, and accumulated debris — a protective function that open ladder systems cannot replicate. They provide positive cable retention, preventing individual conductors or small bundles from sagging or escaping the tray boundaries during installation and throughout operational service. They contribute partial electromagnetic shielding by forming a grounded metallic channel around the cable pathway, reducing electromagnetic interference in non-critical applications. And they maintain a clean, organized appearance in exposed installations, supporting professional installation standards and simplifying future inspection and maintenance access.
A Complete, Corrosion-Protected System
No cable tray operates in isolation — it is always part of a larger network of straight sections, bends, junctions, and supports. Where dissimilar metals or differently finished components meet, galvanic corrosion cells can form, compromising protection at the very points where structural continuity matters most. Bendin Industrial eliminates this risk by manufacturing the entire accessory range — 90° flat bends, inside and outside risers, T-pieces, cross junctions, reducers, splice plates, cantilever brackets, trapeze hangers, and grounding straps — from identical Q235 base steel and through the same hot-dip galvanizing process. The result is uniform corrosion potential, assured electrical continuity across every mechanical joint, and consistent visual appearance throughout the installed cable pathway.
Application Guidance: Where It Fits and Where It Does Not
The 100mm GI Perforated Cable Tray is the optimal specification for compact cable runs in demanding environments. It excels in control and instrumentation circuits within light industrial plants, branch power distribution in damp or humid workshops, lighting and small power circuits in underground parking garages, vertical riser segments within commercial buildings, and protected outdoor cable runs under canopies or eaves. Its 100mm width makes it particularly well-suited to machine-side cable routing, congested service corridors, ceiling void installations, and any application where larger tray widths would be physically impractical.
The tray should not be specified for environments with concentrated corrosive chemicals — such as acid pickling lines or electroplating facilities — where 316 stainless steel or specialized high-performance coating systems are mandated. It is not designed for high-voltage power feeder trunking where cable bundle widths and weights exceed the 100mm platform capacity. And in installations with certified electromagnetic shielding requirements at TEMPEST or equivalent levels, fully enclosed solid-bottom conductive tray systems are the appropriate choice.
Delivery Confidence: Documentation and Support
Bendin Industrial supplies every 100mm GI Perforated Cable Tray order with comprehensive documentation: base material mill certificates verifying Q235 grade steel, zinc coating thickness test reports demonstrating ≥65µm hot-dip galvanized coverage, and dimensional conformance inspection reports confirming tolerance compliance. Load-span data for every combination of width, height, material thickness, and support spacing is available to support accurate specification. Pre-sales technical engineers are available to assess project environmental conditions against ISO 12944 corrosion classifications, calculate aggregate cable weights for correct load class determination, and verify complete accessory compatibility — ensuring the system delivered to site is precisely the system your design demands.



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