Home - Laser Cut Metal Screen Panels HJJ-2208|Custom & Durable
Architects keep asking for screens that don’t just hide MEP chaos but actually make a façade sing. To be honest, that’s where the humble laser-cut panel has grown up fast. The Laser Cut Metal Screen Panels HJJ-2208 sit right in that sweet spot: precise patterns, rugged alloys, and coatings that hold up when the sun, salt, and coffee carts all conspire against you.
Quick origin check (I like to know where things come from): Room 2303, Block C, Wanda Office Building, No. 121 Huai'an East Road, Yuhua District, Shijiazhuang City, Hebei Province, China. Not a random P.O. box—actual people, actual factory. Many customers say response times have been surprisingly decent, even during peak tender season.
Two trends: finer apertures thanks to fiber lasers (tighter kerf, less burr), and coatings that shrug off UV. Hospitality and mixed-use developers want airy patterns for daylighting and branding; infrastructure teams use them for durable barriers. Honestly, even retail fit-outs are jumping in—screens that double as acoustic baffles are a thing now.
| Parameter | Details (≈ real-world may vary) |
|---|---|
| Model | Laser Cut Metal Screen Panels HJJ-2208 |
| Materials | Aluminum/Al alloy; Galvanized sheet; Low-carbon steel; SS 304/316; Brass |
| Thickness | 2, 2.5, 3, 3.5, 4 mm (customizable) |
| Panel size | 1×2 m; 1.22×2.44 m; 1.5×3 m (custom) |
| Tolerances | Cutting ±0.2–0.5 mm; flatness ≤2 mm/m (typical) |
| Surface | PVDF (fluorocarbon) spraying; Powder coating; custom RAL |
| Service life | PVDF ≈ 20–30 years inland; 15–25 coastal (spec-dependent) |
Materials arrive with mill certs, then: CAD nesting → fiber-laser cutting → deburr/edge rounding → forming (if required) → TIG/MIG for frames → blast/pretreat → coating (PVDF or powder) → QC. Testing often includes: adhesion ASTM D3359 (aim 5B), salt spray ASTM B117/ISO 9227 (≥1,000–2,000 h target for architectural powders; PVDF per AAMA 2605 guidelines), pencil hardness HB–2H, color ΔE ≤ 2.0, gloss retention ≥50% at 10 years (PVDF, typical).
In fact, stainless 316 is the go-to near coastlines; aluminum with PVDF wins on weight and corrosion resistance inland.
- Design freedom: micro to macro patterns, brand motifs. - Weight efficiency: aluminum panels can be ≈ 35–60% lighter than steel equivalents. - Maintenance: PVDF resists chalking; an annual wash usually does the trick. Many installers mention easy alignment thanks to consistent kerf quality.
| Vendor | Pros | Watch-outs |
|---|---|---|
| Ares Material (HJJ-2208) | Broad alloys, PVDF/powder options, CAD support, ISO 9001; typical lead 2–4 wks | Overseas freight timing; confirm crate specs |
| Local Fabricator | Fast site visits; easy punch-list | Limited coating lines; cost per m² higher |
| Trading-only Vendor | Aggressive pricing | Spec ambiguity; traceability gaps |
Patterns via DXF/DWG, edge returns, stiffeners, hidden Z-clips, anti-vandal thicknesses. Can be specified to AAMA 2605 (PVDF), or high-durability powder per AAMA 2604. Typical certifications: ISO 9001 factory QC; third-party lab reports on request.
Mixed-use façade, inland city: 3 mm aluminum, PVDF dark bronze, 1.22×2.44 m modules. After 24 months, ΔE ≈ 0.8 average; no visible chalking (site visit notes). Installer liked the pre-drilled bracket tolerances.
Coastal hotel screen walls: SS316, powder coat matte white, 2.5 mm, perforation ratio ≈ 35%. Annual rinse only; no underfilm corrosion at 18 months. Guests use them as selfie backdrops—unexpected win.
If you need a quick spec pack for Laser Cut Metal Screen Panels HJJ-2208, ask for salt-spray hours, adhesion class, and exact coating system datasheets. It seems basic, but it saves RFIs later.
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