China Sourcing Agents
Get a Quote

Aluminum Composite Panel | OEM PE/FR/A2 Core China

Source wholesale Aluminum Composite Panels (ACP) from China. 3–6mm thickness, PVDF/PE coating, fire-rated FR and A2 mineral cores. CE marked & EN 13501-1…

Photo of Martin Wang Reviewed by Martin Wang , Founder & Sourcing Engineer

Published · Updated

Specifications
Total thickness 3mm / 4mm / 6mm
Aluminum skin thickness 0.30mm / 0.40mm / 0.50mm per face
Core type LDPE (standard) / FR mineral (B1/B-s1,d0) / A2 mineral-filled (A2-s1,d0)
Fire classification B1 or A2 per EN 13501-1 (core-dependent)
Coating system PVDF 70% fluoropolymer (≥25yr UV warranty) / PE (standard exterior)
Standard sheet size 1220×2440mm; 1500×4000mm (project orders)
Peel strength ≥120 N/50mm (EN ISO 527-3)
Flatness tolerance ≤1mm/m (longitudinal and transverse)
Certifications
CEEN 13501-1RoHSSGS

Core Material and Fire Classification: Sourcing ACP Building Materials

Aluminum composite panel (often referred to as ACP sheets or alucobond panels) is a three-layer building material product: two exterior aluminum skins bonded to a central plastic or mineral core. The core material is the single variable that matters for fire safety compliance — and it directly determines which architectural facade applications the product is legally permitted for in each market.

LDPE core (standard / combustible). Low-density polyethylene. Excellent flatness, best workability for fabrication (routing, bending, scoring). Fire performance: Class E or D under EN 13501-1 — combustible, produces dense smoke. This core is prohibited for use on buildings over 18m in height in the UK (post-Grenfell Building Safety Act 2022), buildings over 10m in Germany (Landesbauordnungen), and high-rise facades in most EU member states. LDPE ACP is still widely used for signage, interior fit-out, and ground-floor commercial frontage where fire height provisions do not apply.

FR mineral core (fire-retardant, B1 / B-s1,d0). Approximately 70% mineral filler (aluminum hydroxide + magnesium hydroxide) bonded in a polymer matrix. Classified B1 per DIN 4102-1 (German standard) or Class B under EN 13501-1 — limited combustibility, smoke production restricted to s1. Workability is slightly lower than LDPE — the stiffer core requires carbide-tipped routing bits and generates more dust. This is the default specification for medium-rise commercial facades in Germany, the Netherlands, and Scandinavia.

A2 mineral-filled core (non-combustible). >90% mineral content, negligible organic binder. Classified A2-s1,d0 under EN 13501-1 — non-combustible (no meaningful contribution to fire), minimal smoke, no flaming droplets. Required for: all facades on buildings >18m UK, all publicly accessible facades in France (arrêté du 25 juin 1980 updated), hospital and school facades throughout the EU regardless of height. The A2 core is approximately 2–3× more expensive than FR at the factory level; fabrication requires diamond-tipped routing bits and specialized bending equipment.

What to specify: Request EN 13501-1 fire classification certificates from an accredited European testing body (MPA Dresden, Efectis, Exova, or Warrington Fire) — not a Chinese test lab report. The CE marking for ACP requires a DoP (Declaration of Performance) referencing EN 7837-2. A Chinese factory can produce EN 13501-1 test results but the test must be performed on the exact product configuration (skin thickness + core + coating) you are purchasing — not a generic ACP category.

PVDF vs PE Coating: Exterior Wall Cladding Durability

The aluminum skin coating determines the panel’s UV resistance, color retention, and cleanability — especially relevant for outdoor facade applications exposed to 20–30 year service life expectations.

PVDF (polyvinylidene fluoride, Kynar 500 / Hylar 5000). 70% PVDF resin content is the industry threshold. UV resistance: <5 ΔE color shift after 10 years Florida exposure (AAMA 2605 — the most rigorous architectural coating standard). Chalking: <8 on ASTM D4214 rating scale after 10 years. Chemical resistance: resists acid rain, industrial pollutants, and cleaning agents. PVDF-coated ACP carries the manufacturer’s 20–25 year coating warranty in competitive specifications. Any facade project with a design life >10 years should specify PVDF.

PE (polyester) coating. Lower cost, adequate for interior and sheltered applications. UV resistance: color shift typically 8–15 ΔE after 10 years Florida exposure — visible fading on southern-facing facades within 5–8 years. PE-coated ACP is appropriate for: interior signage, trade show displays, ground-floor retail signage replaced on a 5-year cycle, and any application where the panel is not permanently exposed to weather.

Factory quality check: Request an AAMA 2604 (PE, 10-year) or AAMA 2605 (PVDF, 20-year) test report from an accredited lab. Chinese factories sometimes apply a nominally “PVDF” coating at less than 70% resin content — the peel is undetectable visually. A third-party XRF coating analysis on a production sample is the only reliable verification.

Peel Strength and Flatness: Fabrication and Installation Failure Modes

ACP fails in two ways during fabrication and installation: delamination (skin peels from core) and oil-canning (waves visible on the flat panel surface under raking light).

Peel strength. The bond between aluminum skin and core is measured per EN ISO 527-3 (50mm-wide T-peel test). Industry minimum is 120 N/50mm for architectural-grade product; premium manufacturers target ≥140 N/50mm. Peel failures occur during bending (the outer skin stretches while the inner compresses), at routing grooves, and over time through moisture ingress at unprotected panel edges. Specify polyisobutylen or silicone edge sealant in the installation spec — an unsealed edge on an A2 mineral core allows moisture to wick into the mineral filler and reduce peel strength over years.

Oil-canning (flatness). The industry standard flatness tolerance is ≤1mm/m longitudinal and transverse. Oil-canning is caused by: residual stress in the aluminum coil (check that the factory uses flattened coil, not as-rolled), uneven adhesive curing, or panel mishandling during storage (stacking on uneven surfaces without adequate support every 600mm). For projects with raking light exposure (polished metal cladding, low-angle winter sun), specify ≤0.5mm/m flatness and include a sample panel approval step before mass production.

Pre-shipment inspection scope for ACP includes: peel strength (three samples per production color), flatness measurement, coating thickness (PVDF should be ≥25μm dry film), and visual inspection for scratch/dent at 10% random sampling. Our inspection service routinely covers ACP pre-shipment for facade contractors.

Skin Thickness and Alloy: Structural Considerations

Standard ACP uses 0.30mm or 0.40mm aluminum skins in alloy 1060 or 3003 — the same alloy families used for custom aluminum extrusion profiles. For structural facade applications — ventilated curtain wall systems where the panel spans between fixings at 600–1200mm — skin thickness and alloy strength become load-critical.

1060 alloy (pure aluminum, soft). 0.2% proof stress ≈40 MPa. Adequate for signage and interior. Not recommended for unsupported spans >600mm in wind load environments.

3003 alloy (Mn-alloyed, standard ACP). 0.2% proof stress ≈115 MPa (H14 temper). Standard specification for architectural cladding. 0.40mm 3003 skin at 1200mm span has adequate stiffness for moderate wind zones (basic wind speed <30 m/s).

3105 alloy (H24 temper, structural-grade). 0.2% proof stress ≈175 MPa. Specified for high wind-load facades, canopy overhangs, and large-format panels (>1500mm unsupported span). Price premium approximately 15–20% vs 3003.

Confirm the alloy and temper in writing on the purchase order — most Chinese factories default to 1060 or 3003 unless 3105 is explicitly specified. Our sourcing service pre-qualifies ACP factories with valid EN 13501-1 fire classification from accredited European labs and verified PVDF coating supply chains. Our factory audit service includes alloy verification via XRF spectroscopy on incoming coil stock.

For facade and signage projects, our smart home sourcing practice supports building-envelope procurement from specification to shipment. Review the factory audit checklist and work with a Foshan sourcing agent for ACP supplier qualification.

FAQ

Common questions

LDPE, FR, or A2 core: which ACP core is legal for my facade? +

LDPE core is combustible (Class E/D) and prohibited on high-rise facades in the UK (&gt;18 m), Germany (&gt;10 m), and most EU high-rise projects. FR mineral core reaches B-s1,d0 for medium-rise commercial facades. A2 mineral-filled core is non-combustible (A2-s1,d0) and required for UK high-rise, French public-access facades, and hospitals/schools across the EU.

PVDF or PE coating: when does the extra cost matter? +

PVDF (≥70% fluoropolymer resin) holds a 20–25-year warranty, with &lt;5 ΔE color shift after 10 years Florida exposure under AAMA 2605. PE coating is cheaper but fades visibly within 5–8 years on weathered facades. Specify PVDF for any facade with a design life &gt;10 years; PE is acceptable for signage and interior.

What is the minimum peel strength for architectural-grade ACP? +

Industry minimum is 120 N/50mm per EN ISO 527-3; premium manufacturers target ≥140 N/50mm. Peel failures occur during bending, routing, and over time through moisture ingress at unsealed edges. Specify edge sealant and verify peel strength on three samples per production color.

Engineer-led sourcing No hidden margins 24-hour response

Have a sourcing project in mind?

Tell us what you need. We respond within 24 hours, including weekends.