Antibacterial ACP

Color card of the product


 

Fluorocarbon coating

Fluorocarbon Aluminum composite panel is made with fluorine enyne as the basic monomer, mixed with fluorocarbon resin, paint, alcohol ester solvent and accessory ingredients. The molecular structure in the coating becomes compact after being high baked to create a filmwhich has extra strong weather resistance../to create an extra weather resistant film. 
The fluorocarbon coating falls into conventional fluorocarbon coating or nano fluorocarbon coating according to the structure of film formation on the surface.
A.Conventional fluorocarbon is made of KYNAR500 fluorocarbon and is solidified to create the film on the surface after three coats and three bakes. It is acid and alkali resistant, standing the test of severe environment, and has no abnormal depigmentation for 15 to 20 years. It is more suitable for exterior decoration of architectures and curtain wall decoration of major constructional projects that have high demand for weather resistance.

B.Nano fluorocarbon is made of matured fluorocarbon surface processed with an additional coating of stain resistant layer added with nano materials. The coating after film formation has an extra low surface tension, which is stain resistant and can clean its surface coating simply by natural rain washing.

 

Raw Material Product Specifications
Base material of aluminum panel: high strength aluminum coils

PE core: non-toxic low density polyethylene

Surface coating:fluorocarbon coating

 
Thickness: 3-6mm; 4mm is recommended
Width: 1000-2000mm; 1220mm, 1250mm and 1500mm are recommended
Length: Maximum is up to 5800mm, 2440mm,3050mm and 4050mm are recommended
Thickness of aluminum sheet: 0.3-0.5mm

 

Product Data Sheet

Pivot ACM( architecture )

Panel Thickness Standard Unit 3mm 4mm 6mm
Thickness of Aluminium  DIN 1784 mm 0.5 0.5 0.5
Aluminum thickness deviation  DIN 1784 mm ±0.01 ±0.01 ±0.01
Weight   Kg/m2 4.65 5.63 7.42
Tolerance in length DIN 16927 / ISO 11833-1 mm - 1 / +3 - 1/ +3 - 1/ +3
Tolerance in width DIN 16927 / ISO 11833-1 mm - 1 / +1.5 - 1 / +1.5 - 1 / +1.5
Tolerance in thickness DIN 16927 / ISO 11833-1 mm   ± 0.15   ± 0.15   ± 0.15
Horizontal flatness DIN ISO 1101 mm 6 5 5
Longitudinal roughness DIN ISO 1101 mm 7 6 6
Technical Properties          
Section Modulus W  DIN 53293 cm3/m 1.25 1.75 2.75
Rigidity (Poisson's ratio μ = 0.3) E.J   DIN 53293 kNm2/m 0.14 0.28 0.63
Alloy EN 573-3 ENAW 1100
Temper of Cover Sheets EN 515   H16/H18
Modulus of Elasticity EN 1999 1-1 N/mm2 70,000
Tensile Strength of Aluminium EN 485-2 N/mm2 Rm ≥ 145
0.2% Proof Stress EN 485-2 N/mm2 Rp0.2 ≥ 100
Elongation EN 485-2 % A50 ≥ 2
Linear Thermal Expansion EN 1999 1-1 mm/m/℃ 2.4 at 100℃ Temp difference
Core          
Polyethylene, Typ LD-PE   g/cm3 0.935
Surface     Coil Coating
Lacquering     Fluorocarbon based (PVdF)
Thickness of coating    µm two coating:≥26,three coating:≥32
Gloss (initial value) ECCA T2 % 30 - 80
Pencil Hardness ECCA T4   H
Acoustical Properties          
Sound Absorption Factor   άs ISO 354   0.05
Sound Transmission Loss   RW ISO 717-1 DB 25 26 28
Loss Factor  d    EN ISO 6721   0.0072 0.0087 0.0138
Thermal Properties           
Thermal Resistance  R  DIN 52612 m2K/W 0.0069 0.0103 0.0172
Heat Transition Coefficient  U  DIN 4108 W/m2K 5.65 5.54 5.34
Temperature Range    -50…+80
fire-protection rating EN—13501