Max Compactforming elements
Max Compactforming Elements (HPL) are manufactured from high pressure laminates in compliance with standard EN 438 type CGP with a special core structure.
Information regarding the processing and implementation of Max Compactforming elements can be found in our Technical Information TI 3, 5, 11 and 16.
Max Compactforming laminates and elements are produced to order. Please allow a corresponding delivery period.
Bending characteristics are shown on the next page.
Please refer to our Technical Information leaflets for information regarding the application, processing and machining, specification instructions, chemical resistance, cleaning instructions etc. for the compact range.
Parts list
Max Compactforming elements (HPL)
Bending characteristics
(Fig. 1 - Ri 15, Fig. 2 - Ri 30)
Max Compactforming elements (HPL)
Shapes and dimensions Material thickness:
6 mm, 8 mm, 10 mm, in shapes: U, L, S, 1, 2, 3
Ri = 15 mm
Shapes and dimensions Material thickness:
6 mm, 8 mm, 10 mm, in shapes: U, L, S, 1, 2, 3
Ri = 30 mm 13 mm, for shapes: U, L, S
Details:
Weight by volume: approx. 1450 kg/m3
Thicknesses: 6, 8, 10, 13 mm.
Format of panel before forming: 4100 x 1300 mm
Surface finishes:
FH = Fine Hammer Embossed
PO = Pore
Other surface finishes on request.
Decors always the same both sides – all from the current Max collection. (Refer to our current stock range for exceptions)
Core: black
COMPACTFORMING ELEMENTS:
Maximum length: 2800 mm
Maximum development wdith: 1300 mm
Inside bending radius: 15 mm or 30 mm
Lowest bending leg height: 80 mm
Highest bending leg height: 200 mm (300 mm)
Curves: must be parallel to longitudinal edges of panel
Manufacturing tolerances: longitudinal cut: ± 1 mm, slight tearing possible.
Crosswise cut: ± 0.5 mm. Parallel deviation of curves: ± 1 mm per bend.
Deviations in flatness:
L-Form up to 1 mm/running metre
U-Form up to 2 mm/ running metre
S-Form up to 2 mm/ running metre
Deviation of bevelling from right angles: ± 1°
Please take the above tolerances into consideration when joining curved elements together.
Rigidity: up to 80° C constant temperature.
