MFC Core+

(Grade I)

Engineered for The Next Generation

Superior load bearing capacity for dry and humid conditions with high dimensional stability and stiffness. A chipboard with special resistance properties to occasional humidity, with minimal expansion and swelling. The board has good mechanical properties and a particularly adapted core to receive screws and fixation systems. In addition to technical performance, these panels are sustainable and environmentally friendly.

Benefits

Easy to mill
Versatility
Load Bearing

(Grade I)

Technical
Specifications

Property Test Unit Thickness (mm)
8 9 11 12 15 17 18 25
Modulus of rupture IS 2380 (Part-4):19777 N/mm2 13 10 13 10 13 13 13 13
Modulus of elasticity IS 2380 (Part-4):19777 N/mm2 2200 2200 2200 2200 2200 2200 2200 2200
Thickness swelling in 2hr IS 2380 (Part-17):1977 % 8 12 8 12 8 8 8 8
Tensile strength perpendicular to laminate surface IS 2380 (Part-5):19777 N/mm2 0.4 0.3 0.4 0.3 0.4 0.4 0.4 0.4
Screw withdrawal strength IS 2380 (Part-14):1977 N 1250 1250 1250 1250 1250 1250 1250 1250
Formaldehyde emission class E1 & E2 E1 & E2 E1 & E2 E1 & E2 E1 & E2 E1 & E2 E1 & E2 E1 & E2

Laminate Type

BSL : 9mm 12mm 15mm 17mm 18mm 25mm
OSL : 9mm 12mm 15mm 17mm 18mm 25mm
BSB : 9mm 15mm 17mm 18mm 25mm
OSR :
BSL :

9mm

12mm

15mm

17mm

18mm

25mm

OSL :

9mm

12mm

15mm

17mm

18mm

25mm

BSB :

9mm

15mm

17mm

18mm

25mm

OSR :

BSL : 8'x4' 9'x6' 8'x6'
OSL : 8'x4' 9'x6' 8'x6'
BSB : 8'x4' 9'x6' 8'x6'
OSR :
BSL :

8'x4'

9'x6'

8'x6'

OSL :

8'x4'

9'x6'

8'x6'

BSB :

8'x4'

9'x6'

8'x6'

OSR :

BSL :
Both Side Laminated

OSL :
One Side Laminated

BSB :
Both Side Balanced

OSR :
One Side Raw

Note: 8' x 4' - 2440x1220 mm, 8' x 6' - 2440x1830 mm and 9'x6' - 2750x1830 mm. All non-standard thickness and sizes will be available on MOQ basis.

Applications

Kitchen and bathroom furniture

Load-bearing use in humid conditions

Indoors areas in demanding load applications

Use on structural flooring, walls & roof

Structural or access flooring

Design Collection

MFC Core

MFC HMR