The oak veneer Thame fire doors feature a distinct five-panel square-groove design that can fit into any style of home. Supplied ready to paint, stain or varnish. They are rated to a minimum fire resistance of 30 minutes and meet all the requirements of BS 476.
Woburn moulded fire doors feature a six-panel smooth faced design that gives a welcoming, traditional appearance. Each door is supplied primed and ready to paint. They are rated to a minimum fire resistance of 30 minutes and British Standard BS 476.
A half-hour fire rated stylish horizontal panelled Oak door in the Internal Door Range. Ideal for an apartment or contemporary home setting. Design matches our Internal Oak Monza Doors. Engineered construction for greater strength and stability.
Dimensions
1981 mm x 762 mm x 44 mm
Type
Solid Panelled
Height
1981 mm
Thickness
44 mm
Width
762 mm
Door Height Imperial
6 ft 6 in
Door Thickness Imperial
1-3/4 in
Door Width Imperial
2 ft 6 in
Weight
57 kg
Material
Oak Veneer
Colour
Wood
Finish
Unfinished
Interior or Exterior Use
Internal
Fire Rating
30 min
Opening Direction
Either Way
Suited Door Openings
1981 x 762 mm
Trimmable
2mm each edge equally
Construction
Engineered
Treatment
High performance microporous woodstain/Good quality paint system suitable for engineered veneered timber.
The oak veneer Thame fire doors feature a distinct five-panel square-groove design that can fit into any style of home. Supplied ready to paint, stain or varnish. They are rated to a minimum fire resistance of 30 minutes and meet all the requirements of BS 476.
Woburn moulded fire doors feature a six-panel smooth faced design that gives a welcoming, traditional appearance. Each door is supplied primed and ready to paint. They are rated to a minimum fire resistance of 30 minutes and British Standard BS 476.
A half-hour fire rated stylish horizontal panelled Oak door in the Internal Door Range. Ideal for an apartment or contemporary home setting. Design matches our Internal Oak Monza Doors. Engineered construction for greater strength and stability.