Pick a colour

Select colour and doors available in that colour will change

Choose door type
Show more doors Loading more

 

The Halifax composite front door is a flat slabbed door design, with twin half moon glass panels making a pseudo circle in the top half of the door, sealed between double arced cassettes. The slab has a grained surface like wood, and a GRP (or glass reinforced plastic) skin that's durable and easy to clean. The door is a modern design that works best with contemporary style properties, and just as well for a back door as it does a front entrance door.

In the spirit of this door's Art Deco inspired design, simple and elegant glass designs are available to accompany it, whether you require plain glass, Diamond Lead, or one of our triple glass styles such as the frosted with etched border Kensington or the elaborate bevelled Zinc Art Abstract. For double glass designs such as plain or Diamond Lead, there is the option for a backing glass pattern, with several basic textures and decorative designs to choose from, each varying in their level of obscurity to help add privacy to the property but also still let natural light shine indoors. Any top light, side panels or flag windows you might have can also have these backing glass patterns or solid panelling in one of our various finishes, with midrailed side panels able to have one section glass and the other solid or both of them glass or solid.

Our energy efficient composite doors are up to six times more so than timber doors, with the Halifax door pre fitted with Q-Lon gasket weatherseals that won't deteriorate with age or use and will block out the draught, while warm edge spacer bar technology within the glass panels reduces heat loss from indoors.

Our supply only Halifax composite front doors are available in a variety of colours and grey tones, from aubergine (also know as plum) to silver grey, with the frame also available in this same range of finishes. What's more, our supply only composites are made to measure, saving you time on installation.