The art deco house sign is inspired by a vintage plate, and comes in its original circular design or transferred to a rectangular format. The blue hydrangea flower motif makes a personalised sign suitable for many different architectural house styles - Victorian, Edwardian, 1920s or 30s, and even modern.
Please include your house name, number or special words that will turn it into decorative wall art. Enter any letters in either CAPITALS or Upper/lower case, exactly as you wish them to appear on your sign.
The art deco house sign from Selene Signs is printed on white glossy HD aluminium. It is weatherproof, fade resistant and comes with a five-year guarantee. The rectangular version comes in three sizes: 10 x 15 cm, 15 x 20 cm, 18 x 24 cm; and a mini 10 x 10 cm perfect for door signs. All have rounded corners for safe handling. The round version measures 20 cm in diameter. Our signs are printed by dye sublimation, which means the image is absorbed into the surface of the aluminium rather than sitting on it and doesn't flake or peel off.
The lightweight aluminium makes the sign easy to put up, with no DIY skills needed. There are no ugly screw holes to spoil the design, and we recommend using hook and loop pads that will stay up through storms and all weathers if used correctly (supplied for UK customers). At the end of its life, the sign can be recycled alongside other household metal waste.
Delivery: all our house signs and wall plaques are made to order, so delivery will be within 5-7 working days in the UK or EU; longer for other countries. As a small company, delivery times may be affected by our own holidays, but we will aim to let you know. Orders are usually dispatched by courier and we will let you know estimated delivery dates in advance.
Care of your sign: our signs are only two millimetres thick, so rainwater runs off them and doesn't collect on the sealed surface or top. Cleaning usually only requires a quick rub down with a wet or dry soft cloth. But please don't use abrasive or chemical cleaners that may damage the surface.