# Building materials in Brighton and Hove

All photographs by Ron Martin

## Mathematical tiles

## By Ron Martin

**1. The two reasons for tiling walls**

There are two reasons for covering the face of a building with tiles of some sort: one is to weatherproof it and the other is to alter the appearance of it. The principle form of vertical wall-tiling is plane tiles which are exactly the same tiles as I use on the roof but hung vertically, fixed normally to a timber-framed building. A very interesting form of material came into use during the 18th century and that is what is commonly known as mathematical tiles.

**2. Mathematical tiles are common**

A very interesting form of material came into use during the 18th century and that is what is commonly known as mathematical tiles. Their use in Sussex became very, very common in the closing years of the 18th century and the first twenty or so years of the 19th century.

**3. They are the same shape as brick
**A mathematical tile is a clay tile which is the same shape as a brick. This was partly the reason they were used because in the 18th century to bring your house up to date you needed to have a brick face. To rebuild the front wall would have been expensive so the alternative was to cover the whole of the front face with mathematical tiles.

**4. Mathematical tiles on bay windows**

Towards the late 18th centuary a lot of mathematical tiles were used in Brighton on projecting bay windows where the bay was not carried down to the ground and therefore the bay was supported on the floor joists and therefore you wanted the material covering the bay window to be light so you would have used mathematical tiles in that form.

**5. They come in all sorts of colours**

Mathematical tiles came in all sorts of different colours, colours that bricks would have come in - reds and greys and whites. They also produced mathematical tiles with a black-glazed surface.

The latest new pages you might have missed

Can you make a small donation?

Video tutorial on uploading text and photos

We have a 1930s house with 2 bay windows. The top one has tiles underneath the window but we are having a problem with damp underneath the window in our bedroom. We think it is not insulated so when the the cold air is hitting the warm air it causing a damp problem. Has anyone had this problem and if so how can it be solved?

Sarah, your problem is most likley condensation caused by the warm air condensing when it hits the back of the cold tiles. You need a vapour barrier and to slow the temperature gradient using insulation. Using just insulation won't help as the moisture will still condense, but inside the insulation. The vapour barrier (polythene will do) needs to be on the warm side of the insulation. You will have to strip the plasterboard off on the inside to do this or take the tiles off and do it from outside. OR it could be just rain off the window sill blowing over the top of the top tiles.

Is anyone aware of manufacturers of blue or black glazed mathematical tiles for a new build project? Many thanks.

try Robus

http://www.robusceramics.co.uk/mathematicaltiles.html

I found this an interesting page and am glad to confirm that only land drains were exempt from brick tax. All bricks and tiles were subject to the tax which was introduced in 1784, with the exemption of land drainage. The tax was apparently removed from tiles in 1833 but stayed on bricks until about 1850. Interestingly I have found both, bricks and ridge tiles stamped with the word drain. One can only assume that the brick yards were on the fiddle!

I just wanted to say thanks for info on this page. As a Surveyor based in Newbury, Berkshire, I have been looking for a supplier of Mathematical Tiles for repairs on a listed building. This detail is very rare locally. In over 20 years practice this is only the second building with these tiles I have seen (and the first had them stripped about 10 years ago).

The Oxford Universal Dictionary gives a meaning for mathematical, in use in 1776, that may solve the mystery. It is "constructed with mathematical regularity".

Karl is correct. Until 1833 mathematical tiles were not only taxed but (along with all tiles) were taxed at a higher rate than bricks. The only tax advantage of mathematical tiles might have been that fewer were needed than bricks for a 9 inch thick structural wall. In any case, mathematical tiles were used maybe half a century before brick tax was introduced. The main reasons for their use must have been simply that of gentrifying older buildings, structural lightness, and possibly slightly cheaper carriage if there were more to a cartload.