A Stone Glossary

A STONE GLOSSARY

MAY 2018

William ‘Strata’ Smith’s 1815 Geological Map, the first nationwide geological map ever published.

We are in the process of choosing the stone to be used for a new building in Cambridge. It has been an apparently exhaustive journey through marbles and limestones from the UK, Europe and beyond. We amass endless samples, and talk in detail to quarrymen, masons and engineers about bed heights, weathering, and reliability of supply, as well as the inevitable costs to quarry the stone, cut it to shape, and fix it together to form a building. One of the most fascinating elements of this process are the specialist terms used to describe building stones and their properties. Below is a list of a few favourite words, ordered to explain the material properties that have so far governed our explorations for this new project.

The Clipsham Quarry at Rutland in Lincolnshire. Clipsham Stone occurs in the Inferior Oolite of the Jurassic System, where it was laid down between 174 and 163 million years ago. Clipsham is a popular building limestone with a characteristic golden colour. We have recently worked with it at Bishop Edward King Chapel in Cuddesdon and the Sultan Nazrin Shah Centre in Oxford.

Bedding plane

Many building stones, including all limestones, are sedimentary rocks, formed by the gradual settlement and compression of underwater sediment over millions of years. The directional way in which they were formed governs their properties and how they can be used as building stones. Most UK limestones must be used ‘naturally bedded’, i.e. orientated in the building in the same way that they were formed in the ground. This means the height of the blocks is limited to the depth of the bed, rarely more than 1m in the UK. ‘Face-bedding’, when blocks are laid so their bedding planes are parallel with the vertical face of the block, can lead to rapid weathering and crumbling.

Metamorphic

A stone that began as another type of rock and changed as a result of exposure to heat and pressure over geological time. Marble was originally limestone, and is chemically identical to it. However, the metamorphic processes changed its physical properties so that it does not have bedding planes, and can be cut and orientated in any direction. This makes it ideal if tall blocks are required.

Precipitation

The chemical process by which Travertine is formed, usually when geothermally heated water is exposed to the air, causing it to degas and carbonate minerals to precipitate out from the water. Although a type of limestone, its distinctive formation means it also doesn’t have bedding planes and is workable in much longer, thinner pieces than sedimentary stones.

Oolitic

A type of limestone made from an amalgamation of individual grains called ooliths. An oolith is a tiny carbonate particle surrounded by concentric layers of calcium carbonate, which were deposited as the ooliths were rolled around on the bed of the clear shallow sea in which the stone was formed. This gives the stone an even structure so it can be cut or sculpted in any direction, a characteristic which makes oolitic stones ‘freestones’. Portland Stone is an oolitic limestone used extensively in London’s historic buildings, perhaps most famously in churches by Cristopher Wren and Nicholas Hawksmoor, including St Paul’s Cathedral and Christ Church Spitalfields.

SCREENS

JUNE 2015

^{Images: Avenham Park Pavillion, Preston. The Institute of Timber, Detroit}

‘What do you see when you look up through the trees? Try to imagine this moment in a pretended place or part of a journey through a particular sequence of spaces. How does one describe this experience? What is it about spaces in nature, for example forests, which make them fascinating yet at the same time unsettling places to inhabit? A forest offers a place of refuge and natural beauty where the element of surprise is all part of the experience’

The idea of nature as a spatial experience and a driver for architectural form was a question that ran through my academic work and has subsequently led to an obsession with a perceptual and evolving architecture. It is interesting that my time in the office has allowed me to both reflect and discover parallels that run through similar themes in the work of the practice. A pursuit for a “thicket-like” characteristic, which allows for shifts in spatial qualities and a variation of patterns that overlay like woven surfaces to define space are just some of the mannerisms that I have begun to recognise.

I compare my own attempt to generate a kind of place that is animated, brightening as you ascend towards the canopy when reading the blurred lines of the roof of the pavilion designed for a woodland park in Preston. The structure is designed as a number of layers of mesh to capture rain whilst creating a display of shadows that activate the building beneath. As a competition proposal, the structure was never fully realised yet it has been the ideas established during this process that still resonate today. By staggering the building between the tree density, the line of the pavilion is undefined breaking the traditional form of constructing space and allowing a new reading of the building and landscape. Particularly enlightening in the search for the enclosure of space is a fruition of a screen-like quality that works as a surface and also as a generator of it’s tectonic form.

The use of the screen as a ‘device’ in our architecture allows elements to become not only separators of rooms or the external environment but also actuators for unique and unimagined spatial experiences. In search of this architecture is an attempt to purposefully discover a different architecture and an unplanned result that wouldn’t necessarily be reached through something un-natural.

^{Benni Allan graduated from the Bartlett with Distinction in 2014, and has been working on a project for Jesus College, Cambridge since joining Niall McLaughlin Architects. In February 2015, Benni was named as one of the nation’s up-and-coming designers and ‘One to Watch’ by the Design Council to represent the future of British design. His project the ‘City of Forests’ looked at beautifying Detroit through reforestation strategies to promote a denser, greener and more sustainable future in which timber becomes the main economic output. As Detroit continues to struggle with the effects of massive industrial changes, this more positive image of vacancy as an asset opens new discussions about the future post-industrial city.}