Take a Detailed Look at the Practice of Drystone Retaining Wall Construction



Drystone retaining walls make very efficient use of local materials, and sit comfortably in their environment. They make an important contribution to heritage and to the character of the landscape, and are loved by many people who value the skill and ingenuity that has gone into their construction, as well as simply how they look.



And yet, in engineering terms, they are complex. They can deform significantly as their loading changes and their constituent stones weather. This gives them ductility—they deal with changes by adapting to them. In some ways, they behave like conventional concrete retaining walls, but in many ways they are better. They cannot be designed or assessed correctly unless these differences are understood.



Implementing concepts that require no prior knowledge of civil engineering, the authors:








Explain the behavior of earth retaining structures



Provide a theoretical framework for modeling the mechanical stability of a drystone retaining wall



Outline reliable rules for constructing a drystone retaining wall



Include charts to support the preliminary sizing of drystone retaining walls



Examine the relevance of drystone in terms of sustainability



Describe more advanced methods of analysis






Drystone Retaining Walls: Design, Construction and Assessment draws on theoretical work and full-scale practical testing to explain how these structures work, without presuming that the reader has received an engineering education. The book goes on to give enough detail to give the professional engineer confidence in the methods used in design and assessment, and insight into what matters most in the way in which drystone retaining walls are built. It shows how to design ne