Stone Consolidating Materials


Book Description




Alkoxysilanes and the Consolidation of Stone


Book Description

Stone is one of the oldest building materials, and its conservation ranks as one of the most challenging in the field. The use of alkoxysilanes in the conservation of stone can be traced as far back as 1861, when A. W. von Hoffman suggested their use for the deteriorating limestone on the Houses of Parliament in London. Alkoxysilane-based formulations have since become the material of choice for the consolidation of stone outdoors.^l This volume, the first to cover comprehensively alkoxysilanes in stone consolidation, synthesizes the subject's vast and extensive literature, which ranges from production of alkoxysilanes in the nineteenth century to the extensive contributions from sol-gel science in the 1980s and 90s. Included are a historical overview, an annotated bibliography, and discussions of the following topics: the chemistry and physics of alkoxysilanes and their gels; the influence of stone type; commercial and noncommercial formulations; practice; lab and field evaluation of service life; and recent developments. This book is designed for conservators, scientists, and preservation architects in the field of stone conservation and will also serve as an indispensable introduction to the subject for students of art conservation and historic preservation.




Advanced Materials for the Conservation of Stone


Book Description

This book identifies novel advanced materials that can be utilized as protective agents for the preservation of stone. The innovative solutions to stone conservation presented here result in increased sustainability, reduced environmental impact, and increased social and economic benefits. It provides an overview of recent trends and progress in advanced materials applied to stone protection. It also explores the scientific principles behind these advanced materials and discusses their applications to diff erent types of stone preservation efforts. Essential information as well as knowledge on the availability and applicability of advanced nanostructured materials is also provided, with focus placed on the practical aspects of stone protection. Th e book highlights an interdisciplinary eff ort regarding novel applications of nanostructured materials in the advancement of stone protection. It provides insight towards forthcoming developments in the fi eld. Advanced nanostructured materials are designed and developed with the aim of being chemically, physically, and mechanically compatible with stone. Advanced materials for stone conservation that are characterized by several functional properties are considered in this book. These include the physico-chemical, protective, and morphological properties, eco-toxicity, and mechanisms of degradation. The authors present a thorough overview of cutting–edge discoveries, detailed information on recent technological developments, breakthroughs in novel nanomaterials, utilization strategies for applications in cultural heritage, and the current status and future outlook of the topic to address a wide range of scientific communities.




Stone Conservation


Book Description

First published in 1996, this volume has been substantially updated to reflect new research in the conservation of stone monuments, sculpture, and archaeological sites.




Epoxy Resins in Stone Conservation


Book Description

This book presents a review of research on the use of epoxy resins as consolidants for sculpture and buildings. It deals with both the methods and materials used by conservators, focusing on a detailed chemistry of the materials as well as the practical methods of application. Epoxy resins have been widely used as structural adhesives to repair cracks in commercial and historic buildings, but the application of this technology to the stabilization of fragile stone has generally failed. However, the proper formulation of epoxy systems with solvents has solved problems of viscosity, penetration, crust formation, and discoloration, leading to two different schools of treatment detailed in the publication. Conservators in Europe have concentrated on the treatment of statuary and isolated sections of structures, with alcohol solutions of the resins maintained in contact with the surface for a period of time in order to get deep penetration. In the United States, treatment has focused on stabilizing entire structures or major portions of buildings by spraying them with acetone solutions of epoxy resins. The various techniques of application are discussed and evaluated. The book seeks to provide an expanded inventory of these different techniques allowing the conservator to make informed judgments.







Stone Decay and Conservation


Book Description




Nanolime


Book Description

This guidance is aimed at conservators and those specifying conservation treatments for historic stonework. It will also be of interest to conservation officers, and building owners and managers. Although the past ten years have seen an increase in the use of nanolime as a stone consolidant, not much was known about its properties and performance, and there had been no long-term evaluation of its effect on deteriorated limestone in an external UK environment. Furthermore, there was no consistent guidance regarding application of nanolime. For these reasons, Historic England commissioned a programme of research at the University of Bath and site trials at various English cathedrals. This information will aid practitioners and specifiers to make informed decisions about when and how to use nanolime. This document describes: the performance requirements and essential properties of consolidants in general the scientific theory underpinning the use of nanolime factors that might limit the effectiveness of nanolime the best ways to assess the suitability of stone for treatment with nanolime how to apply nanolime




Conservation of Building and Decorative Stone


Book Description

One of the problems which beset the practical conservation of stone buildings is the fragmentation of the disciplines involved. This book, with both volumes now available as one invaluable paperback, brings these disciplines together by the involvement of contributors with different experiences and approaches to the same material. Part one is an introduction to the complexities and background history of stone conservation followed by the most comprehensive description yet produced of the building and decorative stones used in the British Isles. In part two, practitioners involved in stone conservation describe ways in which major structural masonry problems, secondary building problems and different stone surface conditions may be treated. A variety of building types and environments has been used to ensure that the broad scope of common problems is covered. This second part of the book will be of practical value to art historians, archaeologists, architects, surveyors and engineers, masonry contractors and sculpture conservators in solving problems and in learning to use each other's skills and experience.




Nanomaterials in Architecture and Art Conservation


Book Description

The conservation and protection of buildings that constitute our cultural heritage are complex tasks calling for a comprehensive knowledge of the historical background of the buildings, as well as the construction technologies and materials used. Nanomaterials in Architecture and Art Conservation gives a comprehensive overview of the state of the art of using nanomaterials in conservation sciences, mainly for stone, mortar and plaster strengthening, but also for the consolidation of wall paintings. The book compiles and details deterioration mechanisms of stone and historical mortars, as well as methods of characterising and testing consolidation effects. The non- or semi-destructive characterisation methods that will be presented allow additional measurements to characterise objects before and after any interventions. Besides, general aspects of inorganic consolidants are targeted. The focus, in particular, is the application of nanolime as a new consolidation agent. Basic characteristics and application advices as well as beneficial combinations with other consolidation agents, such as silicic acid esters, are emphasised. What makes this book so special is the large number of practical applications described from the viewpoint of different restorers, offering a direct inside view of the procedure for the conservation of historical monuments. Restorers dealing with stone, mortar and plaster conservation; artists; advanced undergraduate- and graduate-level students of conservation science, art and nanotechnology; offices for the protection of monuments and heritage agencies; and researchers in materials science, conservation, nanotechnology and chemistry, especially those with an interest in applied sciences, will find this book a great reference.