The use of adhesives has many advantages over other methods of fastening. Presenting a smooth exterior, spreading of the load and ease of joining thin or dissimilar materials are all reasons why the use of adhesives for bonding structures is steadily growing and finding new applications. Structural Adhesive Joints in Engineering is a concise guide to adhesive joints within structures, especially those capable of bearing high loads. The book covers all aspects of design, materials selection and testing, including the physical properties and cure-chemistry of structural adhesives and how to select adhesives for particular applications; surface preparation by physical or chemical methods (with or without the use of primers and coupling agents); and new sections on surface analysis and water durability. There is also a detailed guide to stresses in adhesive joints and joint design. Thoroughly revised and updated since the first edition, the Second Edition contains new sections on recent topics of importance, such as water durability. This book contains everyhting an engineer needs to know to be able to design and produce adhesively bonded joints that are required to carry significant loads. Advantages and disadvantages are given, together with a sufficient description of the necessary mechanics and chemistry involved to enable the designer to make a sound engineering judgement in each particular case.

The intention of this book is that it should contain everything an engineer needs to know to be able to design and produce adhesively bonded joints which are required to carry significant loads. The advan tages and disadvantages of bonding are given, together with a sufficient understanding of the necessary mechanics and chemistry to enable the designer to make a sound engineering judgement in any particular case. The stresses in joints are discussed extensively so that the engineer can get sufficient philosophy or feel for them, or can delve more deeply into the mathematics to obtain quantitative solutions even with elasto plastic behaviour. A critical description is given of standard methods of testing adhesives, both destructively and non-destructively. The essen tial chemistry of adhesives and the importance of surface preparation are described and guidance is given for adhesive selection by me ans of check lists. For many applications, there will not be a unique adhesive which alone is suitable, and factors such as cost, convenience, produc tion considerations or familiarity may be decisive. A list of applications is given as examples. The authors wish to increase the confidence of engineers using adhesive bonding in load-bearing applications by the information and experience presented. With increasing experience of adhesives en gineering, design will become more elegant as weH as more fitted to its products."

A careful and intensive study of historical sources and a review of the instrumental data of this century have led to this detailed catalogue of earthquakes. Egypt, Arabia, the Red Sea region and the surrounding areas of Libya, Sudan and Ethiopia are studied from the earliest times to the present day. Each earthquake is described as fully as possible from the available data, and is analysed in a geographical and historical context. The completeness of the earthquake catalogue over time is analysed and the range of sources and problems associated with the scrutiny of historical sources is discussed. The information is then placed in a geophysical framework.