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Showing 1 - 8 of 8 matches in All Departments
Friction Stir Casting Modification for Enhanced Structural Efficiency: A Volume in the Friction Stir Welding and Processing Book Series summarizes current research and applications of friction stir processing techniques for casting modification. Research in this area has shown significant benefit in terms of fatigue performance as a result of friction stir processing. This book addresses the latest research, providing readers with a summary of these results and new guidelines for designers.
This book will summarize research work carried out so far on dissimilar metallic material welding using friction stir welding (FSW). Joining of dissimilar alloys and materials are needed in many engineering systems and is considered quite challenging. Research in this area has shown significant benefit in terms of ease of processing, material mixing, and superior mechanical properties such as joint efficiencies. A summary of these results will be discussed along with potential guidelines for designers.
This book describes the fundamentals and potential applications
of friction stir superplasticity for unitized structures .
Conventional superplastic forming of sheets is limited to the
thickness of 3 mm because the fine grained starting material is
produced by rolling. Friction stir superplasticity has grown
rapidly in the last decade because of the effectiveness of
microstructural refinement. The thickness of the material remains
almost constant, and that allows for forming of thick
sheets/plates, which was not possible before. The field has reached
a point where designers have opportunities to expand the extent of
unitized structures, which are structures in which the traditional
primary part and any supporting structures are fabricated as a
single unit. With advanced optimization and material
considerations, this class of structures can be lighter weight and
more efficient, making them less costly, as well as mechanically
less complex, reducing areas of possible failure.
The use of friction stir processing to locally modify the
microstructure to enhanced formability has the potential to alter
the manufacturing of structural shapes. There is enough research to
put together a short monograph detailing the fundamentals and key
findings. One example of conventional manufacturing technique for
aluminum alloys involves fusion welding of 5XXX series alloys. This
can be replaced by friction stir welding, friction stir processing
and forming. A major advantage of this switch is the enhanced
properties. However qualification of any new process involves a
series of tests to prove that material properties of interest in
the friction stir welded or processed regions meet or exceed those
of the fusion welded region (conventional approach). This book will
provide a case study of Al5083 alloy with some additional examples
of high strength aluminum alloys.
Friction Stir Welding of High Strength 7XXX Aluminum Alloys is the latest edition in the Friction Stir series and summarizes the research and application of friction stir welding to high strength 7XXX series alloys, exploring the past and current developments in the field. Friction stir welding has demonstrated significant benefits in terms of its potential to reduce cost and increase manufacturing efficiency of industrial products in transportation, particularly the aerospace sector. The 7XXX series aluminum alloys are the premium aluminum alloys used in aerospace. These alloys are typically not weldable by fusion techniques and considerable effort has been expended to develop friction stir welding parameters. Research in this area has shown significant benefit in terms of joint efficiency and fatigue performance as a result of friction stir welding. The book summarizes those results and includes discussion of the potential future directions for further optimization.
Metallurgy and Design of Alloys with Hierarchical Microstructures covers the fundamentals of processing-microstructure-property relationships and how multiple properties are balanced and optimized in materials with hierarchical microstructures widely used in critical applications. The discussion is based principally on metallic materials used in aircraft structures; however, because they have sufficiently diverse microstructures, the underlying principles can easily be extended to other materials systems. With the increasing microstructural complexity of structural materials, it is important for students, academic researchers and practicing engineers to possess the knowledge of how materials are optimized and how they will behave in service. The book integrates aspects of computational materials science, physical metallurgy, alloy design, process design, and structure-properties relationships, in a manner not done before. It fills a knowledge gap in the interrelationships of multiple microstructural and deformation mechanisms by applying the concepts and tools of designing microstructures for achieving combinations of engineering properties-such as strength, corrosion resistance, durability and damage tolerance in multi-component materials-used for critical structural applications.
Friction Stir Processing of 2XXX Aluminum Alloys including Al-Li Alloys is the latest edition in the Friction Stir Welding and Processing series and examines the application of friction stir welding to high strength 2XXX series alloys, exploring the past and current developments in the field. The book features recent research showing significant benefit in terms of joint efficiency and fatigue performance as a result of friction stir welding. Friction stir welding has demonstrated significant benefits in terms of its potential to reduce cost and increase manufacturing efficiency of industrial products including transportation, particularly the aerospace sector. The 2XXX series aluminum alloys are the premium aluminum alloys used in aerospace. The book includes discussion of the potential future directions for further optimization, and is designed for both practicing engineers and materials scientists, as well as researchers in the field.
This book describes the fundamentals of residual stresses in
friction stir welding and reviews the data reported for various
materials. Residual stresses produced during manufacturing
processes lead to distortion of structures. It is critical to
understand and mitigate residual stresses. From the onset of
friction stir welding, claims have been made about the lower
magnitude of residual stresses. The lower residual stresses are
partly due to lower peak temperature and shorter time at
temperature during friction stir welding. A review of residual
stresses that result from the friction stir process and strategies
to mitigate it have been presented. Friction stir welding can be
combined with additional in-situ and ex-situ manufacturing steps to
lower the final residual stresses. Modeling of residual stresses
highlights the relationship between clamping constraint and
development of distortion. For many applications, management of
residual stresses can be critical for qualification of
component/structure.
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