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Fatigue has long been recognized as a mechanism that can provoke catastrophic material failure in structural applications and researchers are now turning to the development of prediction tools in order to reduce the cost of determining design criteria for any new material. Fatigue of Fiber-reinforced Composites explains these highly scientific subjects in a simple yet thorough way. Fatigue behavior of fiber-reinforced composite materials and structural components is described through the presentation of numerous experimental results. Many examples help the reader to visualize the failure modes of laminated composite materials and structural adhesively bonded joints. Theoretical models, based on these experimental data, are demonstrated and their capacity for fatigue life modeling and prediction is thoroughly assessed. Fatigue of Fiber-reinforced Composites gives the reader the opportunity to learn about methods for modeling the fatigue behavior of fiber-reinforced composites, about statistical analysis of experimental data, and about theories for life prediction under loading patterns that produce multiaxial fatigue stress states. The authors combine these theories to establish a complete design process that is able to predict fatigue life of fiber-reinforced composites under multiaxial, variable amplitude stress states. A classic design methodology is presented for demonstration and theoretical predictions are compared to experimental data from typical material systems used in the wind turbine rotor blade industry. Fatigue of Fiber-reinforced Composites also presents novel computational methods for modeling fatigue behavior of composite materials, such as artificial neural networks and genetic programming, as a promising alternative to the conventional methods. It is an ideal source of information for researchers and graduate students in mechanical engineering, civil engineering and materials science.
Late Antique Epistemology explores the techniques used by late antique philosophers to discuss truth. Non-rational ways to discover truth, or to reform the soul, have usually been thought inferior to the philosophically approved techniques of rational argument, suitable for the less philosophically inclined, for children, savages or the uneducated. Religious rituals, oracles, erotic passion, madness may all have served to waken courage or remind us of realities obscured by everyday concerns. What is unusual in the late antique classical philosophers is that these techniques were reckoned as reliable as reasoned argument, or better still. Late twentieth century commentators have offered psychological explanations of this turn, but only recently had it been accepted that there might also have been philosophical explanations, and that the later antique philosophers were not necessarily deluded.
Late Antique Epistemology explores the techniques used by late antique philosophers to discuss truth. Non-rational ways to discover truth, or to reform the soul, have usually been thought inferior to the philosophically approved techniques of rational argument, suitable for the less philosophically inclined, for children, savages or the uneducated. Religious rituals, oracles, erotic passion, madness may all have served to waken courage or remind us of realities obscured by everyday concerns. What is unusual in the late antique classical philosophers is that these techniques were reckoned as reliable as reasoned argument, or better still. Late twentieth century commentators have offered psychological explanations of this turn, but only recently had it been accepted that there might also have been philosophical explanations, and that the later antique philosophers were not necessarily deluded.
Fatigue Life Prediction of Composites and Composite Structures, Second Edition, is a comprehensive review of fatigue damage and fatigue life modeling and prediction methodologies for composites and their use in practice. In this new edition, existing chapters are fully updated, while new chapters are introduced to cover the most recent developments in the field. The use of composites is growing in structural applications in many industries, including aerospace, marine, wind turbine and civil engineering. However, there are uncertainties about their long-term performance, including performance issues relating to cyclic fatigue loading that hinder the adoption of a commonly accepted credible fatigue design methodology for the life prediction of composite engineering structures. With its distinguished editor and international team of contributors, this book is a standard reference for industry professionals and researchers alike.
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