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Mechanical Behavior of Materials
TLDR
In this article, a course focused on the experimental study of mechanical behavior of engineering materials is presented, where the theoretical background and techniques used for testing are extensively discussed in class, alongside the lab sessions.Abstract:
Through lectures and laboratory work, this course focuses on the experimental study of mechanical behavior of engineering materials. The theoretical background and techniques used for testing are extensively discussed in class, alongside the lab sessions. The lab work involves several lab projects as well as various testing demonstrations. The majority of the projects involve specimen design, analysis, instrumentation, theoretical prediction, and discussion. The class is divided into groups, with each group responsible for all aspects of a particular project. The course is concluded by a student led Annual Workshop on Construction Materials covering presentations of various group final projects.read more
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A Review of Accelerated Test Models
TL;DR: This paper provides a review of many of the AT models that have been use successfully in this area and makes important contributions in the development of appropriate stochastic models for AT data.
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Solder joint fatigue models: review and applicability to chip scale packages
TL;DR: A review of fourteen solder joint fatigue models is presented in this article with an emphasis on summarizing the features and applications of each fatigue model, and two fatigue model application scenarios are discussed.
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Wire based additive layer manufacturing: Comparison of microstructure and mechanical properties of Ti–6Al–4V components fabricated by laser-beam deposition and shaped metal deposition
TL;DR: In this paper, the microstructure and the mechanical properties of Ti-6Al-4V components, fabricated by two different wire-based additive layer manufacturing techniques, namely laser-beam deposition and shaped metal deposition, are presented.
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Intercalation-Induced Stress and Heat Generation within Single Lithium-Ion Battery Cathode Particles
TL;DR: In this article, the authors combined analyses of transport and kinetics in determining resulting stresses, which arise from concentration gradients in cathode particles, and heat generation, and found that intercalation-induced stress and time-averaged resistive heat generation rate increase with particle radius and potential sweep rate.
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Additive manufactured Ti-6Al-4V using welding wire: comparison of laser and arc beam deposition and evaluation with respect to aerospace material specifications
TL;DR: In this article, the results of two different wire-based additive-layer manufacturing systems are compared: in one system Ti-6Al4V is deposited by a Nd:YAG laser beam, in the other by an arc beam (tungsten inert gas process).