By Tomoko Sano, T. S. Srivatsan
The papers during this quantity hide a large spectrum of subject matters that characterize the really various nature of the sector of composite fabrics. lately, composite fabrics have grown in energy, stature, and importance to develop into a key fabric of stronger clinical curiosity and resultant examine into knowing their habit for choice and secure use in a large spectrum of technology-related functions. This assortment offers learn and findings appropriate to the most recent advances in composites fabrics, in particular their use in aerospace, maritime, or even land purposes. The editors have made each attempt to compile authors who placed forth contemporary advances of their examine whereas at the same time either elaborating on and thereby bettering our winning figuring out of the salient elements relating to the technological know-how, engineering, and far-reaching technological purposes of composite materials.
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Extra info for Advanced Composites for Aerospace, Marine, and Land Applications II
Comparison with the full model showed t h a t no significant difference results from such a simplification. % of fiber (shaded part). Considering the mirror plane perpendicular to the fiber axis, this RVE corresponds to a length-to-diameter ratio of 20:1, which is in agreement with the experimental geometry. The aluminum matrix is modeled as purely elastic, with properties given in Table 2. To further simplify the computation, a uniform temperature over the whole model is assumed at any given instant so t h a t heat conduction within the sample is not explicitly modeled.
Before each sample was tested, the strains were zeroed using the calibration features within Lab V I E W . Each test was performed by heating the sample from room t e m p e r a t u r e to approximately 100°C using the slowest speed setting on the heat gun (near 45 min. to reach 100°C). Samples were then cooled back to room t e m p e r a t u r e by setting the heat gun to 30°C and allowing the chamber to equilibrate with the room once the heat gun could no longer provide cooling (near 1 hr). Composite Modeling Numerical simulations of the composite were conducted to better understand the behavior of the fabricated Al-NiTi composite, especially the matrix-fiber interaction t h a t determines its performance.
Norfolk, Very High Power Ultrasonic Additive Manufacturing (VHP UAM), in: International Solid Freeform Fabrication Symposium, Austin, TX, 2011.  R. D. thesis, The Ohio State University, Columbus, OH (2012).  R. Hahnlen, M. Dapino, NiTi-Al Interface Strength in Ultrasonic Additive Manufacturing Composites, Composites Part B: Engineering 59 (2014) 101-108.  A. Hehr, M. Dapino, Interfacial Shear Strength Estimates of NiTi - Al Matrix Composites Fabricated via Ultrasonic Additive Manufacturing, Composites Part B: Engineering In Review.