Free download скачать Advances in Ceramic Armor IV: Ceramic Engineering and Science Proceedings, Volume 29, Issue 6 By Tatsuki Ohji, Andrew Wereszczak(eds.)
2009 | 225 Pages | ISBN: 0470344970 | PDF | 9 MB
This volume provides a one-stop resource, compiling current research on ceramic armor and addressing the challenges facing armor manufacturers. It is a collection of papers from The American Ceramic Society s 32nd International Conference on Advanced Ceramics and Composites, January 27-February 1, 2008. Topics include novel materials concepts for both vehicle and body armors, transparent ceramics for impact resistance, and more. This is a valuable, up-to-date resource for researchers in industry, government, or academia who are working with ceramic armor.Content: Chapter 1 Mesomechanical Constitutive Relations for Glass and Ceramic Armor (pages 1-13): D. R. Curran, D. A. Shockey and J. W. SimonsChapter 2 Optimizing Transparent Armor Design Subject to Projectile Impact Conditions (pages 15-22): Xin Sun, Kevin C. Lai, Tara Gorsich and Douglas W. TempletonChapter 3 Physics of Glass Failure During Rod Penetration (pages 23-32): D. A. Shockey, D. Bergmannshoff, D. R. Curran and J. W. SimonsChapter 4 Adhesive Bond Evaluation in Laminated Safety Glass Using Guided Wave Attenuation Measurements (pages 33-44): S. Hou and H. ReisChapter 5 Applying Modeling Tools to Predict Performance of Transparent Ceramic Laminate Armors (pages 45-53): C.G. Fountzoulas, J.M. Sands, G.A. Gilde and P.J. PatelChapter 6 An Economic Comparison of Hot Pressing vs. Pressureless Sintering for Transparent Spinel Armor (pages 55-62): A. LaRoche, K. Rozenburg, J. Voyles, L. Fehrenbacher and Gary GildeChapter 7 Advances in Ballistic Performance of Commercially Available Saint?Gobain Sapphire Transparent Armor Composites (pages 63-74): Christopher D. Jones, Jeffrey B. Rioux, John W. Locher, Vincent Pluen and Matthias MandelartzChapter 8 Defect Free Spinel Ceramics of High Strength and High Transparency (pages 75-85): Juan L. Sepulveda, Raouf O. Loutfy and Sekyung ChangChapter 9 Recent Results on the Fundamental Performance of a Hot?Pressed Silicon Carbide Impacted by Sub?Scale Long?Rod Penetrators (pages 87-97): Jerry C. LaSalvia, Brian Leavy, Herbert T. Miller, Joshua R. Houskamp and Ryan C. McCuistonChapter 10 Instrumented Hertzian Indentation Study of Two Commerical Silicon Carbides (pages 99-105): H.T. Miller, R.C. McCuiston and J.C. LaSalviaChapter 11 Apparent Yield Strength of Hot?Pressed SiCs (pages 107-118): W. L. Daloz, A. A. Wereszczak and O. M. JadaanChapter 12 Microstructural Examination and Quasi?Static Property Determination of Sintered Armor Grade SiC (pages 119-127): Memduh V. Demirbas, Richard A. Haber and Raymond E. BrennanChapter 13 Quantitative Characterization of Localized Amplitude Variations in Silicon Carbide Ceramics Using Ultrasound C?Scan Imaging (pages 129-139): Raymond Brennan, James McCauley, Richard Haber and Dale NieszChapter 14 Grain Boundary Engineering of Silicon Carbide by Means of Coprecipitation (pages 141-152): Steven Mercurio, Mihaela Jitianu and Richard A. HaberChapter 15 The Possible Roles of Stoichiometry, Microstructure, and Defects on the Mechanical Behavior of Boron Carbide (pages 153-162): Ryan McCuiston, Jerry LaSalvia, James McCauley and William MayoChapter 16 A Review of Ceramics for Armor Applications (pages 163-175): P. G. Karandikar, G. Evans, S. Wong, M. K. Aghajanian and M. SennettChapter 17 A Portable Microwave Scanning Technique for Nondestructive Testing of Multilayered Dielectric Materials (pages 177-189): Karl Schmidt, Jack Little and William A. EllingsonChapter 18 Ballistic Damage Assessment of a Thin Compound Curved B4C Ceramic Plate Using XCT (pages 191-197): J.M. Wells and N.L. RupertChapter 19 Evaluation of Ballistically?Induced Damage in Ceramic Targets by X?ray Computed Tomography (pages 199-210): William H. Green, Herbert T. Miller, Jerry C. LaSalvia, Datta P. Dandekar and Daniel CasemChapter 20 Automated Non?Destructive Evaluation System for Hard Armor Protective Inserts of Body Armor (pages 211-218): Nicholas Haynes, Karl Masters, Chris Perritt, David Simmons, Dr. James Zheng and Dr. James E. YoungbergChapter 21 Analysis of Hardness Indentation Size Effect (ISE) Curves in Ceramics: A New Approach to Determine Plasticity (pages 219-227): Trevor E. Wilantewicz and James W. McCauley
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