TY  - BOOK
AU  - Badiru,Adedeji Bodunde
AU  - Valencia,Vhance V.
AU  - Liu,David
TI  - Additive manufacturing handbook: product development for the defense industry 
T2  - Systems innovation series
SN  - 9781482264081
PY  - 2017///]
CY  - Boca Raton, FL
PB  - CRC Press/Taylor & Francis Group
KW  - Impresión tridimensional
KW  - Ingeniería militar
KW  - Productos manufacturados
KW  - Three-dimensional printing
KW  - Military engineering
KW  - Manufacturing industries
KW  - Military aspects
KW  - fast
N1  - Includes bibliographical references and index; ch. 1; From traditional manufacturing to additive manufacturing; Adedeji B. Badiru --; ch. 2; A novice's guide to 3D printing: Making the process less magical and more understandable; Kim Brand --; ch. 3; Comprehensive project management of high-end additive manufacturing equipment; Adedeji B. Badiru --; ch. 4; 3D-printing impacts on systems engineering in defense industry; Jason Deters --; ch. 5; 3D-printing design using systems engineering; Bradford L. Shields and Vhance V. Valencia --; ch. 6; Evaluation of existing modeling software; Shesh Srivatsa --; ch. 7; Additive manufacturing research and development needs; Shesh Srivatsa --; ch. 8; Operational aspects and regulatory gaps in additive manufacturing; Adeola Adediran and Akinola Oyedele --; ch. 9; Additive manufacturing and its implications for military ethics; John Mark Mattox --; ch. 10; Additive manufacturing technologies: State of the art and trends; Julien Gardan --; ch. 11; A new global approach to design for additive manufacturing; R. Ponche, J.Y. Hascoet, O. Kerbrat, and P. Mognol --; ch. 12; A new methodological framework for design for additive manufacturing; Martin Kumke, Hagen Watschke, and Thomas Vietor --; ch. 13; Development and implementation of metals additive manufacturing; Ian D. Harris --; ch. 14; Selective laser melting (SLM) of Ni-based superalloys: A mechanics of materials review; Sanna F. Siddiqui, Abiodun A. Fasoro, and Ali P. Gordon --; ch. 15; A review on powder bed fusion technology of metal additive manufacturing; Valmik Bhavar [and 5 others] --; ch. 16; Additive manufacturing of titanium alloys; B. Dutta and Francis H. Froes --; ch. 17; Ultrasonic additive manufacturing; Paul J. Wolcott and Marcelo J. Dapino --; ch. 18; Printing components for reciprocating engine applications; Michael D. Kass and Mark W. Noakes --; ch. 19; Developing practical additive manufacturing design methods; David Liu [and 4 others] --; ch. 20; Optical diagnostics for real-time monitoring and feedback control of metal additive manufacturing processes; Glen P. Perram and Grady T. Phillips --; ch. 21; 3D printed structures for nanoscale research; Tod V. Laurvick --; ch. 22; Additive manufacturing at the micron scale; Ronald A. Coutu, Jr. --; ch. 23; Computer modeling of sol-gel thin-film deposition using finite element analysis; Alex Li --; ch. 24; Additive manufacturing technology review: From prototyping to production; Larry Dosser [and 3 others] --; ch. 25; Mechanical property optimization of fused deposition modeled polylactic acid components via design of experiments; Jonathan Torres and Ali P. Gordon --; ch. 26; Laser powder-bed fusion additive manufacturing of metals; physics, computational, and materials challenges; Wayne E. King [and 6 others] --; ch. 27; Calculation of laser absorption by metal powders in additive manufacturing; C.D. Boley, Saad A. Khairallah, and Alexander M. Rubenchik --; ch. 28; The accuracy and surface roughness of spur gears processed by fused deposition modeling additive manufacturing; Junghsen Lieh, Bin Wang, and Omotunji Badiru --; ch. 29; Surface roughness of electron beam melting Ti-6Al-4V effect on ultrasonic testing; Evan Hanks, David Liu, and Anthony N. Palazotto --; ch. 30; Dynamic failure properties of additively manufactured stainless steel; Allison Dempsey [and 3 others] --; ch. 31; Investigation of the high-cycle fatigue life of selective laser melted and hot isostatically pressed Ti-6A1-4V; Kevin D. Rekedal and David Liu --; ch. 32; Impact response of titanium and titanium boride monolithic and functionally graded composite plates; Reid A. Larson, Anthony N. Palazotto, and Hugh E. Gardenier --; ch. 33; Laser powder-bed fusion additive manufacturing: Physics of complex melt flow and formation mechanisms of pores, spatter, and denudation zones; Saad A. Khairallah [and 3 others] --; ch. 34; Measurement science needs for real-time control of additive manufacturing powder-bed fusion processes; Mahesh Mani [and 5 others] --; ch. 35; Denudation of metal powder layers in laser powder-bed fusion processes; Manyalibo J. Matthews [and 5 others] --; ch. 36; Tension-compression fatigue of an oxide/oxide ceramic composite at elevated temperature; Marina B. Ruggles-Wrenn and R. L. Lanser --; ch. 37; Effects of steam environment on fatigue behavior of two SiC/[SiC+Si3N4] ceramic composites at 1300�C; Marina B. Ruggles-Wrenn and Vipul Sharma --; ch. 38; 3D product design, evaluation, justification, and integration; Adedeji B. Badiru --; ch. 39; 3D printing rises to the occasion: ORNL group shows how it is done, one layer at a time; Leo Williams --; ch. 40; 3D printing implications for STEM education; John L. Irwin --; ch. 41; Additive manufacturing applicability for United States Air Force Civil Engineer contingency operations; Seth N. Poulsen and Vhance V. Valencia --; ch. 42; Additive manufacturing applications for explosive ordnance disposal using the systems engineering spiral process model; Maria T. Meeks [and 3 others] --; ch. 43; Proof-of-concept applications of additive manufacturing in air force explosive ordnance disposal training and operations; Abdulrahman Sulaiman Alwabel [and 5 others] --; ch. 44; Wing design utilizing topology optimization and additive manufacturing; David Walker, David Liu, and Alan Jennings --; ch. 45; Topology optimization of a penetrating warhead; William T. Graves, Jr., David Liu, and Anthony N. Palazotto --; ch. 46; Iteration revolution: DMLS production applications; Erin Stone and Chad Cooper --; ch. 47; Information storage on additive manufactured parts; Larry Dosser [and 3 others] --; ch. 48; Case examples of additive manufacturing initiatives at the air force research lab and air force institute of technology; Adedeji B. Badiru
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