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03159aam a2200349 i 4500 001 0DB118F42FC611E7A3652FCCDAD10320 003 SILO 005 20170503010126 008 160822t20172017enka b 001 0 eng c 010 $a 2016036248 020 $a 1107131863 020 $a 9781107131866 035 $a (OCoLC)958876480 040 $a OU/DLC $b eng $e rda $c OSU $d DLC $d YDX $d BTCTA $d MYG $d YDX $d OCLCO $d SILO 042 $a pcc 050 00 $a TA418.9.T45 $b B44 2017 082 00 $a 667/.9 $2 23 100 1 $a Begley, Matthew R., $d 1969- $e author. 245 14 $a The mechanics and reliability of films, multilayers and coatings / $c Matthew R. Begley, University of California, Santa Barbara, John W. Hutchinson, Harvard University. 264 1 $a Cambridge, United Kingdom ; $b Cambridge University Press, $c 2017. 300 $a viii, 278 pages : $b illustrations ; $c 27 cm 504 $a Includes bibliographical references and index. 505 0 $a Key mechanics concepts -- Linear elastic fracture mechanics -- Steady-state delamination of bilayers -- Steady-state delamination in multilayers -- Steady-state channeling and tunneling cracks -- Crack kinking from an interface -- Crack penetration, deflection or arrest? -- Edge and corner interface cracks -- Buckling delamination -- Delamination of thin strips (patterned lines) -- Delamination in multilayers subject to steady-state temperatures -- Cracking under transient temperature distributions -- Software for semi-infinite multilayers: steady-state delamination -- Software for semi-infinite multilayers: transient delamination -- Finite element software for multilayers: LayerSlayer FEA -- Convergence and benchmarks with LayerSlayer FEA. 520 $a "A wide variety of applications ranging from microelectronics to turbines for propulsion and power generation rely on films, coatings, and multilayers to improve performance. As such, the ability to predict coating failure - such as delamination (debonding), mud-cracking, blistering, crack kinking, and the like--is critical to component design and development. This work compiles and organizes decades of research that established the theoretical foundation for predicting such failure mechanisms, and clearly outlines the methodology needed to predict performance. Detailed coverage of cracking in multilayers is provided with an emphasis on the role of differences in thermoelastic properties between the layers. The comprehensive theoretical foundation of the book is complemented by easy-to-use analysis codes designed to empower novices with the tools needed to simulate cracking; these codes enable not only precise quantitative reproduction of results presented graphically in the literature, but also the generation of new results for more complex multilayered systems"-- $c Provided by publisher. 650 0 $a Thin films $x Mechanical properties. 650 0 $a Protective coatings $x Mechanical properties. 650 0 $a Fracture mechanics. 700 1 $a Hutchinson, John W., $e author. 941 $a 1 952 $l USUX851 $d 20170503024141.0 956 $a http://locator.silo.lib.ia.us/search.cgi?index_0=id&term_0=0DB118F42FC611E7A3652FCCDAD10320 994 $a 92 $b IWAInitiate Another SILO Locator Search