02017cam a2200349 a 450000100090000000300120000900500170002100800410003801000170007902000190009604000180011504200080013305000250014108200250016608400340019110000200022524500810024526000430032630000350036950400510040452006840045565000330113965000300117265000160120265000310121865000580124990600450130794200120135299900190136495201370138395201470152016908452Nust- CAS-E20180118181355.0110808s2012    flua     b    001 0 eng    a  2011032559  a9781439868584   aDLCcDLCdDLC  apcc00aTJ267.5.B5bG65 201200a621.45223bGOL 2012  aSCI024000aTEC0210002bisacsh1 aGolfman, Yosif.10aHybrid anisotropic materials for wind power turbine blades /cYosif Golfman.  aBoca Raton, Fla. :bCRC Press,cc2012.  axvii, 235 p. :bill. ;c24 cm.  aIncludes bibliographical references and index.  a"Exploring a wide range of key technical topics, this book presents up-to-date coverage of anisotropic materials used in the production of turbine blades. The text presents important information in the materials selection of carbon/fiberglass, the percentage combinations, and the design concepts required for manufacturing wind blades. The author presents the strength criteria for anisotropic materials, as well as the manufacturing criteria for turbine blade materials selection. In addition, this comprehensive resource also examines dynamic fatigue life factors in turbine blade design. Other topics include NDE methods for predicting deflections, stiffness, and strength"-- 0aTurbinesxBladesxMaterials. 0aWind turbinesxMaterials. 0aAnisotropy. 7aSCIENCE / Energy2bisacsh. 7aTECHNOLOGY & ENGINEERING / Material Science2bisacsh.  a7bcbccorignewd1eecipf20gy-gencatlg  2ddccBK  c355262d355262  00102ddc 4070aCAS-EbCAS-EcGENd2013-04-15eVictoria col0o621.45 GOL 2012pCAS-E0000132r2014-02-21v14141.00w2014-02-21yBK  00102ddc 40708NFICaCAS-EbCAS-EcGENd2013-06-17eProgressive Int.l0o621.45 GOL 2012pCAS-E0000388r2014-08-27v9579.00w2014-08-27yBK