000			08063cam a2200457 i 4500
001			869771471
003			OCoLC
005			20241218135632.0
008			140212t20152015flua b 001 0 eng
010			_a2014004726
015			_aGBB477839 _2bnb
020			_a9781466584877 _q(alk. paper)
020			_a1466584874 _q(alk. paper)
020			_z9781466584884 _q(PDF ebook)
035			_a(OCoLC)869771471 _z(OCoLC)869527711 _z(OCoLC)890852307 _z(OCoLC)893459443 _z(OCoLC)902669450 _z(OCoLC)1064881642
040			_aDLC _beng _erda _cDLC _dYDX _dBTCTA _dYDXCP _dOCLCF _dTOH _dBDX _dCDX _dCOO _dTULIB _dOCLCQ _dZ5A _dLIP _dIPL _dCN8BJ _dLENOT _dCOF _dCNO _dMNI _dCEF _dOCLCQ _dUKMGB _dOCLCQ _dOCLCO
041	1		_aeng _hfre
042			_apcc
050	0	0	_aTA418.9.C6 _bG3913 2015
066			_c(S
082	0	0	_a620.118 GAY _223 _b24761
100	1		_aGay, Daniel, _d1942-
240	1	0	_aMat©♭riaux composites. _lEnglish
245	1	0	_aComposite materials : _bdesign and applications / _cDaniel Gay
250			_aThird edition
264		1	_aBoca Raton : _bCRC Press, Taylor & Francis, _c[2015]
264		4	_c℗♭2015
300			_axxiii, 611 pages : _billustrations ; _c27 cm
336			_atext _btxt _2rdacontent
337			_aunmediated _bn _2rdamedia
338			_avolume _bnc _2rdacarrier
500			_aTranslation of: Mat©♭riaux composites
504			_aIncludes bibliographical references (pages 595-598) and index
505	0	0	_tSection I: Principles of Construction -- _tComposite Materials: Interest and Physical Properties -- _tWhat Is a Composite Material-- _tBroad Definition -- _tMain Features -- _tFibers and Matrices -- _tFibers -- _tMaterials for Matrices -- _tWhat Can Be Made Using Composite Materials-- _tA Typical Example of Interest -- _tSome Examples of Classical Design Replaced by Composite Solutions -- _tMain Physical Properties -- _tManufacturing Processes -- _tMolding Processes -- _tContact Molding -- _tCompression Molding -- _tVacuum Molding -- _tResin Injection Molding -- _tInjection Molding with Prepreg -- _tFoam Injection Molding -- _tMolding of Hollow Axisymmetric Components -- _tOther Forming Processes -- _tSheet Forming -- _tProfile Forming -- _tForming by Stamping -- _tPreforming by Three-Dimensional Assembly -- _tAutomated Tape Laying and Fiber Placement -- _tPractical Considerations on Manufacturing Processes -- _tAcronyms -- _tCost Comparison -- _tPly Properties -- _tIsotropy and Anisotropy -- _tIsotropic Materials -- _tAnisotropic Material -- _tCharacteristics of the Reinforcement/Matrix Mixture -- _tFiber Mass Fraction -- _tFiber Volume Fraction -- _tMass Density of a Ply -- _tPly Thickness -- _tUnidirectional Ply -- _tElastic Modulus -- _tUltimate Strength of a Ply -- _tExamples -- _tExamples of High-Performance Unidirectional Plies -- _tWoven Ply -- _tForms of Woven Fabrics -- _tElastic Modulus of Fabric Layer -- _tExamples of Balanced Fabric/Epoxy -- _tMats and Reinforced Matrices -- _tMats -- _tExample: A Summary of Glass/Epoxy Layers -- _tMicrospherical Fillers -- _tOther Classical Reinforcements -- _tMultidimensional Fabrics -- _tExample: A 4D Architecture of Carbon Reinforcement -- _tExample: Three-Dimensional Carbon/Carbon Components -- _tMetal Matrix Composites -- _tSome Examples -- _tUnidirectional Fibers/Aluminum Matrix -- _tBiocomposite Materials -- _tNatural Plant Fibers -- _tNatural Vegetable Fiber-Reinforced Composites -- _tManufacturing Processes -- _tNanocomposite Materials -- _tNanoreinforcement -- _tNanocomposite Material -- _tMechanical Applications -- _tManufacturing of Nanocomposite Materials -- _tTests -- _tSandwich Structures -- _tWhat Is a Sandwich Structure-- _tTheir Properties Are Surprising -- _tConstituent Materials -- _tSimplified Flexure -- _tStress -- _tDisplacements -- _tSome Special Features of Sandwich Structures -- _tComparison of Mass for the Same Flexural Rigidity -- _tDeterioration by Buckling of Sandwich Structures -- _tOther Types of Damage -- _tManufacturing and Design Problems -- _tExample of Core Material: Honeycomb -- _tShaping Processes -- _tInserts and Attachment Fittings -- _tRepair of Laminated Facings -- _tNondestructive Inspection -- _tMain Nondestructive Inspection Methods -- _tAcoustic Emission Testing -- _tConception: Design and Drawing -- _tDrawing a Composite Part -- _tSpecific Properties -- _tGuide Values of Presizing -- _tLaminate -- _tUnidirectional Layers and Fabrics -- _tCorrect Ply Orientation -- _tLaminate Drawing Code -- _tArrangement of Plies -- _tFailure of Laminates -- _tDamages -- _tMost Frequently Used Criterion: Tsai-Hill Failure Criterion -- _tPresizing of the Laminate -- _tModulus of Elasticity-Deformation of a Laminate -- _tCase of Simple Loading -- _tComplex Loading Case: Approximative Proportions according to Orientations -- _tComplex Loading Case: Optimum Composition of a Laminate -- _tNotes for Practical Use Concerning Laminates -- _tConception: Fastening and Joining -- _tRiveting and Bolting -- _tLocal Loss of Strength -- _tMain Failure Modes in Bolted Joints of Composite Materials -- _tSizing of the Joint -- _tRiveting -- _tBolting -- _tBonding -- _tAdhesives Used -- _tGeometry of the Bonded Joints -- _tSizing of the Bonding Surface Area -- _tCase of Bonded Joint with Cylindrical Geometry -- _tExamples of Bonding -- _tInserts -- _tCase of Sandwich Parts -- _tCase of Parts under Uniaxial Loads -- _tComposite Materials and Aerospace Construction -- _tAircraft -- _tComposite Components in Aircraft -- _tAllocation of Composites Depending on Their Nature -- _tFew Comments -- _tSpecific Aspects of Structural Strength -- _tLarge Transport Aircraft -- _tRegional Aircraft and Business Jets -- _tLight Aircraft -- _tFighter Aircraft -- _tArchitecture and Manufacture of Composite Aircraft Parts -- _tBraking Systems -- _tHelicopters -- _tSituation -- _tComposite Areas -- _tBlades -- _tRotor Hub -- _tOther Working Composite Parts -- _tAirplane Propellers -- _tPropellers for Conventional Aerodynamics -- _tHigh-Speed Propellers -- _tAircraft Reaction Engine -- _tEmployed Materials -- _tRefractory Composites -- _tSpace Applications -- _tSatellites -- _tPropellant Tanks and Pressure Vessels -- _tNozzles -- _tOther Composite Components for Space Application -- _tComposite Materials for Various Applications -- _tComparative Importance of Composites in Applications -- _tRelative Importance in terms of Mass and Market Value -- _tMass of Composites Implemented according to the Geographical Area -- _tAverage Prices -- _tComposite Materials and Automotive Industry -- _tIntroduction -- _tComposite Parts -- _tResearch and Development -- _tMotor Racing -- _tWind Turbines -- _tComponents -- _tManufacturing Processes -- _tComposites and Shipbuilding -- _tCompetition -- _tVessels -- _tSports and Leisure -- _tSkis -- _tBicycles -- _tTennis Rackets -- _tDiverse Applications -- _tPressure Gas Bottle -- _tBogie Frame -- _tTubes for Offshore Installations -- _tBiomechanical Applications -- _tCable Car
505	0		_aSection I: Principles of Construction -- Composite Materials: Interest and Physical Properties -- Manufacturing Processes -- Ply Properties -- Sandwich Structures -- Conception: Design and Drawing -- Conception: Fastening and Joining -- Composite Materials and Aerospace Construction -- Composite Materials for Various Applications -- Section II: Mechanical Behavior of Laminated Materials -- Anisotropic Elastic Medium -- Elastic Constants of Unidirectional Composites -- Elastic Constants of a Ply in Any Direction -- Mechanical Behavior of Thin Laminated Plates -- Section III: Justifications, Composite Beams, and Thick Laminated Plates -- Elastic Coefficients -- Damage in Composite Parts: Failure Criteria -- Bending of Composite Beams of Any Section Shape -- Torsion of Composite Beams of Any Section Shape -- Bending of Thick Composite Plates -- Section IV: Applications -- Applications Level 1 -- Applications Level 2 -- Applications Level 3 -- Appendix A: Stresses in the Plies of a Carbon/Epoxy Laminate Loaded in Its Plane -- Appendix B: Buckling of Orthotropic Structures
650		0	_aComposite materials
776	0	8	_iEbook version: _z9781466584884
852			_p10004000024761
852			_p10004000024760
942			_2ddc _cBK _n0
999			_c490446 _d490446