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100   $a19990915d1998      ua             0
101 0 $aeng
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 14$aThe case for Army XXI "medium weight" aero-motorized divisions$b[electronic resource] $ea pathway to the army of 2020 /$fJohn Gordon IV and Peter A. Wilson
210  1$aCarlisle, PA :$cStrategic Studies Institute, U.S. Army War College,$d[1998]
300   $a"May 27, 1998."
300   $aTitle from title screen.
320   $aIncludes bibliographical references.
517   $aCase for Army XXI "medium weight" aero-motorized divisions 
606   $aArmored vehicles, Military$xDesign and construction
606   $aClose air support
606   $aDeployment (Strategy)
606   $aMechanization, Military
606   $aRapid dominance (Military science)$zUnited States
606   $aUnified operations (Military science)
615  0$aArmored vehicles, Military$xDesign and construction.
615  0$aClose air support.
615  0$aDeployment (Strategy)
615  0$aMechanization, Military.
615  0$aRapid dominance (Military science)
615  0$aUnified operations (Military science)
700   $aGordon$b John$f1956-$0984821
701   $aWilson$b Peter A.$f1943-$01234213
712 02$aArmy War College (U.S.).$bStrategic Studies Institute.
801  0$bAWC
801  1$bAWC
801  2$bGPO
906   $aBOOK
912   $a9910690872303321
996   $aThe case for Army XXI "medium weight" aero-motorized divisions$93423984
997   $aUNINA

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100   $a20220625d2011      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aFatigue design of steel and composite structures /$fAlain Nussbaumer, Luis Borges, Laurence Davaine
205   $a1st ed.
210  1$aBerlin, Germany :$cWilhelm Ernst & Sohn, Verlag fu?r Architektur und technische Wissenschaften,$d[2011]
210  4$dİ2011
215   $a1 online resource (341 p.)
225 1 $aECCS Eurocode design manuals
300   $aDescription based upon print version of record.
311   $a92-9147-101-1 
311   $a3-433-02981-4 
320   $aIncludes bibliographical references.
327   $aTitle Page; Table of contents; Foreword; Preface; Acknowledgments; Symbology; Terminology; Chapter 1:Introduction; 1.1 Basis Of Fatigue Design In Steel Structures; 1.1.1 General; 1.1.2 Main parameters influencing fatigue life; 1.1.3 Expression of fatigue strength; 1.1.4 Variable amplitude and cycle counting; 1.1.5 Damage accumulation; 1.2 Damage Equivalent Factor Concept; 1.3 Codes Of Practice; 1.3.1 Introduction; 1.3.2 Eurocodes 3 and 4; 1.3.3 Eurocode 9; 1.3.4 Execution (EN 1090-2); 1.3.5 Other execution standards; 1.4 Description Of The Structures Used In The Worked Examples
327   $a1.4.1 Introduction1.4.2 Steel and concrete composite road bridge (worked example 1); 1.4.2.1 Longitudinal elevation and transverse cross section; 1.4.2.2 Materials and structural steel distribution; 1.4.2.3 The construction stages; 1.4.3 Chimney (worked example 2); 1.4.3.1 Introduction; 1.4.3.2 General characteristics of the chimney; 1.4.3.3 Dimensions of socket joint located at +11.490 m (see Figure 1.20); 1.4.3.4 Dimensions of ground plate joint with welded stiffeners located at the bottom, at +0.350 m:; 1.4.3.5 Dimensions of manhole located between +1.000 m and +2.200 m
327   $a1.4.4 Crane supporting structures (worked example 3)1.4.4.1 Introduction; 1.4.4.2 Actions to be considered; Chapter 2:Application Range And Limitations; 2.1 Introduction; 2.2 Materials; 2.3 Corrosion; 2.4 Temperature; 2.5 Loading Rate; 2.6 Limiting Stress Ranges; Chapter 3:Determination Of Stresses And Stress Ranges; 3.1 Fatigue Loads; 3.1.1 Introduction; 3.1.2 Road bridges; 3.1.2.1 Fatigue load model 1 (FLM1); 3.1.2.2 Fatigue load model 2 (FLM2); 3.1.2.3 Fatigue load model 3 (FLM3); 3.1.2.4 Fatigue load model 4 (FLM4); 3.1.2.5 Fatigue load model 5 (FLM5); 3.1.3 Railway bridges
327   $a3.1.4 Crane supporting structures3.1.5 Masts, towers, and chimneys; 3.1.6 Silos and tanks; 3.1.7 Tensile cable structures, tension components; 3.1.8 Other structures; 3.2 Damage Equivalent Factors; 3.2.1 Concept; 3.2.2 Critical influence line length; 3.2.3 Road bridges; 3.2.4 Railway bridges; 3.2.5 Crane supporting structures; 3.2.6 Towers, masts and chimneys; 3.3 Calculation Of Stresses; 3.3.1 Introduction; 3.3.2 Relevant nominal stresses; 3.3.3 Stresses in bolted joints; 3.3.4 Stresses in welds; 3.3.5 Nominal stresses in steel and concrete composite bridges
327   $a3.3.6 Nominal stresses in tubular structures (frames and trusses)3.4 Modified Nominal Stresses And Concentration Factors; 3.4.1 Generalities; 3.4.2 Misalignments; 3.5 Geometric Stresses (Structural Stress At The Hot Spot); 3.5.1 Introduction; 3.5.2 Determination using FEM modelling; 3.5.3 Determination using formulas; 3.6 Stresses In Orthotropic Decks; 3.7 Calculation Of Stress Ranges; 3.7.1 Introduction; 3.7.2 Stress range in non-welded details; 3.7.3 Stress ranges in bolted joints; 3.7.4 Stress range in welds; 3.7.5 Multiaxial stress range cases; 3.7.5.1 Introduction
327   $a3.7.5.2 Possible stress range cases
330   $aThis volume addresses the specific subject of fatigue, a subject not familiar to many engineers, but still relevant for proper and good design of numerous steel structures. It explains all issues related to the subject: Basis of fatigue design, reliability and various verification formats, determination of stresses and stress ranges, fatigue strength, application range and limitations. It contains detailed examples of applications of the concepts, computation methods and verifications.
410  0$aECCS Eurocode design manuals.
606   $aSteel, Structural$xFatigue
606   $aConcrete$xFatigue
615  0$aSteel, Structural$xFatigue.
615  0$aConcrete$xFatigue.
676   $a620.176
700   $aNussbaumer$b Alain$f1964-$0916522
702   $aBorges$b Lui?s
702   $aDavaine$b Laurence$f1975-
712 02$aEuropean Convention for Constructional Steelwork.
712 02$aAssociac?a?o Portuguesa de Construcao Metalica e Mista.
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910830440203321
996   $aFatigue design of steel and composite structures$92054520
997   $aUNINA