ESDU AZ Index: SSHH
 Description, 70016
 see
 Sea Water
 Heat Treatment
 see also
 Aqueous Solutions
 Sea Water
 Effect on Fatigue Crack Propagation Rate
 aluminium alloy plate and sheet, 88007
 aluminiumlithium alloy plate, 91015
 high tensile low alloy steels, 93033
 titanium and titanium alloy sheet, 90028
 Effect on Fatigue Crack Propagation Rate (Short Cracks)
 high tensile low alloy steels, 93033
 Effect on Fatigue Strength of Transverse Welds in Aluminium Alloys, 19004
 see
 Statistics
 Equivalent

 see
 Roughness
 Dynamic Response
 effect of bevelled edge on natural frequency, 85037
 Dynamic Response to Excitation

 see also
 Noise
 Response of Lightweight Structures
 effect of bevelled edge on response to acoustic loading, 86024, 95026
 surface strain due to acoustic loading at midpoint of longer side, 95026
 surface strain ratio due to acoustic loading at centre of faceplates, 95026
 Edge Fixing Design
 considerations for resistance to acoustic fatigue, 86025
 Modal Density, Effect Of
 faceplate bending stiffness, 11008
 orthotropic shear flexibility, 11008
 rotary inertia, 11008
 Testing Endurance by Simulated Acoustic Loading Applied to Representative Element

 see
 Acoustic Fatigue
 Transverse (ThroughThickness) Shear Stiffness
 corrugated core, STRUCT 07.03.01
 experimental method of determination, 66025
 hexagonal core, 67022
 program to compute (with isotropic or laminated faceplates), 89013
 Under Local Normal Load
 core compression and shear stresses, 73025
 Diesel Engine, and Gas and Steam Turbines, 89001
 Representation by Describing Functions
 analysis of nonlinear systems, 84009
 Absorption or Emission of Radiation by Atoms or Molecules
 Aerofoils in Transonic Flow, 90008
 see
 Intakes
 Spillage Drag
 Pressure Drop Across in Internal Flow
 Used in Definition of Airborne Distance in TakeOff
 location for runways with gradient(s), 87018
 see also
 Bolted Joints
 Inside Straight Pipes
 Steel
 effect of inclination of nut seating on fatigue strength, 67034
 static strength under axial load, 67019
 surface treatments to improve fatigue strength, 89031
 Steel, Greater Than 1.0 Inch Diameter
 effect of manufacturing process on fatigue strength, 68045, 80028
 fatigue strength under axial load for buttress and Vthreads, 80028
 fatigue strength under axial load for Unified threads, 68045, 80028
 fatigue strength under axial load for Whitworth threads, 68045, 80028
 Steel, up to 1.0 Inch Diameter
 effect of manufacturing process on fatigue strength, 67020, 84037
 effect of material tensile strength on fatigue strength, 84037
 effect of mean stress on fatigue strength, 84037
 effect of thread form and thread root radius on fatigue strength, 67020
 fatigue strength under axial load, 67020, 84037
 Titanium Alloy Cold Rolled
 effect of alloy composition and heat treatment on fatigue strength, 83012
 effect of size on fatigue strength, 83012
 effect of temperature on fatigue strength, 83012
 effect of zinc plating on fatigue strength, 83012
 fatigue strength under axial load, 83012
 Area Distribution, AERO A.02.03.02
 Nose or Tail Radius of Curvature, 77028
 Planform Area and Its Centroid, 77028
 Surface Area, 77028
 Volume, 77028
 see also
 Aqueous Solutions
 Salt Water
 Composition, 77024
 Definition of Chlorinity and Salinity, 77024
 Density
 variation with salinity and temperature, 77024
 Dynamic Viscosity
 variation with salinity and temperature, 77024
 variation with temperature, 66024
 Effect on Fatigue Crack Propagation Rate
 aluminium alloy forgings, plates and sheet, 88007
 high tensile low alloy steels, 93033
 Effect on Fatigue Crack Propagation Rate (Short Cracks)
 high tensile low alloy steels, 93033
 Effect on Fretting Fatigue of Aluminium Alloys, 89004
 Prandtl Number
 variation with salinity and temperature, 77024
 Source of Fouling in Cooling Water Systems, 88024
 Specific Heat Capacity at Constant Pressure
 variation with salinity and temperature, 77024
 Thermal Conductivity
 variation with salinity and temperature, 77024
 Subcritical Inviscid Flow
 velocity distribution on aerofoils, 72025
 Supersonic Flow
 velocity distribution on bodies, AERO B.S.02.03.01
 velocity distribution on wings, AERO W.S.00.03.03
 Equilibrium Temperature Rise Estimation
 approximate prediction method, 78027
 discussion of modelling process and identification of heat paths, 97019
 estimation of heat transfer and joint conductance, 78029
 estimation of thermal resistance, 78028
 guidance on coefficient of friction, 78027
 introduction to prediction method, 78026
 methods of reducing, 78026
 program for calculation using thermal network model, 97019
 worked example calculations, 79002
 Worked Examples of Use of Prediction Method for Temperature Rise
 application to dry rubbing bearings, 79002
 application to plummer block assemblies, 79002, 97019
 application to rolling element bearings, 79002, 97019
 approximate application to ringoiled and other journal bearings, 79002, 97019
 Use in Temperature Measurement
 see also
 Flat Plates
 Description, 70016
 For Fatigue Calculations, 75022
 Notched Specimens, FAT A.00.02
 Unnotched Specimens, FAT A.00.01
 see
 Flow Separation
 see also
 Control Systems
 Feedback
 Linear Systems
 see also
 Rotors
 Deflections and Slopes Due to Point and/or Distributed Loads, and/or Moments, 69017
 Heat Transfer

 see
 Heat Transfer
 Position in Journal Bearings

 see
 Journal Bearings
 Splined
 Strength Analysis
 Stress Concentration in Fillets, Grooves, Holes and Splines

 see
 Circular Holes in Round Rods and Tubes
 Fillets in Round Rods and Tubes
 Fillets of Double Radius in Round Rods and Tubes
 Grooves of FlatBottomed Section in Rods
 Grooves of FlatBottomed Section Inside or Outside Tubes
 Grooves of USection in Rods
 Grooves of USection Inside or Outside Tubes
 Splined Steel Shaft Assemblies
 Surface Treatments of Steel to Improve Fatigue Strength, 89031
 With InterferenceFit Collars
 see also
 Shafts
 Coefficient of Friction for Steel Assemblies, 68002
 Design Procedure, 68002
 Discussion of Fatigue Performance and Its Improvement, 68002
 Effect of Surface Treatment on Fatigue Performance, 68002
 Elastic Interface Pressures and Stresses, 68003
 three or more elements, 68004
 Fatigue Strength of Plain Shafts, 68005
 Slipping Load and Torque
 for parallel shaft, 68002
 for tapered shaft, 68002
 see also
 Shafts
 Crack Initiation and Propagation, 86028
 Design of Keyway to Reduce Stress Concentration, 15004, 86028
 Fatigue Strength of Steel in Torsion
 with loaded key compared with plain shaft, 86028
 without key compared with plain shaft, 86028
 Fatigue Strength of Steel Under Bending
 without key, 86028
 Stress Concentration in Bending, 15004, 86028
 Stress Concentration in Combined Bending and Torsion, 15004
 Stress Concentration in Torsion, 15004
 with loaded key, 86028
 Description, 73004
 Introduction, STRUCT 00.06.00
 Beams of Various Sections
 effect on profile drag and sideforce, 82007
 CircularSection Cylinders (ParallelSided, Stepped or Tapered)
 effect on local and overall overturning moment, 81017
 effect on local and overall profile drag, 81017
 effect on local pressures, 81017
 DoubleWedge Section Cylinders With Edge Aligned Symmetrically and Normal to Flow
 effect on overturning moment and profile drag, 79026
 EllipticalSection Cylinders Normal to Flow
 effect on overturning moment, profile drag and sideforce, 79026
 Flat Plates
 effect on normal force, 70015
 Frameworks of FlatSided and/or Tubular Members
 effect on overturning moment, profile drag and sideforce, 81027
 Lattice Towers of FlatSided and/or Tubular Members
 effect on profile drag and sideforce, 81028
 Multiple Parallel Frameworks of FlatSided and/or Tubular Members
 effect on profile drag and sideforce, 81027
 MultiSided CircularSection Cylinders With Edge Aligned Symmetrically and Normal to Flow
 effect on overturning moment and profile drag, 79026
 MultiSided EllipticalSection Cylinders With Edge Aligned Symmetrically and Normal to Flow
 effect on overturning moment and profile drag, 79026
 Paraboloidal Antennas
 effect on profile drag, rotational moment and sideforce, 82031
 RectangularSection Cylinders Normal to Flow
 effect on axial force, profile drag and sideforce, 80003
 effect on overturning and torsional moments, 80003
 SquareSection Cylinders Normal to Flow
 effect on axial force, profile drag and sideforce, 80003
 effect on overturning and torsional moments, 80003
 SquareSection Cylinders With Edge Rounding Normal to Flow
 effect on overturning moment and profile drag, 79026
 TriangularSection Cylinders With Edge Aligned Symmetrically and Normal to Flow
 effect on overturning moment and profile drag, 79026
 TriangularSection Cylinders With Face Normal to Flow
 effect on overturning moment and profile drag, 79026
 Calculation for Aircraft in Steady Symmetric Manoeuvres
 fuselage and straight or swept medium to high aspect ratio wing, 94045
 Various Piping Materials, 83046
 Values for Various Metallic Materials
 aluminium, magnesium and titanium alloys, and nickel steels and steels 00932 (MMDH)
 see also
 Corrugated Plates
 Flat Panels in General
 Flat Panels with Transverse Stiffeners
 Flat Rectangular Plates
 Flat Sandwich Panels (Cores of Negligible Flexural Stiffness)
 Flat Sandwich Panels (Corrugated Cores)
 Flat Sandwich Panels (Truss Cores)
 Flat SpeciallyOrthotropic Rectangular Plates
 Flat Square Plates with Central Circular Hole
 Flat Square Plates with Central Flanged Circular Hole
 Flexibility (and Stiffness) of Various Forms
 for use in finite element calculation, 84042
 see
 Curved Panels
 Flat Panels in General
 Flat Panels with FibreReinforced Unflanged Integral Stiffeners
 Flat Panels with Flanged Integral Stiffeners
 Flat Panels with Lipped or Unlipped ZSection Stiffeners
 Flat Panels with TopHat Section Stiffeners
 Flat Panels with Transverse Stiffeners
 Flat Panels with TSection Integral Stiffeners
 Flat Panels with Unflanged Integral Stiffeners
 Flat Panels with Unlipped ZSection Stiffeners
 Flat Parallelogram Panels
 Response of Lightweight Structures
 SkinRib Joints in Aluminium Alloys
 SkinRib Joints in Composite Structures
 SkinRib Joints in General
 SkinRib Joints in Titanium Alloys
 see also
 Condensers
 Forced Convection Heat Transfer
 Fouling
 Fouling in Combustion Plant
 Fouling in Cooling Water Systems
 Fouling in Crude Oil Distillation Plant
 Free Convection Heat Transfer
 Heat Exchangers
 Mixed ForcedFree Convection Heat Transfer
 Pressure Drop Across Tube Banks
 Pressure Drop in Internal Flow
 Roughness
 Approximate Relationship Between Tube Count and Shell Diameter, 97007
 Baffled Shellside E and JShells
 calculation of flow distribution, heat transfer and pressure drop, 83038
 Calculation of Approximate Capital Cost, 97007
 Condenser With Shellside Downflow
 calculation method for heat transfer and pressure drop, 84023
 calculation of required surface area, 84023
 flooding limit, 84023
 flow distribution at vapour inlet, 84023
 sizing outlet nozzle, 84023
 Debottlenecking Using Program REVISE
 Design Program (EXPRESS) for Rapid Direct Determination of Performance
 assessing effect of operation at offdesign conditions, 00042
 assessing effect of uncertainty in design conditions, 00042
 avoiding crude oil fouling by staying below threshold for, 00016, 00042
 conditions for optimum (using available pressure drop), 00042
 effect of baffle cut, geometry, and shell type, 00042
 effect of flowrate on outlet temperatures, 00042
 effect of operating conditions as fraction of design on outlet temperatures, 00042
 effect of rate of fouling on outlet temperatures, 00042
 guide to use of program EXPRESS, 00042
 thermal duty and pressure drop plotted against tybe count and length, 00016, 00042
 Detailed Cost Data for Various Fluids as Function of Heat Load and Operating Pressure, 92013
 effect of shell type, length/diameter, material, tube diameter, and fluid pressure, 94042
 use in selection of heat exchanger type for given duty, 92013
 Enhancement of Performance by Added Roughness
 EShells in Series/Parallel Arrangements With Various Numbers of Shells
 charts of thermal effectiveness for design/performance rating, 98005
 maximum heat transfer effectiveness, 98004, 98005
 prediction of temperature meet (cross) between streams, 98005
 EShells in Series With Various Numbers of Shells
 charts of thermal effectiveness for design/performance rating, 98005
 maximum heat transfer effectiveness, 98004, 98005
 prediction of temperature meet (cross) between streams, 98005
 EShell With Co or CounterCurrent Flow and Various Numbers of Baffles
 charts of thermal effectiveness for design/performance rating, 98005
 maximum heat transfer effectiveness, 98004, 98005
 prediction of temperature meet (cross) between streams, 98005
 EShell With Co or CounterCurrent Flow and Various Numbers of Tube Passes
 charts of thermal effectiveness for design/performance rating, 98005
 maximum heat transfer effectiveness, 98004, 98005
 prediction of temperature meet (cross) between streams, 98005
 FShells With Even Number of Passes and Heat Transfer Across Longitudinal Baffle
 charts of thermal effectiveness for design and performance rating, 98005
 maximum heat transfer effectiveness, 98004, 98005
 GShells With Two Passes
 charts of thermal effectiveness for design/performance rating, 98005
 maximum heat transfer effectiveness, 98005
 prediction of temperature meet (cross) between streams, 98004
 JShells With Co or CounterCurrent Flow and Various Numbers of Baffles
 charts of thermal effectiveness for design/performance rating, 98005
 maximum heat transfer effectiveness, 98004, 98005
 prediction of temperature meet (cross) between streams, 98005
 JShells With One or Two Passes in Series
 charts of thermal effectiveness for design/performance rating, 98005
 maximum heat transfer effectiveness, 98005
 prediction of temperature meet (cross) between streams, 98005
 Modification Program (REVISE) for Rapid Determination of Changes From Initial Performance
 Network Design Using Process Integration
 program to optimise utility use and costs, 00043
 Prediction of Acoustic Resonance for InLine and Staggered Tube Banks, 88028
 acoustic damping for suppression of resonance, 88028
 acoustic Strouhal number, 88028
 isobars and modes for circular duct, 88028
 types of potential damage from, 88028
 typical wave form in rectangular, 88028
 use of deresonating baffles or other solution methods, 88028
 Retrofitting to Network
 Revamping Using Program REVISE
 TEMA Fouling Factors, 00016
 Use of Tube Inserts in Debottlenecking and Revamping, 00041, 97007
 Use of Tube Inserts in Design, 00041, 97007

 see also
 Forced Convection Heat Transfer
 calculation of capital cost with or without, 00041, 97007
 guide to use of program ENTRANS, 00041
 improving controllability and flexibility of operation, 00041, 97007
 inlet and outlet film temperatures with or without, 00041, 97007
 keeping within maximum shell length and diameter, 00041, 97007
 making best use of available pressure drop, 00041, 97007
 possible mitigation of fouling, 00016, 00041, 97007
 reducing length, and number of passes and shells, 00041, 97007
 situations in which use of inserts is inappropriate, 97007
 tubeside heat transfer for twisted tapes, 95027
 tubeside heat transfer for various types including twisted tapes, 97007
 tubeside pressure drop for twisted tapes, 95027
 tubeside pressure drop for various types including twisted tapes, 00041, 97007
 Vibration
 effect of buffeting on wear and life, 87019
 mechanisms causing and methods of reducing risk, 87019
 prediction of damping in gas or liquid flows, 87019
 prediction of fluidelastic instability and of natural frequency of tubes and Utubes, 87019
 response to wake shedding, 87019
 see also
 Circular Frames Supported By A Shell
 Cylinders of Circular Section (Strength and Vibration)
 Cylinders of Circular Section with Flat Ends
 Cylinders of Circular Section with Torispherical Ends
 Cylinders of Elliptical Section
 Cylinders of Laminated Construction
 Spherical Shells of Laminated Construction
 Dynamic Response to Excitation Above Ring Frequency
 equation for coupling loss factor for connected, 98020, 99009
 equation for modal density in bending, 99009
 Reinforced Symmetrical
 bending moment for given maximum panel strain, STRUCT 00.06.01
 stress distribution for given bending moment, STRUCT 00.06.01