Tab Article

Introduction

Mechanical/Bearing
Chapter 1 : Bearing Strength
Chapter 2 : Bending Yield Strength

Mechanical/Bending
Chapter 3 : Bending Strength

Mechanical/Compressive
Chapter 4 : Compressive Strength
Chapter 5 : Compressive Yield Strength

Mechanical/Creep
Chapter 6 : Activation Energy for Creep
Chapter 7 : Creep Rate
Chapter 8 : Creep Strain
Chapter 9 : Creep Strength
Chapter 10 : Creep-Rupture Ductility (%El)
Chapter 11 : Creep-Rupture Ductility (%RA)
Chapter 12 : Creep-Rupture Strength
Chapter 13 : Notch Rupture Strength
Chapter 14 : Primary Creep
Chapter 15 : Rupture Life
Chapter 16 : Secondary Creep
Chapter 17 : Tertiary Creep

Mechanical/Damping
Chapter 18 : Acoustic Dissipation
Chapter 19 : Damping Capacity
Chapter 20 : Damping Factor

Mechanical/Deformation
Chapter 21 : Flow Stress
Chapter 22 : Hall-Petch Friction Stress
Chapter 23 : Hall-Petch Grain Size Constant
Chapter 24 : Strain-Hardening Exponent
Chapter 25 : Strain-Rate Sensitivity
Chapter 26 : Strength Coefficient

Mechanical/Elastic
Chapter 27 : Bulk Modulus
Chapter 28 : Chord Modulus
Chapter 29 : Poisson’s Ratio
Chapter 30 : Secant Modulus
Chapter 31 : Shear Modulus
Chapter 32 : Tangent Modulus
Chapter 33 : Young’s Modulus

Mechanical/Fatigue
Chapter 34 : Cyclic Strain-Hardening Exponent
Chapter 35 : Cyclic Strength Coefficient
Chapter 36 : Cyclic Yield Strength
Chapter 37 : Fatigue Crack Growth Rate
Chapter 38 : Fatigue Ductility Coefficient
Chapter 39 : Fatigue Ductility Exponent
Chapter 40 : Fatigue Endurance Ratio
Chapter 41 : Fatigue Life (Cycles)
Chapter 42 : Fatigue Life (Time)
Chapter 43 : Fatigue Limit
Chapter 44 : Fatigue Notch Factor
Chapter 43 : Fatigue Strength
Chapter 44 : Fatigue Strength Coefficient
Chapter 45 : Fatigue Strength Exponent
Chapter 46 : Stress Concentration Factor

Mechanical/Forming & Processing
Chapter 47 : Bend Radius
Chapter 48 : Plastic Strain Ratio

Mechanical/Fracture
Chapter 49 : Crack-Arrest Toughness
Chapter 50 : Critical Value of The J-Integral
Chapter 51 : Ductile-Brittle Transition temperature
Chapter 52 : Dynamic Fracture Toughness
Chapter 53 : Dynamic Tear Energy
Chapter 54 : Fracture Appearance Transition Temperature
Chapter 55 : Fracture Ductility
Chapter 56 : Fracture Stress
Chapter 57 : Fracture Toughness
Chapter 58 : Impact Toughness
Chapter 59 : Nil Ductility Transition Temperature
Chapter 60 : Plane-Strain Fracture Toughness
Chapter 61 : Plane-Stress Fracture Toughness

Mechanical/Hardness
Chapter 62 : Hardness Tables
Chapter 63 : Brinell Hardness
Chapter 64 : Knoop Hardness
Chapter 65 : Rockwell Hardness
Chapter 66 : Scleroscope Hardness
Chapter 67 : Vickers Hardness

Mechanical/Shear
Chapter 68 : Shear Strength
Chapter 69 : Shear Yield Strength

Mechanical/Tensile
Chapter 70 : Elongation
Chapter 71 : Notch Tensile Strength
Chapter 72 : Reduction of Area
Chapter 73 : Tensile Strength
Chapter 74 : Tensile Yield Strength
Chapter 75 : Yield Point

Mechanical/Atomic
Chapter 76 : Atomic Number
Chapter 77 : Atomic Weight
Chapter 78 : Ionization Potential
Chapter 79 : Neutron Cross Section

Physical/Corrosion
Chapter 80 : Corrosion Potential
Chapter 81 : Corrosion Rate
Chapter 82 : Critical Pitting Potential
Chapter 83 : Decomposition Potential
Chapter 84 : Electrode Potential
Chapter 85 : Electrokinetic Potential
Chapter 86 : Equilibrium Potential
Chapter 87 : Redox Potential
Chapter 88 : Repassivation Potential
Chapter 89 : SCC Threshold
Chapter 90 : Standard Electrode Potential
Chapter 91 : Weight Gain
Chapter 92 : Weight Loss

Physical/Electrical
Chapter 93 : Critical Current Density of Superconductivity
Chapter 94 : Critical Field Strength of Superconductivity
Chapter 95 : Critical Temperature of Superconductivity
Chapter 96 : Dissipation Factor
Chapter 97 : Electrical Conductivity
Chapter 98 : Relative Resistivity
Chapter 99 : Resistivity
Chapter 100 : Thermal Coefficient of Resistivity
Chapter 101 : Thermoelectric Potential
Chapter 102 : Weight Conductivity
Chapter 103 : Weight Resistivity

Physical/Magnetic
Chapter 104 : Coercive Force
Chapter 105 : Coercivity
Chapter 106 : Curie Temperature
Chapter 107 : Hall Coefficient
Chapter 108 : Intrinsic Magnetic Induction
Chapter 109 : Magnetic Core Loss
Chapter 110 : Magnetic Energy Product
Chapter 111 : Magnetic Field Strength
Chapter 112 : Magnetic Field Strength at BHmax
Chapter 113 : Magnetic Hysteresis Loss
Chapter 114 : Magnetic Induction
Chapter 115 : Magnetic Induction at Bhmax
Chapter 116 : Magnetic Peak Inductance
Chapter 117 : Magnetic Permeability
Chapter 118 : Magnetic Residual Induction
Chapter 119 : Magnetic Susceptibility
Chapter 120 : Magnetizing Field Requirement
Chapter 121 : Magnetoresistance Coefficient
Chapter 122 : Mass Susceptibility
Chapter 123 : Molar Susceptibility
Chapter 124 : Relative Permeability
Chapter 125 : Volume Susceptibility

Physical/Mass
Chapter 126 : Compressibility
Chapter 127 : Density
Chapter 128 : Dynamic Viscosity
Chapter 129 : Kinematic Viscosity
Chapter 130 : Velocity of Sound

Physical/Microstructure
Chapter 131 : Grain Size
Chapter 132 : Lattice Parameter

Physical/Surface
Chapter 133 : Optical Reflectance
Chapter 134 : Surface Energy
Chapter 135 : Surface Tension
Chapter 136 : Work Function

Physical/Thermal
Chapter 137 : Coefficient of Linear Thermal Expansion
Chapter 138 : Coefficient of Volumetric Thermal Expansion
Chapter 139 : Diffusion Coefficient
Chapter 140 : Diffusion Frequency Factor
Chapter 141 : Electronic Heat Capacity
Chapter 142 : Emittance
Chapter 143 : Enthalpy of Combustion
Chapter 144 : Heat Capacity
Chapter 145 : Latent Heat of Evaporation
Chapter 146 : Latent Heat of Fusion Liquidus Temperature
Chapter 147 : Melting Point
Chapter 148 : Melting Range
Chapter 149 : Normal Boiling Point
Chapter 150 : Service Temperature (Continuous)
Chapter 151 : Service Temperature (Maximum)
Chapter 152 : Solidus Temperature
Chapter 153 : Specific Heat Capacity
Chapter 154 : Thermal Conductivity
Chapter 155 : Thermal Diffusivity
Chapter 156 : Vapor Pressure

Index