CRC Materials Science and Engineering Handbook provides a convenient, single-volume source for physical and chemical property data on a wide range of engineering materials. As with the first three editions, this Fourth Edition contains information verified by major professional associations such as ASM International and the American Ceramic Society (ACerS).

Table of Contents

• Preface
• Authors
• Traditional Materials
• Metals
• Physical Properties
• TABLE 1.1 Electronic Structure of Selected Elements
• TABLE 1.2 Available Stable Isotopes of the Elements
• TABLE 1.3 Periodic Table of the Elements
• TABLE 1.4 Periodic Table of Elements in Metallic Materials
• TABLE 1.5 Periodic Table of Elements in Superconducting Metals
• TABLE 1.6 Atomic and Ionic Radii of the Elements
• TABLE 1.7 Key to Tables of Crystal Structure of the ElementsTABLE 1.7 Key to Tables of Crystal Structure of the Elements
• TABLE 1.8 The Seven Crystal Systems
• TABLE 1.9 The 14 Bravais Lattices
• TABLE 1.10 Periodic Table of the Body-Centered Cubic Elements
• TABLE 1.11 Periodic Table of the Face-Centered Cubic Elements
• TABLE 1.12 Periodic Table of the Hexagonal Close Packed Elements
• TABLE 1.13 Periodic Table of the Hexagonal Elements
• TABLE 1.14 Atomic Mass of Selected Elements
• TABLE 1.15 Solid Density of Selected Elements
• TABLE 1.16 Density of Iron and Iron Alloys
• TABLE 1.17 Density of Wrought Stainless Steels*
• TABLE 1.18 Density of Stainless Steels and Heat-Resistant Alloys
• TABLE 1.19 Density of Aluminum Alloys
• TABLE 1.20 Density of Copper and Copper Alloys
• TABLE 1.21 Density of Magnesium and Magnesium Alloys
• TABLE 1.22 Density of Nickel and Nickel Alloys
• TABLE 1.23 Density of Lead and Lead Alloys
• TABLE 1.24 Density of Tin and Tin Alloys
• TABLE 1.25 Density of Wrought Titanium Alloys
• TABLE 1.26 Density of Titanium and Titanium Alloys
• TABLE 1.27 Density of Zinc and Zinc Alloys
• TABLE 1.28 Density of Permanent Magnet Materials
• TABLE 1.29 Density of Precious Metals
• TABLE 1.30 Density of Superalloys
• TABLE 1.31 Specific Heat of the Elements at 25°C
• TABLE 1.32 Thermal Conductivity of Metals (Part 1)
• TABLE 1.33 Thermal Conductivity of Metals (Part 2)
• TABLE 1.34 Thermal Conductivity of Metals (Part 3)
• TABLE 1.35 Thermal Conductivity of Metals (Part 4)
• TABLE 1.36 Thermal Conductivity of Alloy Cast Irons
• TABLE 1.37 Thermal Conductivity of Iron and Iron Alloys
• TABLE 1.38 Thermal Conductivity of Aluminum and Aluminum Alloys
• TABLE 1.39 Thermal Conductivity of Copper and Copper Alloys
• TABLE 1.40 Thermal Conductivity of Magnesium and Magnesium Alloys
• TABLE 1.41 Thermal Conductivity of Nickel and Nickel Alloys
• TABLE 1.42 Thermal Conductivity of Lead and Lead Alloys
• TABLE 1.43 Thermal Conductivity of Tin, Titanium, Zinc, and their Alloys
• TABLE 1.44 Thermal Conductivity of Pure Metals
• TABLE 1.45 Thermal Expansion of Wrought Stainless Steels*
• TABLE 1.46 Thermal Expansion of Wrought Titanium Alloys
• TABLE 1.47 Linear Thermal Expansion of Metals and Alloys
• TABLE 1.48 ASTM B 601 Temper Designation Codes for Copper and Copper Alloys
• TABLE 1.49 Temper Designation System for Aluminum Alloys
• TABLE 1.50 Tool Steel Softening after 100 h
• TABLE 1.51 Tensile Strength of Tool Steels
• TABLE 1.52 Tensile Strength of Gray Cast Irons
• TABLE 1.53 Tensile Strength of Gray Cast Iron Bars
• TABLE 1.54 Tensile Strength of Ductile Irons
• TABLE 1.55 Tensile Strength of Malleable Iron Castings
• TABLE 1.56 Tensile Strength of Austenitic Stainless Steels
• TABLE 1.57 Tensile Strength of Ferritic Stainless Steels
• TABLE 1.58 Tensile Strength of Precipitation-Hardening Austenitic Stainless Steels
• TABLE 1.59 Tensile Strength of High-Nitrogen Austenitic Stainless Steels
• TABLE 1.60 Tensile Strength of Martensitic Stainless Steels
• TABLE 1.61 Tensile Strength of Wrought Coppers and Copper Alloys
• TABLE 1.62 Tensile Strength of Aluminum Casting Alloys
• TABLE 1.63 Tensile Strength of Wrought Aluminum Alloys
• TABLE 1.64 Tensile Strength of Cobalt-Base Superalloys
• TABLE 1.65 Tensile Strength of Nickel-Base Superalloys
• TABLE 1.66 Tensile Strength of Wrought Titanium Alloys at Room Temperature
• TABLE 1.67 Tensile Strength of Wrought Titanium Alloys at High Temperature
• TABLE 1.68 Tensile Strength of Refractory Metal Alloys
• TABLE 1.69 Compressive Strength of Gray Cast Iron Bars
• TABLE 1.70 Yield Strength of Tool Steels
• TABLE 1.71 Yield Strength of Ductile Irons
• TABLE 1.72 Yield Strength of Malleable Iron Castings
• TABLE 1.73 Yield Strength of Austenitic Stainless Steels
• TABLE 1.74 Yield Strength of Ferritic Stainless Steels
• TABLE 1.75 Yield Strength of Martensitic Stainless Steels
• TABLE 1.76 Yield Strength of Precipitation-Hardening Austenitic Stainless Steels
• TABLE 1.77 Yield Strength of High-Nitrogen Austenitic Stainless Steels
• TABLE 1.78 Yield Strength of Wrought Coppers and Copper Alloys
• TABLE 1.79 Yield Strength of Cast Aluminum Alloys
• TABLE 1.80 Yield Strength of Wrought Aluminum Alloys
• TABLE 1.81 Yield Strength of Wrought Titanium Alloys at Room Temperature
• TABLE 1.82 Yield Strength of Wrought Titanium Alloys at High Temperature
• TABLE 1.83 Yield Strength of Cobalt-Base Superalloys
• TABLE 1.84 Yield Strength of Nickel-Base Superalloys
• TABLE 1.85 Yield Strength of Commercially Pure Tin
• TABLE 1.86 Shear Strength of Wrought Aluminum Alloys
• TABLE 1.87 Torsion Shear Strength of Gray Cast Fe
• TABLE 1.88 Hardness of Gray Cast Irons
• TABLE 1.89 Hardness of Gray Cast Iron Bars
• TABLE 1.90 Hardness of Malleable Iron Castings
• TABLE 1.91 Hardness of Ductile Irons
• TABLE 1.92 Hardness of Tool Steels
• TABLE 1.93 Hardness of Austenitic Stainless Steels
• TABLE 1.94 Hardness of Ferritic Stainless Steels
• TABLE 1.95 Hardness of Martensitic Stainless Steels
• TABLE 1.96 Hardness of Precipitation-Hardening Austenitic Stainless Steels
• TABLE 1.97 Hardness of Wrought Aluminum Alloys
• TABLE 1.98 Hardness of Wrought Titanium Alloys at Room Temperature
• TABLE 1.99 Machinability Rating of Wrought Coppers and Copper Alloys
• TABLE 1.100 Fatigue Strength of Wrought Aluminum Alloys
• TABLE 1.101 Reversed Bending Fatigue Limit of Gray Cast Iron Bars
• TABLE 1.102 Impact Energy Of Tool Steels
• TABLE 1.103 Impact Strength of Wrought Titanium Alloys at Room Temperature
• TABLE 1.104 Tensile Modulus of Gray Cast Irons
• TABLE 1.105 Tension Modulus of Treated Ductile Irons
• TABLE 1.106 Elastic Modulus of Wrought Stainless Steels*
• TABLE 1.107 Modulus of Elasticity of Wrought Titanium Alloys
• TABLE 1.108 Compression Modulus of Treated Ductile Irons
• TABLE 1.109 Torsional Modulus of Gray Cast Irons
• TABLE 1.110 Torsion Modulus of Treated Ductile Irons
• TABLE 1.111 Rupture Strength of Refractory Metal Alloys
• TABLE 1.112 Rupture Strength of Superalloys
• TABLE 1.113 Poisson's Ratio of Wrought Titanium Alloys
• TABLE 1.114 Compression Poisson's Ratio of Treated Ductile Irons
• TABLE 1.115 Torsion Poisson's Ratio of Treated Ductile Irons
• TABLE 1.116 Elongation of Tool Steels
• TABLE 1.117 Elongation of Ductile Irons
• TABLE 1.118 Elongation of Malleable Iron Castings
• TABLE 1.119 Elongation of Ferritic Stainless Steels
• TABLE 1.120 Elongation of Martensitic Stainless Steels
• TABLE 1.121 Elongation of Precipitation-Hardening Austenitic Stainless Steels
• TABLE 1.122 Elongation of High-Nitrogen Austenitic Stainless Steels
• TABLE 1.123 Total Elongation of Cast Aluminum Alloys
• TABLE 1.124 Elongation of Wrought Coppers and Copper Alloys
• TABLE 1.125 Elongation of Commercially Pure Tin
• TABLE 1.126 Elongation of Cobalt-Base Superalloys
• TABLE 1.127 Elongation of Nickel-Base Superalloys
• TABLE 1.128 Ductility of Refractory Metal Alloys
• TABLE 1.129 Elongation of Wrought Titanium Alloys At Room Temperature
• TABLE 1.130 Elongation of Wrought Titanium Alloys at High Temperature
• TABLE 1.131 Area Reduction of Tool Steels
• TABLE 1.132 Reduction in Area of Austenitic Stainless Steels
• TABLE 1.133 Reduction in Area of Ferritic Stainless Steels
• TABLE 1.134 Reduction in Area of High-Nitrogen Austenitic Stainless Steels
• TABLE 1.135 Reduction in Area of Precipitation-Hardening Austenitic Stainless Steels
• TABLE 1.136 Reduction in Area of Martensitic Stainless Steels
• TABLE 1.137 Reduction in Area of Commercially Pure Tin
• TABLE 1.138 Area Reduction of Wrought Titanium Alloys at Room Temperature
• TABLE 1.139 Area Reduction of Wrought Titanium Alloys at High Temperature
• TABLE 1.140 Surface Tension of Elements at Melting
• TABLE 1.141 Surface Tension of Liquid Elements*
• TABLE 1.142 Electrical Conductivity of Metals
• TABLE 1.143 Electrical Resistivity of Metals
• TABLE 1.144 Electrical Resistivity of Alloy Cast Irons
• TABLE 1.145 Critical Temperature of Superconductive Elements
• Chemical Properties
• TABLE 1.146 Composition Limits of Tool Steels
• TABLE 1.147 Composition Limits of Gray Cast Irons
• TABLE 1.148 Composition Limits of Ductile Irons
• TABLE 1.149 Composition Ranges for Malleable Irons
• TABLE 1.150 Composition Ranges for Carbon Steels
• TABLE 1.151 Composition Ranges for Resulfurized Carbon Steels
• TABLE 1.152 Composition Ranges for Alloy Steels
• TABLE 1.153 Composition of Stainless Steels
• TABLE 1.154 Composition of Wrought Coppers and Copper Alloys
• TABLE 1.155 Classification of Copper and Copper Alloys
• TABLE 1.156 Composition Ranges for Cast Aluminum Alloys
• TABLE 1.157 Composition Ranges for Wrought Aluminum Alloys
• TABLE 1.158 Composition of Tin and Tin Alloys
• TABLE 1.159 Compositions of ACI Heat-Resistant Casting Alloys
• TABLE 1.160 Composition of Zinc Die Casting Alloys
• TABLE 1.161 Compositions of Wrought Superalloys
• TABLE 1.162 Solubility of Copper and Copper Alloys
• TABLE 1.163 Phase Change Thermodynamic Properties for the Elements
• TABLE 1.164 Melting Points of the Elements
• TABLE 1.165 Key to Tables of Thermodynamic Coefficients
• TABLE 1.166 Thermodynamic Coefficients for Selected Elements*
• TABLE 1.167 Entropy of the Elements
• TABLE 1.168 Vapor Pressure of the Elements at Very Low Pressures
• TABLE 1.169 Vapor Pressure of the Elements at Moderate Pressures
• TABLE 1.170 Vapor Pressure of the Elements at High Pressures
• TABLE 1.171 Values of the Error Function
• TABLE 1.172 Diffusion in Metallic Systems
• TABLE 1.173 Diffusion of Metals into Metals
• TABLE 1.174 Standard Electromotive Force Potentials
• TABLE 1.175 Galvanic Series of Metals
• TABLE 1.176 Galvanic Series of Metals in Sea Water
• TABLE 1.177 Corrosion Rate of Metals in Acidic Solutions
• TABLE 1.178 Corrosion Rate of Metals in Neutral and Alkaline Solutions
• TABLE 1.179 Corrosion Rate of Metals in Air
• TABLE 1.180 Corrosion Rates of 1020 Steel at 70°F (=21°C)*
• TABLE 1.181 Corrosion Rates of Grey Cast Iron at 70°F (= 21°C)*
• TABLE 1.182 Corrosion Rates of Ni-Resist Cast Iron at 70°F (=21°C)*
• TABLE 1.183 Corrosion Rates of 12% Cr Steel at 70°F (=21°C)*
• TABLE 1.184 Corrosion Rates of 17% Cr Steel at 70°F (=21°C)*
• TABLE 1.185 Corrosion Rates of 14% Si Iron at 70°F (= 21°C)*
• TABLE 1.186 Corrosion Rates of Stainless Steel 301 at 70°F (= 21°C)*
• TABLE 1.187 Corrosion Rates of Stainless Steel 316 at 70°F (=21°C)*
• TABLE 1.188 Corrosion Rates of Aluminum at 70°F (= 21°C)*
• TABLE 1.189 Corrosion Resistance of Wrought Coppers and Copper Alloys
• TABLE 1.190 Corrosion Rates of 70-30 Brass at 70°F (=21°C)*
• TABLE 1.191 Corrosion Rates of Copper, Sn-Braze, Al-Braze at 70°F (=21°C)*
• TABLE 1.192 Corrosion Rates of Silicon Bronze at 70°F (= 21°C)*
• TABLE 1.193 Corrosion Rates of Hastelloy at 70°F (= 21°C)*
• TABLE 1.194 Corrosion Rates of Inconel at 70°F (= 21°C)*
• TABLE 1.195 Corrosion Rates of Nickel at 70°F (= 21°C)*
• TABLE 1.196 Corrosion Rates of Monel at 70°F (= 21°C)*
• TABLE 1.197 Corrosion Rates of Lead at 70°F (= 21°C)*
• TABLE 1.198 Corrosion Rates of Titanium At 70°F (= 21°C)*
• TABLE 1.199 Corrosion Rates of ACI Heat-Resistant Castings Alloys in Air
• TABLE 1.200 Corrosion Rates for ACI Heat-Resistant Castings Alloys in Flue Gas
• Ceramics
• Physical Properties
• TABLE 2.1 Periodic Table of Elements in Ceramic Materials
• TABLE 2.2 Bond Length Values between Elements
• TABLE 2.3 Structure of Ceramics
• TABLE 2.4 Density of Selected Ceramics
• TABLE 2.5 Heat Capacity of Ceramics
• TABLE 2.6 Thermal Conductivity of Ceramics
• TABLE 2.7 Thermal Conductivity of Special Concretes*
• TABLE 2.8 Thermal Expansion of Ceramics
• TABLE 2.9 Thermal Expansion Coefficients of Materials for Integrated Circuits
• TABLE 2.10 Tensile Strength of Ceramics
• TABLE 2.11 Compressive Strength of Ceramics
• TABLE 2.12 Hardness of Ceramics
• TABLE 2.13 Young's Modulus of Ceramics
• TABLE 2.14 Modulus of Rupture for Ceramics
• TABLE 2.15 Poisson's Ratio for Ceramics
• TABLE 2.16 Resistivity of Ceramics
• TABLE 2.17 Transmission Range of Optical Materials
• TABLE 2.18 Dispersion of Optical Materials
• Chemical Properties
• TABLE 2.19 Typical Composition of Glass-Ceramics
• TABLE 2.20 Heat of Formation of Inorganic Oxides
• TABLE 2.21 Phase Change Thermodynamic Properties of Oxides
• TABLE 2.22 Melting Points of Elements and Inorganic Compounds
• TABLE 2.23 Melting Points of Ceramics
• TABLE 2.24 Heat of Fusion for Elements and Inorganic Compounds
• TABLE 2.25 Heats of Sublimation of Metals and Their Oxides
• TABLE 2.26 Thermodynamic Coefficients for Oxides
• TABLE 2.27 Vapor Pressure of Elements and Inorganic Compounds*
• Glasses
• Physical Properties
• TABLE 3.1 Density of Glasses
• TABLE 3.2 Thermal Conductivity of Glasses
• TABLE 3.3 Thermal Expansion of Glasses
• TABLE 3.4 Tensile Strength of Glass
• TABLE 3.5 Microhardness of Glass
• TABLE 3.6 Young's Modulus of Glass
• TABLE 3.7 Bulk Modulus of Glass
• TABLE 3.8 Shear Modulus of Glass
• TABLE 3.9 Poisson's Ratio of Glass
• TABLE 3.10 Viscosity of Glasses
• TABLE 3.11 Internal Friction of SiO2 Glass
• TABLE 3.12 Volume Resistivity of Glass
• TABLE 3.13 Tangent Loss in Glass
• TABLE 3.14 Electrical Permittivity of Glass
• Chemical Properties
• TABLE 3.15 Diffusion of Gas in Glass*
• Polymers
• Physical Properties
• TABLE 4.1 Periodic Table of Elements in Polymeric Materials
• TABLE 4.2 Periodic Table of Carbon Bond Lengths (Å)
• TABLE 4.3 Carbon Bond Lengths
• TABLE 4.4 Carbon Bond Lengths in Polymers
• TABLE 4.5 Bond Angle Values between Elements
• TABLE 4.6 Specific Gravity of Polymers
• TABLE 4.7 Specific Heat of Polymers
• TABLE 4.8 Thermal Conductivity of Cryogenic Insulation
• TABLE 4.9 Thermal Conductivity of Cryogenic Supports
• TABLE 4.10 Thermal Conductivity of Polymers
• TABLE 4.11 Thermal Expansion of Polymers
• TABLE 4.12 Thermoplastic Polyester Softening with Temperature
• TABLE 4.13 Tensile Strength of Polymers
• TABLE 4.14 Yield Strength of Polymers
• TABLE 4.15 Compressive Yield Strength of Polymers
• TABLE 4.16 Flexural Strength of Polymers
• TABLE 4.17 Hardness of Polymers
• TABLE 4.18 Coefficient of Static Friction for Polymers
• TABLE 4.19 Abrasion Resistance of Polymers
• TABLE 4.20 Impact Strength of Polymers
• TABLE 4.21 Modulus of Elasticity in Tension for Polymers
• TABLE 4.22 Modulus of Elasticity in Compression for Polymers
• TABLE 4.23 Modulus of Elasticity in Flexure for Polymers
• TABLE 4.24 Total Elongation of Polymers
• TABLE 4.25 Elongation at Yield for Polymers
• TABLE 4.26 Volume Resistivity of Polymers
• TABLE 4.27 Dissipation Factor for Polymers
• TABLE 4.28 Dielectric Strength of Polymers
• TABLE 4.29 Step Dielectric Strength of Polymers
• TABLE 4.30 Dielectric Constant of Polymers
• TABLE 4.31 Dielectric Breakdown of Polymers: Short Time
• TABLE 4.32 Dielectric Breakdown of Polymers: Step by Step
• TABLE 4.33 Arc Resistance of Polymers
• TABLE 4.34 Transparency of Polymers
• TABLE 4.35 Refractive Index of Polymers
• Chemical Properties
• TABLE 4.36 Bond Strengths in Diatomic Molecules*
• TABLE 4.37 Bond Strengths of Polyatomic Molecules*
• TABLE 4.38 Water Absorption of Polymers
• TABLE 4.39 Flammability of Polymers
• Composites
• Physical Properties
• TABLE 5.1 Density of 55MSI* Graphite/6061 Aluminum Composites
• TABLE 5.2 Density of Graphite Fiber-Reinforced Metals
• TABLE 5.3 Density of Si3N4 Composites
• TABLE 5.4 Specific Heat of Fiberglass-Reinforced Plastics
• TABLE 5.5 Thermal Conductivity of SiC Whisker-Reinforced Ceramics
• TABLE 5.6 Thermal Conductivity of Fiberglass-Reinforced Plastics
• TABLE 5.7 Thermal Expansion of Graphite Magnesium Castings*
• TABLE 5.8 Thermal Expansion of SiC Whisker-Reinforced Ceramics
• TABLE 5.9 Thermal Expansion of Silicon Carbidea SCS-2-Al
• TABLE 5.10 Heat-Deflection Temperature of Carbon- and Glass-Reinforced Engineering Thermoplastics
• TABLE 5.11 Tensile Strength of Fiberglass-Reinforced Plastics
• TABLE 5.12 Tensile Strength of Carbon- and Glass-Reinforced Engineering Thermoplastics
• TABLE 5.13 Strength of Graphite Fiber-Reinforced Metals
• TABLE 5.14 Tensile Strength of Graphite/Magnesium Castings*
• TABLE 5.15 Tensile Strength of Graphite/Aluminum Composites
• TABLE 5.16 Tensile Strength of Graphite/Aluminum Composites
• TABLE 5.17 Tensile Strength of Silicon Carbide* SCS-2-Al
• TABLE 5.18 Ultimate Tensile Strength of Investment Cast Silicon Carbide* SCS-Al
• TABLE 5.19 Ultimate Tensile Strength of Silicon Carbide- Aluminum Alloy Composites*
• TABLE 5.20 Tensile Strength of SiC Whisker-Reinforced Aluminum Alloy
• TABLE 5.21 Ultimate Tensile Strength of Aluminum Alloy Reinforced with SiC Whiskers versus Temperature
• TABLE 5.22 Ultimate Tensile Strength of Reinforced Aluminum Alloy versus Temperature
• TABLE 5.23 Tensile Strength of Polycrystalline Alumina- Reinforced Aluminum Alloy
• TABLE 5.24 Tensile Strength of Boron/Aluminum Composites*
• TABLE 5.25 Compressive Strength of Fiberglass-Reinforced Plastic
• TABLE 5.26 Ultimate Compressive Strength of Investment Cast Silicon Carbide* SCS-Al
• TABLE 5.27 Yield Strength of SiC Whisker-Reinforced Aluminum Alloy
• TABLE 5.28 Yield Strength of Reinforced Aluminum Alloy versus Temperature
• TABLE 5.29 Yield Strength of Polycrystalline Alumina-Reinforced Aluminum Alloy
• TABLE 5.30 Flexural Strength of Fiberglass-Reinforced Plastics
• TABLE 5.31 Hardness of Si3N4 and Al2O3 Composites
• TABLE 5.32 Impact Strength of Fiberglass-Reinforced Plastics
• TABLE 5.33 Impact Strength of Carbon- and Glass-Reinforced Engineering Thermoplastics
• TABLE 5.34 Fracture Toughness of Si3N4 and Al2O3 Composites
• TABLE 5.35 Tensile Modulus of Fiberglass-Reinforced Plastics
• TABLE 5.36 Tensile Modulus of Graphite/Aluminum Composites
• TABLE 5.37 Tensile Modulus of Investment Cast Silicon Carbide* SCS-Al
• TABLE 5.38 Tensile Modulus of Silicon Carbide* SCS-2-Al
• TABLE 5.39 Modulus of Elasticity of 55MSI* Graphite/6061 Aluminum Composites
• TABLE 5.40 Modulus of Elasticity of Graphite/Magnesium Castings*
• TABLE 5.41 Modulus of Elasticity of Graphite/Aluminum Composites
• TABLE 5.42 Modulus of Elasticity of Graphite Fiber- Reinforced Metals
• TABLE 5.43 Modulus of Elasticity of SiC Whisker- Reinforced Aluminum Alloy
• TABLE 5.44 Modulus of Elasticity of Polycrystalline Alumina-Reinforced Aluminum Alloy
• TABLE 5.45 Modulus of Elasticity of Boron/Aluminum Composites*
• TABLE 5.46 Flexural Modulus of Fiberglass-Reinforced Plastics
• TABLE 5.47 Flexural Modulus of Carbon- and Glass-Reinforced Engineering Thermoplastics
• TABLE 5.48 Modulus of Rupture for Si3N4 and Al2O3 Composites
• TABLE 5.49 Poisson's Ratio of Silicon Carbide* SCS-2-Al
• TABLE 5.50 Ultimate Tensile Elongation of Fiberglass-Reinforced Plastics
• TABLE 5.51 Total Strain of Silicon Carbide* SCS-2-Al
• TABLE 5.52 Strength Density Ratio of Graphite Fiber-Reinforced Metals
• TABLE 5.53 Modulus Density Ratio of Graphite Fiber-Reinforced Metals
• Chemical Properties
• TABLE 5.54 Flammability of Fiberglass-Reinforced Plastics
• Semiconductors
• Physical Properties
• TABLE 6.1 Periodic Table of Elements in Semiconducting Materials
• Chemical Properties
• TABLE 6.2 Diffusion in Semiconductors*
• Advanced Materials
• Low-Dimensional Carbons and Two-Dimensional Nanomaterials
• Physical Properties
• TABLE 7.1 Energies and Bond Lengths at Nanotube/Diamond Interfacesa
• TABLE 7.2 Thermal Properties of Low-Dimensional Carbons
• TABLE 7.3 Mechanical Properties of Low-Dimensional Carbons
• TABLE 7.4 Mechanical Properties of Nano-Crystalline Diamond Thin Films
• TABLE 7.5 Properties of Ultra Nano-Crystalline Diamond (UNCD) and Nano-Crystalline Diamond (NCD) Thin Films
• TABLE 7.6 Electronic Properties of Low-Dimensional Carbons
• TABLE 7.7 Electrical Properties of Two-Dimensional Nanomaterials
• TABLE 7.8 Resistivity of TaxMo1-xS2 Phases and Corresponding Pyridine Intercalation Compounds and Polyethylene Oxide (PEO) Nanocomposites
• Chemical Properties
• TABLE 7.9 Triple Point and Critical Point* for C60
• TABLE 7.10 Solution of Single-Wall Nanotubes (SWNT) and Multiwall Nanotubes (MWNT) in Various Solvents
• MAX Phases*
• Physical Properties
• TABLE 8.1 Mn+1AXn Phases
• TABLE 8.2 Density, Shear Modulus (G), Young's Modulus (E), Poisson's Ratio (ν), and Longitudinal and Shear Sound Velocities for MAX Phases
• TABLE 8.3 Thermal Conductivities (in W/m K) for MAX and MX Phases at 300 and 1300 K*
• TABLE 8.4 Thermal Expansion Coefficients of MAX Phases*,**
• TABLE 8.5 Room Temperature Breaking Stress of MAX Phases
• TABLE 8.6 Room Temperature Fracture Toughness of MAX Phases
• TABLE 8.7 Electrical Resistivity, Residual-Resistivity Ratio, and Temperature Coefficient of Resistivity of MAX Phases
• Chemical Properties
• TABLE 8.8 Environmental Stability of MAX Phases
• References
• Amorphous Metals
• Physical Properties
• TABLE 9.1 Mechanical Properties* of Metallic Glasses
• TABLE 9.2 Fatigue Limits and Fatigue Ratios of Bulk Metallic Glasses under Bending, Uniaxial, and Rotating Loads
• TABLE 9.3 Effect of Strain Rate on the Fracture Strength of Metallic Glass Alloys
• TABLE 9.4 Mechanical Properties* of Bulk Metallic Glasses and their Composites
• TABLE 9.5 Electrical Resistivity* of Bulk Metallic Glasses**
• TABLE 9.6 Magnetic Properties* of Bulk Metallic Glasses
• References