From the 1980’s it has been generally recognized that there has been an overall drop in the quality of raw materials in the steel making industry.
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2016年
Optimizing Refining Process (LD-ORP): Part One
Oxide Dispersion-Strengthened (ODS) Steels: Part Two
Oxide dispersion strengthened (ODS) steels are under scrutiny for a number of reasons but one of the main applications for which they are promising are in-core structural materials for sodium fast reactors.
The High Pressure Torsion (HPT) Process
The high pressure torsion process compacts the material under very high pressure between two plungers producing a very specific material microstructure.
Pulsed Electric Current Sintering (PECS)
Pulsed Electric Current Sintering is a relatively new technique which in essence is process which can create near full density contacts at relatively low temperatures.
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- Introduction to the ASTM Designation System
- ASTM Standard List: Iron, Nickel Alloy/Heat Resistant Nickel Alloys and High Silicon Steels
- ASTM Standard List - Structural and Constructional Steels Standards: Part One
- ASTM Standard List - Structural and Constructional Steels Standards: Part Two
- ASTM Standard List - Structural and Constructional Steels Standards: Part Three
- ASTM Standard List - Structural and Constructional Steels Standards: Part Four
- ASTM Standard List - Structural and Constructional Steels Standards: Part Five
- ASTM Standard List: Stainless Steels
- ASTM Standard List: Castings
- ASTM Standard List: Forgings, Welding and Filler Materials and Powder Metallurgy
- ASTM Standard List: Coated Steels
- ASTM Standard List: Ferro Alloys, Other Materials and Terms and Definitions
- ASTM Standard List: Testing and Determination
- Introduction to the Euronorm Standard Designation System
- Euronorm Standard List - Structural and Constructional Steels Standards: Part One
- Euronorm Standard List - Structural and Constructional Steels Standards: Part Two
- Euronorm Standard List: Stainless Steels and Welding and Filler Materials
- Euronorm Standard List: Electrical Steels, Coated Steels, Castings and Forgings
- Euronorm Standard List: Aluminium Materials
- Euronorm Standard List: Aerospace Series
- Euronorm Standard List: Wrought, Castings, Ingots, and Remelting
- Euronorm Standard List: Copper Materials
- Introduction to the JIS Designation System
- JIS Standard List: Iron, Structural and Constructional Steels, Stainless Steels and Coated Steels
- JIS Standard List: Castings, Forgings, Welding and Filler Materials and Powder Metallurgy/Sintered M
- Introduction to the GB Standard Designation System
- GB Standard List: Irons, Structural and Constructional Steels, Stainless Steels, Castings and Welding
- Introduction to the SAE-AISI Designation System
- AISI-SAE Standard Lists: Structural and Constructional Steels, Stainless and Heat Resisting Steels
- Introduction to the SAE AMS Designation System
- SAE AMS Standard List - Stainless Steels: Part One
- SAE AMS Standard List - Stainless Steels: Part Two
- SAE AMS Standard List: Nickel Alloys and Heat Resistant Nickel Alloys
- SAE AMS Standard List: Irons & Steel Castings
- SAE AMS Standard List: Forging Materials
- SAE AMS Standard List: Coated Steels & Welding and Filler Materials
- Introduction to the GOST Designation System
- GOST Standard List
- Introduction to the UNI Designation System
- UNI Standards for Steel Materials
- Other Designation Systems
- Australian (AS) Standards for Steel Materials
- British (B.S.) Standards for Steel Materials
- Bulgarian (BDS) Standards for Steel Materials
- French (AFNOR) Standards for Steel Materials
- Hungarian (MSZ) Standards for Steel Materials
- Italian (UNI) Standards for Steel Materials
- Polish (PN/H) Standards for Steel Materials
- Spanish (UNE) Standards for Steel Materials
- Yugoslav (JUS) Standards for Steel Materials
- General Classification
- Classification of Cast Iron
- Specifications for Ductile Iron
- Introduction to the Unified Numbering System (UNS) of Ferrous Metals and Alloys
- Introduction to the Unified Numbering System (UNS) of Nonferrous Metals and Alloys
- Designing to Codes and Standards
- Designation of Carbon and Low-Alloy Steels
- Classification of Carbon and Low-Alloy Steels
- Classification of Stainless Steels
- Classification of Tool Steels
- Classification and Designation of Welding Filler Materials
- Classification Properties of Aluminum and Aluminum Alloys
- Classification and Properties of Copper Alloys
- General Designation Systems
- European Standards for Metalic Materials I
- European Standards for Metalic Materials II
- US ASTM Standards for Steel
- Group of ASTM Standards for Steel Pipes, Tubes and Fittings
- Group of ASTM Standards for Steel Castings and Forgings
- Group of ASTM Standards for Steel Plate, Sheet, Strip and Wire
- Group of ASTM Standards for Steel Plates
- AISI Designation System
- Chinese (GB) Standards for Steel Materials
- Alloy Designation Systems for Non-Ferrous Metals According to DIN 17007
- Alloy Designation Systems for Aluminum and Aluminum Alloys
- EN Numerical Designation System for Alloyed Aluminum Ingots (for Remelting, Master Alloys and Castings)
- UNS Designations for Copper and Copper Alloys
- Magnesium Alloy and Temper Designations
- Cross-reference Tables of Aluminum and Aluminum Alloys According to DIN 1725
- Cross-reference Tables for DIN Aluminum Wrought Alloys: Part One
- Cross-reference Tables for DIN Aluminum Wrought Alloys: Part Two
- Cross-referencing Between Numeric and Alphanumeric Temper Designations According to DIN 17670 and DIN 17671
- Cross-referencing Between Numeric and Alphanumeric Temper Designations According to DIN 17672 and DIN 17673
- Temper Designation System for Non-heat Treatable Al Alloys
- Temper Designation System for Heat Treatable Al Alloys
- Temper Designations for Cu and Cu Alloys -- Wrought and Cast
- Temper Designations Of Magnesium Alloys, Cast and Wrought
- From the History of Iron and Steel Making: Part One
- From the History of Iron and Steel Making: Part Two
- The Iron-Carbon Equilibrium Diagram
- The Effects of Alloying Elements on Iron-Carbon Alloys
- Iron and Its Interstitial Solid Solutions
- High-Alloy White Irons
- Malleable Cast Iron
- Gray Iron
- Austempered Ductile Iron
- Structure of Plain Steels
- Steel-making Processes
- The Oxygen Steelmaking Process: Part One
- Steel Deoxidation: Part One
- Steel Deoxidation: Part Two
- Reoxidation of Steels: Part One
- Clean Steel: Part One
- Clean Steel: Part Two
- Clean Steel: Part Three
- Control of Sulfur in Melts: Part One
- Effect of Phosphorus on the Properties of Carbon Steels: Part One
- Effect of Phosphorus on the Properties of Carbon Steels: Part Two
- Residual Elements in Steel
- Nitrogen in Steels: Part One
- Nitrogen in Steels: Part Two
- Hydrogen in Steels
- Boron in Steel: Part One
- Boron in Steel: Part Two
- Thermodynamics of TiN Formation in Melts: Part One
- Thermodynamics of TiN Formation in Melts: Part Two
- Basic Principles of Arc Welding
- Relation Between CE Structure and Mechanical Properties
- Properties of Maraging Steels
- Maraging Tool Steels
- Bainitic Steels: Part One
- Bainitic Steels: Part Two
- Multi Phase Twinning-Induced Plasticity (TWIP) Steel
- Cold Work Tool Steels
- Hot Work Tool Steels
- High Speed Steels
- Cold Rolled Steels
- Hardenable Carbon Steels
- Ultra-Fine Grained Steels
- Microstructures in Austenitic Stainless Steels
- 9–12% Chromium Steels: Part One
- 9–12% Chromium Steels: Part Two
- Plastic Mold Steels
- Metallography: Part One
- Metallography: Part Two
- Complex Phase Steels
- Steel Pressure Vessels
- Metallography: Part Three
- High Strength Low Alloy V Steels: Part One
- Bainitic Rail Steels
- Ultra Low Carbon Bainitic Steels: Part One
- Ultra Low Carbon Bainitic Steels: Part Two
- Nickel Alloy Steels: Part One
- CMnAlSi TRIP Steels: Part One
- CMnAlSi TRIP Steels: Part Two
- Nickel Steels Part Two
- Production of HIC Resistant Steels
- Manganese Sulphide Inclusions in Steel: Part One
- Semi-Austenitic Stainless Steels
- Ultra Low Carbon Interstitial Free Steels
- High Silicon Cast Iron
- Aluminum and Aluminum Alloys
- Aluminum Alloys: Terms, Definitions and Products
- Aluminum Alloys: Effects of Alloying Elements
- Aluminum - Lithium Alloys
- High Strength Aluminum P/M Alloys
- Resistance to Fracture of AlZnMgCu (AA7000) High Strength Aluminum Alloys
- Surface Treatment Of Aluminum And Aluminum Alloys
- Aluminum – Copper Alloys
- Aluminum-Magnesium-Silicon (6000) Alloys
- Aluminum-Magnesium (5000) Alloys
- Aluminum-Zinc-Magnesium Alloys
- Aluminum–Silicon Alloys
- Aluminum and Aluminum Alloys Casting Problems
- Sintered Aluminum Powder (SAP)
- High Strength Aluminum P/M Alloys
- How Deformation Affects the Mechanical Properties of Aluminum Forgings
- Metallurgical Factors Affecting High Strength Aluminum Alloy Production
- Aluminum Alloy 7075: The Relation between Microstructure and Toughness
- The Effect of Ingot Processing on Fatigue Properties of 7475-T6 Plates
- Rapidly Solidified Aluminum Alloys
- Hot Forming of Al-Mg Alloy Sheet
- The Influence of Microstructure on High Temperature Properties of 2024 Alloy
- Work Hardening Aluminum Alloys: Part One
- Work Hardening Aluminum Alloys: Part Two
- Microalloying of Advanced Al-Zn-Mg-Cu Alloy
- Ballistic Protection Efficiency of Aluminum Alloys
- Melting and Alloying Aluminum Alloys
- Formability Tests of 2036-T4 Aluminum Alloy: Part One
- Zinc-Aluminum Alloys as Tribomaterials
- Recycling Aluminum Alloys
- Copper and Copper Alloys
- High Strength Copper–Beryllium Alloys
- Copper and Copper Alloys Casting Problems
- Copper-Zinc Alloys: The Brasses
- Cooper-Tin Alloys: The Bronzes
- The Electrical Conductivity of Wrought Copper and Copper Alloys
- Effects of Composition, Processing, and Structure on Properties of Copper and Copper Alloys
- Copper and Copper Alloy Castings
- High Strength Casting Copper Alloys
- Gunmetals and Leaded Bronzes
- Phosphor Bronzes
- Copper Matrix Hardening by Alumina Particles
- Copper Alloys for Bearing Applications: Part One
- Copper Alloys for Bearing Applications: Part Two
- Copper Alloys Applications in Electrical Engineering
- Physical Properties of Titanium and Its Alloys
- Casting and Powder Metallurgy Titanium Alloys
- Titanium and Titanium Alloys
- Titanium Alloying and Heat Treatment
- Effect of Environment on the Cracks Behavior in TA6V Alloy
- Chemical and Mechanical Properties of Titanium and Its Alloys
- Titanium and Its Alloys: Selection of Materials and Applications
- Fundamentals of Gamma Titanium Aluminides
- Titanium Alloys and Their Characteristics: Part One
- Titanium Alloys and Their Characteristics: Part Two
- Tin and Tin Alloys
- Zinc and Zinc Alloys
- Lead and Lead Alloys
- Nickel and Nickel Alloys
- Magnesium and Magnesium Alloys
- Cobalt and Cobalt Alloys
- Refractory Metals: Tungsten and Tungsten alloys
- Refractory Metals: Niobium, Molybdenum and Rhenium
- Toughness Variation for Liquid Phase Sintered W-Ni-Fe
- Aluminum Bronzes: Part Two
- Gold and Gold Alloys
- Precipitation Hardening of Aluminum Alloys
- Platinum and Its Use
- Silver and Silver Alloys
- Al-Cu-Mg-Ag Alloys
- High Strength Copper-Titanium Alloys: Part One
- High Strength Copper-Titanium Alloys: Part Two
- Precious Metals
- Copper Spinodal Alloys: Part One
- Super Plastic Aluminum
- Copper Spinodal Alloys: Part Two
- Titanium Aluminide Alloys: Part One
- Titanium Aluminide Alloys: Part Two
- Tribological properties of Aluminum Alloys: Part One
- Tribological Properties of Aluminum Alloys: Part Two
- Tungsten Heavy Alloys
- Refractory Metals: Part One
- Refractory Metals: Part Two
- Minor Metals & Mineral Conservation an Overview: Part One
- Minor Metals & Mineral Conservation an Overview: Part Two
- Minor Metals & Mineral Conservation an Overview: Part Three
- Hafnium Alloys: Part One
- Minor Metals & Mineral Conservation an Overview: Part Four
- Hafnium Alloys: Part Two
- Solidification Processing of Sn-Pb Alloys in Magnetic Fields: Part One
- Solidification Processing of Sn-Pb Alloys in Magnetic Fields: Part Two
- Extractive Metallurgy of Non-Ferrous Metals: Part One
- Extractive Metallurgy of Non-Ferrous Metals: Part Two
- Minor Metals & Mineral Conservation an Overview: Part Five
- Aluminum-Lithium Alloys: Part One
- The Ring Rolling Process
- AlMg Alloys: Part Two
- AlMgSi Alloys
- Copper Beryllium Alloys
- Copper Foil Manufacturing
- MAB and NAB Alloys
- Magnesium-Zirconium Alloys
- Tungsten Carbide Metals: Part One
- Tungsten Carbide Metals Part Two
- INVAR Alloys
- Cast Irons
- Standard Terminology Related to Iron Castings
- Cast Steel
- Cast Carbon Steels
- Casting Defects in Steels
- Control of High Strength Low Alloy (HSLA) Steel Properties
- High-Strength Structural and HSLA Steels
- Alloy Steels
- Alloyed Tool and Die Steels
- Characteristics of Alloying Elements
- Strengthening Mechanisms in Alloy Steel
- Hardenable Alloy Steels
- Influence of Alloying Elements on Steel Microstructure
- Steel Rolling
- Controlled Rolling of Low Alloy Steels
- Forging
- The Rotary Forge
- Processing of Microalloyed Forging Steels
- Effects on the Martensite, Pearlite and Bainite Formation
- High-Strength Steels for Aerospace Forgings
- Austenitic Manganese Steels
- Production of Stainless Steel: Part One
- Production of Stainless Steel: Part Two
- Production of Stainless Steels: Part Three
- Electroslag Remelting Process: Part One
- Electroslag Remelting Process: Part Two
- Soft Magnetic Alloys
- Production of Sheet Bimetal
- Indirect Compression Systems of Deformation
- Laser Forming
- Vermicular Graphite Cast Iron
- Cold Working Processes
- Modern Strip Production Technologies
- Industrial Casting Applications
- Increasing the Efficiency on ERW/HFI Tube Mills: Part One
- Cold and Hot Forging: An Overview
- Increasing the Efficiency on ERW/HFI Tube Mills: Part Two
- Production of Creep-Resistant Steels for Turbines: Part One
- Production of Creep-Resistant Steels for Turbines: Part Two
- Metal Stamping Dies: Part One
- Metal Stamping Dies: Part Two
- Hydro-Forming Process of Steel: Part One
- Production Technology of Cored Wire Used for Liquid Metal Treatment in Steel Plants: Part One
- Hydro-forming Process of Steel: Part Two
- Cored Wire Production: Part Two
- Bake Hardenable Steels
- Production Technology of Cored Wire Used for Liquid Metal Treatment in Steel Plants: Part Three
- Production Technology of Cored Wire Used for Liquid Metal Treatment in Steel Plants: Part Four
- Vacuum Casting: Part Two
- Tube Hydroforming: Part One
- Tube Hydroforming: Part Two
- Lean Duplex Stainless Steel
- Cored Wire: Part Five
- Thermo-Mechanical Control Processes: Part One
- High Carbon Steels
- Inoculation Mechanisms: Part One
- TMCP Steel for Offshore Structures
- Production of High Nitrogen Steels: Part One
- High Strength Low Alloy V Steels: Part Two
- Precision Forging: Part One
- Production of High Nitrogen Steels: Part Two
- High Strength Low Alloy V Steels: Part Three
- TMCP Steels for Offshore Structures: Part Two
- Production of High Nitrogen Steels: Part Three
- Heavy Steel Castings
- The Origins of Oxide Inclusions
- Abrasive Blast Cleaning: Part One
- Isostatic Pressing
- Abrasive Blast Cleaning: Part Two
- Vacuum Degassing for Steel Castings
- Cold Pilger Rolling: Part One
- Abrasive Blast Cleaning: Part Three
- Cold Pilger Rolling: Part Two
- Inoculation Mechanisms: Part Two
- Pre-Painted Steels: Part One
- Deep Hole Drilling
- Copper Bearing HSLA Steel: Part One
- The HYTEMP Iron Process
- Cold Extrusion of Steel: Part One
- Vitreous Enamel: Part Two
- Electromagnetic Stirring
- Cold Extrusion Steel: Part Two
- Free-Machining of Stainless Steels
- Cold Forging Processes
- The Cold Forging Process: Part Two
- Aluminum-Lithium Alloys: Part Two
- The Cyclone Converter Furnace Process (CCF)
- Vacuum Induction Melting
- Tandem Rolling Process
- Twin Drum Casting of Steel
- Shape Rolling
- Orbital Welding
- TBOF Post Combustion
- ESR Slag
- The AusIron Process
- Sheet Metal Forming Processes
- Manganese Sulphide Inclusions in Steel: Part Two
- Hot Torsion Testing: Part One
- Hot Torsion Testing: Part Two
- Sacrificial Anodes: Part One
- Dent Resistant Steels
- Sensitization of Austenitic Stainless Steels
- The Iron Pelletizing Process: Part One
- Induction Hardening of Steels
- Press Hardening Steels
- The CLU Converter Process
- Medium Manganese Steels
- Spark Plasma Sintering
- The Pressure Electroslag Remelting Process (PESR)
- Oxide Dispersion-Strengthened (ODS) Steels: Part 1
- iBOF Endpoint Control Technology
- Optimizing Refining Process (LD-ORP): Part One
- Oxide Dispersion-Strengthened (ODS) Steels: Part Two
- The High Pressure Torsion (HPT) Process
- Aluminum Foundry Products
- Aluminum Casting Processes
- Thermomechanical Processing of 7075 Aluminum Alloys
- Thermomechanical Treatments of Aluminum Alloys
- Aluminum Strip Casting for Thin Gauge Foil Production
- Al-Fe Conductor Alloys: Part One
- Al-Fe Conductor Alloys: Part Two
- Spray Forming of Aluminum-Alloy Products: Part One
- Spray Forming of Aluminum-Alloy Products: Part Two
- Spray Rolling of Aluminum Strip
- Commercial Forms of Aluminum Alloys: Part One
- Commercial Forms of Aluminum Alloys: Part Two
- Property Control in Production of Aluminum Sheet: Part One
- Property Control in Production of Aluminum Sheet: Part Two
- Property Control in Production of Aluminum Sheet: Part Three
- Copper and Copper Alloy Casting Methods
- Forming of the Titanium and Titanium Alloys: Part One
- Fabrication of Titanium and Titanium Alloys
- Magnesium Alloy Castings
- Squeeze Casting Process: Part One
- Squeeze Casting Process: Part Two
- Electromagnetic Casting Process: Part One
- Al-Si Alloy Casting Using Magnetic Molding and Lost Foam Processes
- Melting and Casting of Copper and Aluminum Alloys: Part One
- Casting Defects: Hot Tearing
- Molten Light Metal Processing: Part One
- Molten Light Metal Processing: Part Two
- The Extrusion Process of 6000 Alloys
- Melting and Pouring of the Reactive Metals
- Production of Recycled Lead
- Modification and Refinement of Aluminum-Silicon Alloys
- Zinc-Aluminum Foundry Alloys
- Production, Properties and Industrial Uses of Magnesium and its Alloys
- Machining Nonferrous Metals
- Master Alloys for Aluminum Alloys: Part One
- Master Alloys for Aluminum Alloys: Part Two
- Thermal Spray Coatings: Part One
- Thermal Spray Coatings: Part Two
- Metallization
- Production and Properties of Copper and Copper Alloy Powders
- Titanium Powder Metallurgy Alloys
- Die Casting of Aluminum Alloys: Part One
- Die Casting of Aluminum Alloys: Part Two
- Zirconium Alloys: Part One
- Zirconium Alloys: Part Two
- High Temperature Nickel-Based Superalloys for Turbine Discs: Part One
- Ausmelt Technology Part One
- Copper Production Processes
- Ausmelt Technology Part Two
- Ausmelt Smelting: Part Three
- New CastingTechnology of Magnesium Alloys in the Automotive Industry: Part One
- New Casting Technology of Magnesium Alloys in the Automotive Industry: Part Two
- Vacuum Casting: Part One
- Thermal Spray Coating Technology
- Spark Plasma Sintering
- Precision Forging: Part Two
- Thin Slab Casting
- Nanoperm Alloys
- Pyrometallurgy
- The Water Atomizing Process: Part One
- The Water Atomizing Process: Part Two
- Spangold Alloys
- The Rheo Casting Process
- Semi-Solid Processing (SSP) of Alloys: Part One
- Metal Coating
- Semi-Solid Processing (SSP) of Alloys: Part Two
- Thixocasting
- Semi Solid Thixoforming: Part One
- Deep Drawing of Magnesium Alloys
- Nickel Flash Smelting
- Deep Drawing of Magnesium Alloys: Part Two
- Semi-Solid Thixoforming: Part Two
- Deep Drawing of Aluminum Alloys: Part One
- Deep Drawing of Aluminum Alloys: Part Two
- Twin Roll Casting of Mg Alloys
- Aluminum Dross Processing
- The Tilting Rotary Process
- Primary Al-Alloy Bulk Production by Retrofitting EMS on Furnace Wall: Part One
- Twin Strip Roll Casting: Part Two
- Aluminum Rolling Process: Part One
- Primary Al Alloy Bulk Production by Retrofitting EMS on Furnace Wall: Part Two
- Electron Beam Melting: Part One
- Primary Al Alloy Bulk Production by Retrofitting EMS on Furnace Wall: Part Three
- The Aluminum Rolling Process: Part Two
- Electron Beam Melting: Part Two
- Twin Belt Casting
- Severe Plastic Deformation of Metals
- ISASMELT Process Technology
- Grain Refinement of Magnesium Alloys
- The High Pressure Die Casting Process
- Accumulative Roll Bonding
- Grain Refinement of Aluminum Alloys: Part One
- The Queneau-Schuhmann-Lurgi (QSL) Process
- Grain Refinement of Aluminum Alloys: Part Two
- The KIVCET Smelting Process
- Equal Channel Angular Pressing (ECAP): Part One
- The FeNi Production Route
- The Metal Injection Molding (MIM) Process
- Biodegradation Properties of Magnesium Alloys
- Equal Channel Angular Pressing (ECAP): Part Two
- The Caron Process
- Laser Cladding Technology
- The Electro Refining Process
- Pulsed Electric Current Sintering (PECS)
- Heat Treating of Gray Irons: Part One
- Heat Treating of Gray Irons: Part Two
- Heat Treating of High Alloy Graphitic Irons
- Heat Treating of High-Alloy White Irons
- Heat Treating of Malleable Irons
- Heat Treating of Nodular Irons: Part One
- Heat Treating of Nodular Irons: Part Two
- Strain Ageing of Steel: Part One
- Strain Ageing of Steel: Part Two
- Cryogenic Treatment of Steel: Part One
- Cryogenic Treatment of Steel: Part Two
- Heat Treatable Aluminum Alloys
- Heat Treating of Aluminum and Aluminum Alloys
- Annealing of Aluminum and Aluminum Alloys
- Effect of Aging on Formability of Aluminum Alloys
- Heat Treating of Copper and Copper Alloys
- Hardening of Copper Alloys
- Heat Treating of Titanium and Titanium Alloys
- Nitriding of Titanium and Titanium Alloys
- Heat Treating of Nickel and Nickel Alloys
- Heat Treating of Magnesium Alloys
- Practical Heat Treatment of Magnesium Alloys
- Heat Treating of Tin-Rich Alloys
- Heat Treating of Lead and Lead Alloys
- Hardening of Al-Mg-Cu alloys: Part One
- Hardening of Al-Mg-Cu alloys: Part Two
- Historical Development of Welding
- Welding Process
- Processes Related to Welding
- The Welding Processes: Resistance Welding
- Welding Procedures and the Fundamentals of Welding
- Beam Welding and Thermit Welding
- Welding Cast Iron and Other Irons
- The Welding Industry and Its Future
- Procedures for Repair Welding and Surfacing
- Power Supply for Welding Processes
- Welding of Steels
- Welding For Repair and Surfacing
- Welding Ultra-High-Strength Steels
- Welding of Stainless Steels
- Welding of Special Steels
- Welding of Tool Steels
- Welding of Reinforcing Bars
- Welding of Coated Steels
- Filler Metals for Welding, Part One
- Filler Metals for Welding, Part Two
- Surfacing for Wear Resistance: Part One
- Surfacing for Wear Resistance: Part Two
- Clad Metals
- Friction Stir Welding of Steel: Part One
- Friction Stir Welding of Steel: Part Two
- Friction Stir Welding of Steel: Part Three
- Friction Stir Welding of Steel: Part Four
- Magnetic Pulse Welding of Dissimilar Materials: Part One
- Residual Welding Stress: Part One
- Welding the Nonferrous Metals: General Overview
- Solid State Welding
- Brazing of Non-Ferrous Metals
- Soldering of Non-Ferrous Alloys
- Practical Aspects of Modern Inert Gas Welding Of Aluminum
- Fusion Welding of Aluminum and Its Alloys: Part One
- Fusion Welding of Aluminum and Its Alloys: Part Two
- Selection and Weldability of Non-Heat-Treatable Aluminum Alloys
- Welding of Aluminum Alloys
- Joining Titanium
- Welding of Titanium Alloys
- Welding of Commercially Pure Titanium
- Welding of Copper Alloys
- Welding of Nickel Alloys
- Welding of Nickel-Base Corrosion-Resistant Alloys
- Welded Fabrication of Nickel Alloys for Corrosion Resistant Service
- Welding of magnesium-base alloys
- Welding of Reactive and Refractory Metals
- Welding of Dissimilar Metals
- Designing and Fabricating Aluminum Weldments
- Welding of Aeronautical Components
- Friction-Stir-Welding of 7075 Al-Alloy
- Friction-Stir-Processed Plate Aluminum Alloys
- Friction Stir Welding Technology: Part One
- Friction Stir Welding: Part Two
- Friction Stir Welding of Aluminum Alloys: Part One
- Friction Stir Welding of Aluminum Alloys: Part Two
- Friction Stir Welding of Aluminum Alloys: Part Three
- Laser Welding of Aluminum and Aluminum Alloys: Part One
- Laser Welding of Aluminum and Aluminum Alloys: Part Two
- Solder Alloys
- Welding Copper and Copper Alloys: Part Two
- Welding Copper and Copper Alloys: Part Three
- Magnetic Pulse Welding of Dissimilar Materials: Part Two
- Soldering of Copper and Copper Alloys: Part One
- Soldering of Copper and Copper Alloys: Part Two
- Effect of Small Additions on Structure and Solder Properties: Part One
- Effect of Small Additions on Structure and Solder Properties: Part Two
- Ultrasonic Welding Nonferrous Metals: Part One
- Soldering of Copper and Copper Alloys: Part One
- Ultrasonic Welding Nonferrous Metals: Part Two
- Soldering of Copper and Copper Alloys: Part Two
- Sacrificial Anodes: Part Two
- Heat-resisting Steels
- Stainless Steels
- Corrosion Resistance of Ferritic Stainless Steels
- Steels for Cryogenic and Low-temperature Service
- Cast Stainless Steels
- Heat-Resisting Alloys
- High-Alloy Cast Steels
- Austenitic Steels
- Galvanic Corrosion
- Corrosion of Carbon Steel
- Martensitic Stainless Steels
- Duplex Stainless Steels: Part One
- Duplex Stainless Steels: Part Two
- Corrosion and Corrosion Properties of Stainless Steels: Part One
- Corrosion and Corrosion Properties of Stainless Steels: Part Two
- Corrosion and Corrosion Properties of Stainless Steels: Part Three
- Atmospheric Corrosion Resistant CORTEN Steel
- Corrosion protection of Steel
- Corrosion Protection of Steel: Part Two
- High Temperature Corrosion: Part One
- High Temperature Corrosion: Part Two
- Hydrogen Sulfide Corrosion
- Corrosion Inhibitors
- Wet Corrosion
- Cavitation Erosion
- Corrosion Fatigue
- Corrosion of Maraging Steels
- Bimetallic Corrosion
- Corrosion of Metals and Their Alloys
- Corrosion of Titanium and Titanium Alloys
- Corrosion of Aluminum and Aluminum Alloys
- Stress Corrosion Cracking of Aluminum Alloys
- Corrosion of Copper and Copper Alloys
- Corrosion of Nickel-Base Alloys
- Corrosion of Magnesium and Magnesium Alloys
- Corrosion of Zinc
- Corrosion Resistance of Zn-Al Alloys
- Corrosion of Aluminum and Its Alloys: Forms of Corrosion
- High Temperature Nickels: Part Two
- Corrosion of Titanium Alloys
- Corrosion of Titanium Alloys: Part Two
- Corrosion Behaviour of Copper Alloys: Part One
- Corrosion Behavior of Copper Alloys: Part Two
- Atmospheric Corrosion of Aluminum Alloys
- Corrosion of Zirconium Alloys: Part One
- Corrosion of Zirconium Alloys: Part Two
- Corrosion Behavior of Aluminum in Chloride Mediums
- True Stress - True Strain Curve: Part One
- True Stress - True Strain Curve: Part Two
- True Stress - True Strain Curve: Part Three
- True Stress - True Strain Curve: Part Four
- Engineering Stress-Strain Curve: Part One
- Engineering Stress-Strain Curve: Part Two
- Engineering Stress-Strain Curve: Part Three
- Steel Properties at Low and High Temperatures
- Tensile Testing Of Metallic Materials
- Charpy Impact Test for Metallic Materials
- Hardenability Testing
- Hardness Testing
- Determining Hardening Depth Using Ultrasonic Backscatter
- Nondestructive Testing: Endoscopy
- Nondestructive Testing in the Steel Industry: Part Two
- Eddy Current Testing
- Magneto-Inductive Verification of Material Characteristics
- Ultrasonic Testing of Safety Parts in Automobile Manufacturing
- Holographic Interferometry in Crack Detection
- Resilience
- Fatigue of Metals: Part One
- Fatigue of Metals: Part Two
- Fatigue of Metals: Part Three
- Fatigue of Metals: Part Four
- Structural Features of Fatigue
- Fatigue Crack Growth
- Effect of Metallurgical Variables on Fatigue
- Fracture
- Fracture Mechanics
- Fracture Toughness
- Fracture of Steel: Part One
- Fracture of Steel: Part Two
- Macroscopic Aspects of Fracture
- Fracture Toughness of High-Strength Steels at Low Temperatures
- Brittle Fracture and Impact Testings: Part One
- Brittle Fracture and Impact Testings: Part Two
- The Embrittlement and Fracture of Steels: Part One
- The Embrittlement and Fracture of Steels: Part Two
- The Embrittlement and Fracture of Steels: Part Three
- Fracture Features of Martensitic Steel Plate
- Contribution of Fracture Mechanics to Material Design: Part One
- Contribution of Fracture Mechanics to Material Design: Part Two
- Contribution of Fracture Mechanics to Material Design: Part Three
- Temper Embrittlement
- Analyzing Failures of Metal Components: Part One
- Analyzing Failures of Metal Components: Part Two
- Stress Corrosion Cracked Welds in NiCrMo Steel
- Fracture Toughness of Carbon Steels: Part One
- Fracture Toughness of Carbon Steels: Part Two
- Fracture Toughness Testing: Part One
- Fatigue Properties : Part One
- Fracture Toughness : Part Two
- Linear Elastic Fracture Mechanics : Part One
- Creep and Stress Rupture Properties
- Fatigue Properties: Part Two
- Linear Elastic Fracture Mechanics: Part Two
- Testing Methods for JIS Steel Materials
- Application of fracture mechanics
- Spring Steels
- Creep Life Prediction
- Cleavage Fracture Toughness
- Fracture Toughness of Tool Steels: Part One
- Fracture Toughness of Tool Steels: Part Two
- Creep Microstructural Changes in Power Plant Steels: Part One
- Creep Microstructural Changes in Power Plant Steels: Part Two
- Mechanical Properties of Metals
- Formability Testing of Aluminum Sheet Materials
- The Strengthening Of Metals
- Engineering Stress-strain Curve
- Fatigue, Fracture and Microstructure Relationships of an Aluminum Automobile Component
- Fracture of Brittle Nonferrous Metals
- Fracture Characteristics of Welds in Aluminum Alloys
- Effects of Dispersoid Particles on Toughness of High Strength 7000 Aluminum Alloys
- Fracture Mechanics of Cold-Drawn Copper Bars
- Fatigue Crack Initiation and Propagation in Al-Alloys
- Fatigue and Creep of Nickel Alloys
- Superplastic Deformation of Two-Phase Ti-6Al-4V Alloy
- Fracture and Low Cycle Fatigue of Al-Li Alloys
- Fatigue behavior of Al-Si-Mg alloys: Part One
- Fatigue behavior of Al-Si-Mg alloys: Part Two
- Tensile Testing of Non-ferrous Materials
- Fatigue Properties of Aluminum Alloys
- Structural Steel for Ships
- Wear-Resistant Special Structural Steels
- General Requirements for Rolled Steel for Structural Use
- Application of New Hot-Rolled High-Strength Sheet Steels
- Applications of Alloy Steels
- Carbon and Alloy Steel for Mechanical Fasteners
- Silicon Steels and Their Applications
- Design for High-Temperature Applications: Part One
- Design for High-Temperature Applications: Part Two
- Marine Stainless Steel Applications
- Austenitic and Ferritic Stainless Steels in Practical Applications: Part One
- Austenitic and Ferritic Stainless Steels in Practical Applications: Part Two
- Austenitic Sandwich Materials
- Electromagnetic Sorting of Ferrous Metals: Part One
- Epoxy Coated Reinforcement: Part One
- Pre-Stressed Steel: Part One
- Pre-Stressed Steel: Part Two
- Weathering Steels
- Magnetic Materials: Part One
- Rail Steels: Part One
- Rail Steels: Part Two
- Irradiation Effects on Ferritic Martensitic Steels: Part One
- Irradiation Effects on Ferritic Martensitic Steels: Part Two
- Fire-Resistant Steels: Part One
- Fire-Resistant Steels: Part Two
- Stainless Steels for Cryogenic Applications
- Shipbuilding Steels: Part One
- Shipbuilding Steels: Part Two
- Steel Bending
- Application of Microalloyed HSLA Steel: Part One
- Application of Microalloyed HSLA Steel: Part Two
- Irradiation Effects on Ferritic / Martensitic Steels
- Automotive Trends in Aluminum, The European Perspective: Part One
- Automotive Trends in Aluminum, The European Perspective: Part Two
- Properties of Aluminum Alloys at Cryogenic and Elevated Temperatures
- Magnesium Alloys Properties on Elevated Temperatures
- Magnesium Alloys: Mechanical Properties at Elevated and Low Temperatures
- Marine Applications of Aluminum Alloys: Part One
- Marine Applications of Aluminum Alloys: Part Two
- Effects of Composition, Processing and Structure on Properties of Nickel and Nickel Alloys
- Factors That Determine the Applications of Aluminum
- Aluminum Alloys for Bearings
- Aluminum Alloys for Packaging Applications
- Aluminum Alloys in Military Vehicles and Equipment
- Mechanical Properties of Magnesium and Magnesium Alloys
- Selection and Application of Copper Alloy Castings
- The Application of New Technology to Aluminum Armor Systems
- Aircraft and Aerospace Applications: Part One
- Aircraft and Aerospace Applications: Part Two
- Electronic Applications: Part One
- Electronic Applications: Part Two
- Problems and Prospect of Al-Mg Alloys Application in Marine Constructions
- Strengthening Mechanisms of Metals: Part One
- Strengthening Mechanisms of Metals: Part Two
- Wrought Aluminum Alloys for General and Special Applications: Part One
- Wrought Aluminum Alloys for General and Special Applications: Part Two
- Wrought Aluminum Technologies for Automobiles: Part One
- Wrought Aluminum Technologies for Automobiles: Part Two
- Properties and Applications of Titanium – 2.5% Copper Alloy
- Properties and Applications of Ti - 6% Al - 4% V Alloy
- Aluminum Alloy Development for the Airbus A380
- Automotive Uses of Magnesium Alloys: Part One
- Automotive Uses of Magnesium Alloys: Part Two
- Fatigue of Nickel-Based Superalloys: Part One
- Fatigue of Nickel-Based Superalloys: Part Two
- Hard Magnetic alloys: Part One
- Hard Magnetic alloys: Part Two
- High-Strength Low Alloy Steels: New Generation
- Advanced Structural Steels: Part One
- Multi Phase Twinning-Induced Plasticity (TWIP) Steel
- Advanced Structural Steels: Part Two
- Advanced Structural Steels: Part Three
- Advanced Structural Steels: Part Four
- Advanced Structural Steels: Part Five
- High Temperature Materials
- Composite Materials for Aircraft Industry
- Aluminum Matrix Composites with Discontinuous Silicon Carbide Reinforcement
- Cast Metal-Matrix Composites
- Shape Memory Alloys: Part One
- Industrial Applications of Shape Memory Alloys
- Applications of Shape Memory Alloys in the medical field
- Metal Carbides
- Nickel-Based Superalloys: Part One
- Nickel-Based Superalloys: Part Two
- Applications of Nanotechnology and Nanomaterials in Construction: Part One
- Applications of Nanotechnology and Nanomaterials in Construction: Part Two
- Soft Magnetic Alloys
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