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Friction Stir Welding and Processing VI

  • ID: 1838005
  • Book
  • April 2011
  • 426 Pages
  • John Wiley and Sons Ltd
Friction stir welding has seen significant growth in both technology implementation and scientific exploration. This book covers all aspects of friction stir welding and processing, from fundamentals to design and applications. It also includes an update on the current research issues in the field of friction stir welding and a guide for further research.
Note: Product cover images may vary from those shown


Friction Stir Welding and Processing VI.

High Temperature Materials I.

Development of Co–Based Alloy FSW Tool for High–Softening–Temperature Materials (Y. Sato, M. Miyake, H Kokawa, T. Omori, K. Ishida, S. Imano, S. Park, andS. Hirano).

Friction Stir Welding of Alloy 22 (B. Jasthi, W. Arbegast, andS. Howard).

Effect of Processing Parameters and Post–Weld Microstructure on Friction Stir Welded HSLA–65 Charpy V–Notch Impact Toughness (S. Sanderson, and T. Nelson).

Friction Stir Processing of Cast Inconel 718 (B. Jasthi, E. Chen, W. Arbegast, M. Heringer, D. Bice, andS. Howard).

Friction Stir Welding of Oxide Dispersion Strengthened Alloy MA956 (M West, B. Jasthi, P. Hosemann, and V. Sodesetti).

Microstructure and Mechanical Properties of Friction Stir Processed Grade 40 Grey Cast Iron (M West, B. Jasthi, N. Smith, J Oduor, and Y. Chen).

High Temperature Materials II.

Reliable Sealing of Copper Canisters through Cascaded Control of Power Input and Tool Temperature (L. Cederqvist, O. Garpinger, T. Hagglund, and A. Robertsson).

Friction Stir Welding (FSW) of a Hardenable Alloy Steel in "Dry" and "Wet" Environments (N. Overfield, M. Mahoney, R. Steel, J. Babb, S. Menon, and T. McNelley).

Friction Stir Welding of Industrial Steels (J. Perrett, J. Martin, J. Peterson, R. Steel, andS. Packer).

Mechanical Properties of Thick Section Titanium 6A1–4V Friction Stir and Electron Beam Welds (P. Edwards, G. Coleman, M. Peter sen, andJ. Cotton).

Transformation and Deformation Texture Study in Friction Stir Processed API X80 Steel (M. Abbas i, T. Nelson, and C. Sorensen).

Evolution of Stir Zone Microstructure during FSP of Cast NiAl Bronze (T. McNelley, S. Menon, and C. England).

Wear Testing of Friction Stir Spot Welding Tools for Joining of DP 980 Steel (C. Ridges, M. Miles, Y. Hovanski, R. Steel, andJ. Peterson).

Tungsten Based Tool Material Development for the Friction Stir Welding of Hard Metals (B. Thompson).

Using Electron Backscatter Diffraction to Characterize the Texture and Microstructure of Friction Stir Welded AISI 304L Stainless Steel (B. Nelson, and C. Sorensen).

Aluminum and Magnesium Alloys I.

Microstructure and Mechanical Properties of Friction Stir Welded (FSW) AA5454–Joints (X. Lang, D. Eifler, andG. Wagner).

Characterization of Friction Stir Welded Sc–Modified Al–Zn–Mg–Cu Alloy Extrusions through Differential Scanning Calorimetry (C. Hamilton, S. Dymek, and O. Senkov).

Development of Tatsumaki Friction Stir Welding (S. Park, S. Hirano, S. Kaga, M. Onose, N Tominaga, andY. Yoshimura).

Effects of Forge Axis Force and Backing Plate Boundary Condition on FSW of AA6056 (P. Upadhyay, and A. Reynolds).

Friction Stir Welded "A" Frame for Dual Function Test Fixture (A. Handyside, F. Baratzadeh, J. Butler, H. Lankarani, B. Carlson, andD. Burford).

Investigation of Lazy S Feature in Self–reacting Tool Friction Stir Welds (K. Warsinski, M. West, J. Freeman, and T. Curtis).

Aluminum and Magnesium Alloys II.

Novel Techniques for Corner Joints Using Friction Stir Welding (J. Martin, C Stanhope, andS. Gascoyne).

Investigation of the Material Shear Layer in Bobbin Tool Friction Stir Welding (J. Hilgert, J. dos Santos, andN. Huber).

Effect of Tool Geometry and Process Condition on Static Strength of Magnesium Friction Stir Lap Linear Weld (Q. Yang, X. Li, K. Chen, and Y. Shi).

Effect of Tool Feature on the Joint Strength of Dissimilar Friction Stir Lap Welds (S. Jana, Y. Hovanski, G. Grant, andK. Mattlin).

Friction Stir Fabrication of Spar T–Joints Made from 7075 Aluminum (J. Brown, andD. Burford).

A Study of a Versatile Method to Attach a Portable FSW System to an Aluminum Structure Using Adhesives (J. Walser, T. Nelson, C Sorensen, andM. Mahoney).

Microstructural and Mechanical Properties of Friction Stir Welding Joints of 6082–T6 with 6063–T6 (F. Baratzadeh, A. Handyside, E. Boldsaikhan, H. Lankarani, B. Carlson, andD. Burford).

Microstructure and Corrosion Behavior of Friction Stir Welded Mg/Al– and Mg/Mg–Joints (G Wagner, O. Klag, andD. Eifler).

Mechanical Properties of Al and Mg Alloy Welds Made by Friction Stir Lap Welding (S. Yazdanian, Z Chen, and G. Littlefair).

Evaluation of Microstructure and Mechanical Properties of Aluminum/Copper Friction Stir Butt Welds (R. Sarrafi, A. Kokabi, M. Abbasi Gharacheh, and B. Shalchi).

Friction Stir Processing.

Mechanical Properties of Friction Stir Processed, Friction Stir Welded, and Gas Metal Arc Welded AA5083 Aluminum Plate (C. Smith, M. Mahoney, R. Mishra, and Argade).

Mechanical Interlock of Thin Metallic Wire Using Friction Stir Forming (K. Yamamura, K. Torikai, and T. Nishihara).

Friction Consolidation of Aluminum Chips (W. Tang, and A. Reynolds).

Obtaining Sub–Micron Grain Size in AM60 Magnesium Alloy Using Friction Stir Processing (D. Gesto, D. Ver der a, P. Minino, P. Rey, and G. Pena).

Effect of Friction Stir Processing on Corrosion Behavior of AA5083 Aluminum Alloy (G. Argade, R. Mishra, C. Smith, andM. Mahoney).

Evaluation of Rotational Speed and Post Annealing Effect on the Microstructural Homogeneity of Friction Stir Processed 5083 Aluminum Alloy (C. Lin, T. Lui, andL. Chen).

Friction Stir Processing as a Base Metal Preparation Technique for Modification of Fusion Weld Microstructures (J. Rodel as, J. Lippold, J. Rule, andJ. Livingston).

Process Modeling and Verification.

Effect of Plasticized Material Flow on the Tool Feedback Forces during Friction Stir Welding (E. Boldsaikhan, D. Burford, and P. Gimenez Britos).

Investigation of Methods to Control Friction Stir Weld Power with Spindle Speed Changes (K. Ross, and C. Sorensen).

A Comparison of Experimental Data and Model Predictions with Constitutive Laws Commonly Used to Model Friction Stir Welding (K. Kuykendall, C. Sorensen, and T. Nelson).

Long Range Oscillations in Friction Stir Welding Tool Travel Speed (M. Brendel, andJ. Schneider).

Tool Load and Torque Study for Portable Friction Stir Welding in Aluminum (S. Rose, M. Mahoney, T. Nelson, and C Sorensen).

Towards Process Control of Friction Stir Welding for Different Aluminum Alloys (A. Fehrenbacher, E. Cole, M. Zinn, N Ferner, N Duffie, andF. Pfefferkorn).

Friction Stir Spot Welding.

Mechanical and Microstructural Investigation of Dissimilar Resistance and Friction Stir Spot Welds in AA5754–H22 and AA6082–T6 Aluminium Alloys and 22MnB5 Hot–Stamped Boron Steel (A. da Silva, E. Aldanondo, P. Alvarez, A. Echeverria, andM. Eiersebner).

Effect of Coating on Mechanical Properties of Magnesium Alloy Friction Stir Spot Welds (W. Yuan, R. Mishra, B. Carlson, R. Verma, andR. Szymanski).

FSSW of Mg to Al with a Cold Sprayed Interlayer (D. Blosmo, T. Curtis, T. Johnson, N Procive, C Widener, B. Carlson, R. Symanski, andM. West).

Swept FSSW in Aluminum Alloys through Sealants and Surface Treatments (K. Witthar, J. Brown, andD. Burford).

Author Index.

Subject Index.

Note: Product cover images may vary from those shown
Rajiv S. Mishra
Murray W. Mahoney
Yutaka Sato
Yuri Hovanski
Ravi Verma
Note: Product cover images may vary from those shown