Fundamentals of Creep in Metals and Alloys* Numerous line drawings with consistent format and units allow easy comparison of the behavior of a very wide range of materials * Transmission electron micrographs provide a direct insight in the basic microstructure of metals deforming at high temperatures * Extensive literature review of over 1000 references provide an excellent reference document, and a very balanced discussion Understanding the strength of materials at a range of temperatures is critically important to a huge number of researchers and practitioners from a wide range of fields and industry sectors including metallurgists, industrial designers, aerospace R&D personnel, and structural engineers. The most up-to date and comprehensive book in the field, Fundamentals of Creep in Metals and Alloys discusses the fundamentals of time-dependent plasticity or creep plasticity in metals, alloys and metallic compounds. This is the first book of its kind that provides broad coverage of a range of materials not just a sub-group such as metallic compounds, superalloys or crystals. As such it presents the most balanced view of creep for all materials scientists. The theory of all of these phenomena are extensively reviewed and analysed in view of an extensive bibliography that includes the most recent publications in the field. All sections of the book have undergone extensive peer review and therefore the reader can be sure they have access to the most up-to-date research, fully interrogated, from the world’s leading investigators. |
From inside the book
Results 1-5 of 29
... Sherby and Burke [16], Takeuchi and Argon [17], Argon [18], Orlova and Cadek [19], Cadek [20], Mukherjee, [21], Blum [22], Nabarro and de Villiers [23], Weertman [24,25], Nix and Ilschner [26], Nix and Gibeling [27], Evans and Wilshire ...
... of the activation energy for Five-Power-Law Creep being equal toQ sd is based on activation volume (ÁV) analysis by Sherby and Weertman [5]. That is, the effect of (high) pressure on the creep Five-Power-Law Creep 15.
... Sherby and Burke [16], Nix and Ilschner [26], and Mukherjee [21], describes the steady-state creep behavior of hcp, bcc, and fcc metals (solid solutions will be presented later). The metals all show approximate five-power-law behavior ...
... Sherby and coworkers compensated the stress using the Young's modulus, E, while most others use the shear modulus, G. The choice of E versus G is probably not critical in terms of improving the ability of the phenomenological equation ...
... Sherby and Miller [68] present a Qc versus T/Tm plot for steady-state deformation of W, NaCl, Sn and Cu that is frequently referenced. This plot suggests (as two activation energies, one regime where Qc Figure 13. 22 Fundamentals of ...
Contents
3 | |
13 | |
Chapter 3 DiffusionalCreep | 91 |
Chapter 4 HarperDorn Creep | 99 |
Chapter 5 ThreePowerLaw Viscous Glide Creep | 111 |
Chapter 6 Superplasticity | 123 |
Chapter 7 Recrystallization | 143 |
Chapter 8 Creep Behavior of ParticleStrengthened Alloys | 151 |
Chapter 9 Creep of Intermetallics | 173 |
Chapter 10 Creep Fracture | 215 |
References | 243 |
Index | 269 |