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There is a page named "Stacking fault energy" on Wikipedia

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  • the normal stacking sequence of atomic planes in a close-packed crystal structure. These interruptions carry a certain stacking-fault energy. The width...
    9 KB (1,228 words) - 13:26, 13 May 2024
  • Thumbnail for Stacking fault
    stacking faults. Stacking faults are in a higher energy state which is quantified by the formation enthalpy per unit area called the stacking-fault energy...
    9 KB (1,342 words) - 20:04, 22 March 2024
  • dislocations matches the attractive energy of the stacking fault. This means that higher stacking fault energy materials, i.e. those with high shear modulus...
    7 KB (1,081 words) - 01:37, 20 July 2024
  • Thumbnail for Galling
    to galling is primarily determined by its stacking-fault energy. A material with high stacking-fault energy, such as aluminium or titanium, will be far...
    17 KB (2,285 words) - 10:55, 25 October 2023
  • C (<1 wt.%), Si (<3 wt.%), or Al (<3 wt.%). The steels have low stacking fault energy (between 20 and 40 mJ/m2) at room temperature. Although the details...
    6 KB (772 words) - 05:32, 15 August 2023
  • low stacking fault energy and so the dislocation distribution after deformation is largely random. In contrast, metals with moderate to high stacking fault...
    6 KB (849 words) - 17:42, 11 March 2023
  • the dislocation velocity, k is the Boltzmann constant, γ is the stacking fault energy, and H is the hardness. While the model was developed specifically...
    29 KB (3,518 words) - 03:49, 22 July 2024
  • with deformation at elevated temperatures, in materials with high stacking fault energy Stress increases and then declines to a steady state Subgrain formation...
    15 KB (1,953 words) - 18:33, 23 November 2022
  • Thumbnail for Crystal twinning
    lowering the critical stacking fault energy. A linear variation has been observed between twin thickness, stacking fault energy and grain size, and to...
    52 KB (5,943 words) - 19:56, 4 July 2024
  • OpenIndiana Stacking-fault energy Supercritical fluid extraction Supplier-furnished equipment Surface free energy, often referred to as Surface energy Sydney...
    1 KB (153 words) - 09:01, 15 September 2023
  • Thumbnail for Dislocation
    Shockley partial dislocations. The width of this stacking-fault region is proportional to the stacking-fault energy of the material. The combined effect is known...
    41 KB (5,894 words) - 02:28, 19 June 2024
  • Thumbnail for Recrystallization (metallurgy)
    moderate to high temperatures, particularly in materials with a high stacking fault energy such as aluminium and nickel, recovery occurs readily and free dislocations...
    20 KB (2,761 words) - 04:05, 15 July 2024
  • Thumbnail for Superalloy
    facilitating the formation of stacking faults by reducing the stacking fault energy. Increasing number of stacking faults leading to the inhibition of...
    82 KB (10,193 words) - 13:07, 23 June 2024
  • Thumbnail for Tempering (metallurgy)
    causes an increase in retained austenite. Austenite has much higher stacking-fault energy than martensite or pearlite, lowering the wear resistance and increasing...
    39 KB (5,565 words) - 21:39, 3 May 2024
  • of stacking faults, solute atoms may interact with the stacking faults either attractively or repulsively. This lowers the stacking fault energy, leading...
    19 KB (2,487 words) - 10:10, 19 May 2024
  • Thumbnail for Sirous Asgari
    strain hardening regime during large strain compression of low stacking fault energy Face-centered cubic alloys. Asgari together with colleagues formulated...
    14 KB (1,371 words) - 15:51, 2 May 2024
  • Thumbnail for Cottrell atmosphere
    to stacking fault defects. When dislocations in an FCC system split into two partial dislocations, a hexagonal close-packed (HCP) stacking fault is formed...
    17 KB (2,147 words) - 01:52, 7 August 2022
  • Thumbnail for Bauschinger effect
    microstructures exhibit reduced Bauschinger effect. Materials with high stacking fault energy, such as aluminum alloys and austenitic stainless steels, tend to...
    19 KB (2,248 words) - 04:33, 19 May 2024
  • Thumbnail for Shear band
    types, i.e. the brass-type texture and the copper-type texture. The stacking fault energy plays an important role for the prevailing mechanisms of plastic...
    17 KB (2,103 words) - 22:21, 15 March 2024
  • Thumbnail for High-entropy alloy
    Scattergood, R.O.; Koch, C.C. (June 2015). "Tensile properties of low-stacking fault energy high-entropy alloys". Materials Science and Engineering: A. 636:...
    102 KB (12,376 words) - 02:31, 7 July 2024
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