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  • ....B. Gibson, M.F. Horstemeyer, H.E. Kadiri, J.C. Baird, A.A. Luo, Effect of twinning, slip, and inclusions on the fatigue anisotropy of extrusion-textured AZ61
    3 KB (500 words) - 03:19, 7 April 2017
  • * Texture and twinning data: 4. Validate texture and twinning responses
    6 KB (768 words) - 14:52, 16 April 2015
  • | Transformation Induced Plasticity (TRIP) Steels || || Twinning Induced Plasticity (TWIP) Steels || Student 5
    37 KB (5,026 words) - 18:30, 21 July 2015
  • ...ticity research code, based on the knowledge of the mechanisms of slip and twinning that are active in single crystals of arbitrary symmetry. VPSC can be used
    1 KB (200 words) - 15:58, 14 March 2016
  • ...uum. In crystalline materials, plastic deformation may be explained by (i) twinning, (ii) martensic transformation or/and (iii) dislocation interactions.
    29 KB (4,405 words) - 18:49, 23 March 2015
  • c---- set crystal geometry: slip / twinning data c---- read SXFILE_I to set slip / twinning data
    234 KB (26,247 words) - 19:12, 1 November 2012
  • *Info about slip & twinning modes in this file:
    2 KB (170 words) - 22:28, 15 April 2015
  • ... and at strain rate of 0.001/S to strain 30%. At these loading conditions, twinning would not be profuse and, hence, only slip will be the predominant deformat
    5 KB (730 words) - 14:43, 16 April 2015
  • ... and at strain rate of 0.001/S to strain 30%. At these loading conditions, twinning would not be profuse and, hence, only slip will be the predominant deformat *TENSILE TWINNING (TT1) SYSTEMS
    11 KB (1,241 words) - 17:40, 12 January 2015
  • ...uum. In crystalline materials, plastic deformation may be explained by (i) twinning, (ii) martensic transformation or/and (iii) dislocation interactions (see F
    31 KB (4,695 words) - 19:52, 3 June 2011
  • ...surface property which caused by the equivalent 12 {111}<011> slips and no twinning. However, deformation texture characteristics and average rotation angle al
    4 KB (547 words) - 16:29, 22 June 2011
  • ...al, J.C. Baird, M.F. Horstemeyer, and M. Cherkaoui, “Twinning and double twinning upon compression of prismatic textures in an AM30 magnesium alloy,” ''Scr ...twinning occurred. At last stage, non-time sequence of two types of double twinning originated in matrix grain as shown in Figure 2b.
    6 KB (959 words) - 17:07, 28 April 2017
  • * Texture and twinning data: 4. Validate texture and twinning responses
    12 KB (1,729 words) - 18:13, 29 July 2014
  • * Texture and twinning data: 3. Post Process - Stremline Conversion and Texture/Twinning Predictions
    11 KB (1,651 words) - 21:02, 17 June 2011
  • === Texture and Twinning Data === ...mponent which favors {10-12}<10-11> extension twinning. As such, extension twinning activated even at temperature of 450C. Figure 2 displays optical microscopy
    6 KB (820 words) - 22:06, 16 April 2015
  • === Post Process - Streamline conversion and Texture/Twinning Predictions ===
    2 KB (259 words) - 21:51, 17 June 2011
  • === Validation of Texture and Twinning Responses ===
    3 KB (417 words) - 21:51, 17 June 2011
  • *Info about slip & twinning modes in this file:
    2 KB (169 words) - 22:31, 15 April 2015
  • *TENSILE TWINNING (TT1) SYSTEMS *COMPRESSIVE TWINNING (CT1) SYSTEMS
    7 KB (643 words) - 14:42, 16 April 2015
  • ...ue to grow across the center line. The pole figure is typical of extension twinning. [[Localized Twin Bands in Sheet Bending of a Magnesium Alloy|Details]]
    3 KB (398 words) - 06:22, 11 December 2013

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