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Mingyu Gong, John P. Hirth, Yue Liu, Yao Shen & Jian Wang. (2017) Interface structures and twinning mechanisms of twins in hexagonal metals. Materials Research Letters 5:7, pages 449-464.
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M. Niewczas & G. Saada. (2002) Twinning nucleation in Cu-8 at. % Al single crystals. Philosophical Magazine A 82:1, pages 167-191.
Read now
Read now
P. Beauchamp & J. Lépinoux. (2001) Image force on a dislocation in a bcc bicrystal: Computer investigation of core effects. Philosophical Magazine A 81:5, pages 1187-1205.
Read now
Read now
S.G. Song & G.T. Gray$suffix/text()$suffix/text(). (1995) Double dislocation pole model for deformation twinning in f.c.c. lattices. Philosophical Magazine A 71:3, pages 661-670.
Read now
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I.M. Robertson. (1986) Microtwin formation in deformed nickel. Philosophical Magazine A 54:6, pages 821-835.
Read now
Read now
ParN. Junqua & J. Grilhé. (1982) Dissociation de dislocations dans un alliage cubique centre (le Fe–40Al). Philosophical Magazine A 46:2, pages 295-305.
Read now
Read now
T. Mori, H. Fujita & S. Takemori. (1981)
In situ observations of deformation twinning in Cu-8 at.° Ge single crystals. Philosophical Magazine A 44:6, pages 1277-1286.
Read now
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J.A. Venables. (1974) On dislocation pole models for twinning. The Philosophical Magazine: A Journal of Theoretical Experimental and Applied Physics 30:5, pages 1165-1169.
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Articles from other publishers (46)
Wenjie Lu, Yafeng Wang, Xian Luo, Bin Huang & Yanqing Yang. (2023) Abnormal L12-LPSO phase transformation and its influence on mechanical properties and deformation mechanisms in a Ti-alloyed medium-entropy alloy. Journal of Alloys and Compounds 945, pages 169305.
Crossref
Crossref
Xiaoliang Zhang, Zongbin Li, Dong Li, Bo Yang, Haile Yan, Weimin Gan, Yudong Zhang, Claude Esling, Xiang Zhao & Liang Zuo. (2022) Unconventional twin deformation of Ni-Mn-Ga 7M martensite under tension mediated by the collective lattice reorientation from a-c twin to b-c twin. Acta Materialia 227, pages 117729.
Crossref
Crossref
Nicolò Grilli, Alan C.F. Cocks & Edmund Tarleton. (2020) A phase field model for the growth and characteristic thickness of deformation-induced twins. Journal of the Mechanics and Physics of Solids 143, pages 104061.
Crossref
Crossref
M Ecke, O Michael & T Halle. (2020) On the effect of aluminum and chromium on the deformation twinning of body-centered cubic iron. IOP Conference Series: Materials Science and Engineering 882:1, pages 012007.
Crossref
Crossref
Nicolò Grilli, Edmund Tarleton, Philip D. Edmondson, Maxim N. Gussev & Alan C. F. Cocks. (2020)
In situ
measurement and modelling of the growth and length scale of twins in
-uranium
. Physical Review Materials 4:4.
Crossref
Crossref
Jongbeom Lee & Haguk Jeong. (2019) Effect of Rolling Speed on Microstructural and Microtextural Evolution of Nb Tubes during Caliber-Rolling Process. Metals 9:5, pages 500.
Crossref
Crossref
P. Nnamchi, A. Younes & S. González. (2019) A review on shape memory metallic alloys and their critical stress for twinning. Intermetallics 105, pages 61-78.
Crossref
Crossref
P. Kürnsteiner, C. Commenda, E. Arenholz, L. Samek, D. Stifter & H. Groiss. (2018) Investigation of nanoscale twinning in an advanced high manganese twinning-induced plasticity steel. Materialia 1, pages 70-77.
Crossref
Crossref
Cyril Cayron & Roland Logé. (2018) Evidence of new twinning modes in magnesium questioning the shear paradigm. Journal of Applied Crystallography 51:3, pages 809-817.
Crossref
Crossref
Cyril Cayron. (2018) Shifting the Shear Paradigm in the Crystallographic Models of Displacive Transformations in Metals and Alloys. Crystals 8:4, pages 181.
Crossref
Crossref
Piyas Chowdhury & Huseyin Sehitoglu. (2018) Atomistic Energetics and Critical Twinning Stress Prediction in Face and Body Centered Cubic Metals: Recent Progress. Journal of Engineering Materials and Technology 140:2.
Crossref
Crossref
F. Appel, H. Clemens & F.D. Fischer. (2016) Modeling concepts for intermetallic titanium aluminides. Progress in Materials Science 81, pages 55-124.
Crossref
Crossref
Dehai Ping. (2014) Review on ω Phase in Body-Centered Cubic Metals and Alloys. Acta Metallurgica Sinica (English Letters) 27:1, pages 1-11.
Crossref
Crossref
S CRONJE, R E Kroon, W D ROOS & J H NEETHLING. (2013) Twinning in copper deformed at high strain rates. Bulletin of Materials Science 36:1, pages 157-162.
Crossref
Crossref
Y. Yang, G.P. Li, H. Wang, S.Q. Wu, L.C. Zhang, Y.L. Li & K. Yang. (2012) Formation of zigzag-shaped {1 1 2}〈1 1 1〉 β mechanical twins in Ti–24.5 Nb–0.7 Ta–2 Zr–1.4 O alloy. Scripta Materialia 66:5, pages 211-214.
Crossref
Crossref
Fritz Appel, Jonathan David Heaton Paul & Michael Oehring. 2011. Gamma Titanium Aluminide Alloys. Gamma Titanium Aluminide Alloys
125
248
.
S.B. Biner & L.P. Kubin. 2011. Supplemental Proceedings. Supplemental Proceedings
505
512
.
L. Kovarik, R.R. Unocic, Ju Li, P. Sarosi, C. Shen, Y. Wang & M.J. Mills. (2009) Microtwinning and other shearing mechanisms at intermediate temperatures in Ni-based superalloys. Progress in Materials Science 54:6, pages 839-873.
Crossref
Crossref
Tomoatsu Taniguchi, Yoshihisa Kaneko & Satoshi Hashimoto. (2009) Preferential Fatigue Crack Nucleation at Deformation Twins in a Ferritic Stainless Steel. Journal of the Japan Institute of Metals 73:12, pages 930-937.
Crossref
Crossref
Marek Niewczas. 2007.
263
364
.
Shigenobu Ogata, Ju Li & Sidney Yip. (2005) Energy landscape of deformation twinning in bcc and fcc metals. Physical Review B 71:22.
Crossref
Crossref
Dong-Sheng Xu, Jin-Peng Chang, Ju Li, Rui Yang, Dong Li & Sidney Yip. (2004) Dislocation slip or deformation twinning: confining pressure makes a difference. Materials Science and Engineering: A 387-389, pages 840-844.
Crossref
Crossref
S Ogata, J Li & S Yip. (2004) Twinning pathway in BCC molybdenum. Europhysics Letters (EPL) 68:3, pages 405-411.
Crossref
Crossref
J.W. CHRISTIAN. 2002. The Theory of Transformations in Metals and Alloys. The Theory of Transformations in Metals and Alloys
859
960
.
M.A. Meyers, O. Vöhringer & V.A. Lubarda. (2001) The onset of twinning in metals: a constitutive description. Acta Materialia 49:19, pages 4025-4039.
Crossref
Crossref
P. Beauchamp, J. Lépinoux, I. Lardon & H. Kentabli. 1996. Stability of Materials. Stability of Materials
651
656
.
J.W. Christian & S. Mahajan. (1995) Deformation twinning. Progress in Materials Science 39:1-2, pages 1-157.
Crossref
Crossref
P. Müllner, C. Solenthaler & M.O. Speidel. (1994) Second order twinning in austenitic steel. Acta Metallurgica et Materialia 42:5, pages 1727-1732.
Crossref
Crossref
Peter HaasenPeter Haasen. 1994. Physikalische Metallkunde. Physikalische Metallkunde
292
315
.
K.P.D. Lagerlöf. (1993) On deformation twinning in b.c.c. metals. Acta Metallurgica et Materialia 41:7, pages 2143-2151.
Crossref
Crossref
B.A. Greenberg, O.V. Antonova, V.N. Indenbaum, L.E. Karkina, A.B. Notkin, M.V. Ponomarev & L.V. Smirnov. (1991) Dislocation transformations and the anomalies of deformation characteristics in TiAl—I. Models of dislocation blocking. Acta Metallurgica et Materialia 39:2, pages 233-242.
Crossref
Crossref
T. Magnin, L. Coudreuse & A. Fourdeux. (1984) Consequences of slip-twinning interactions on the monotonic and cyclic deformation of b.c.c. stainless steels. Materials Science and Engineering 63:1, pages L5-L8.
Crossref
Crossref
Peter HaasenPeter Haasen. 1984. Physikalische Metallkunde. Physikalische Metallkunde
264
281
.
P. Karduck, G. Gottstein & H. Mecking. (1983) Deformation structure and nucleation of dynamic recrystallization in copper single crystals. Acta Metallurgica 31:10, pages 1525-1536.
Crossref
Crossref
S. Mahajan. 1981. Dislocation Modelling of Physical Systems. Dislocation Modelling of Physical Systems
217
223
.
Masaharu Kato. (1981) Hardening by spinodally modulated structure in b.c.c. alloys. Acta Metallurgica 29:1, pages 79-87.
Crossref
Crossref
Takeshi Mori & Hiroshi Fujita. (1980) Dislocation reactions during deformation twinning in Cu-11at.% Al single crystals. Acta Metallurgica 28:6, pages 771-776.
Crossref
Crossref
Takeshi Mori & Hiroshi Fujita. (1977) Twinning Deformation in Single Crystals of Cu-8 at%Al Alloy. Transactions of the Japan Institute of Metals 18:1, pages 17-24.
Crossref
Crossref
L. M. Clarebrough & C. T. Forwood. (1976) Diffraction from single and overlapping stacking faults in F.C.C. crystals. Physica Status Solidi (a) 33:1, pages 355-366.
Crossref
Crossref
N. Narita & J. Takamura. (1975) Reply to comments on “deformation twinning in silver- and copper-alloy crystals”. Scripta Metallurgica 9:8, pages 819-822.
Crossref
Crossref
M.N. Menon & W.H. Reimann. (1975) Deformation twins in Rene 95. Metallography 8:3, pages 221-226.
Crossref
Crossref
S. Mahajan. (1975) Interrelationship between slip and twinning in B.C.C. crystals. Acta Metallurgica 23:6, pages 671-684.
Crossref
Crossref
M. N. Menon & W. H. Reimann. (1975) Tensile behavior of ren’e 95 in the thermomechanically processed and conventionally processed forms. Metallurgical Transactions A 6:5, pages 1075-1085.
Crossref
Crossref
M. N. Menon & W. H. Reimann. (1975) Tensile behavior of rené 95 in the thermomechanically processed and conventionally processed forms. Metallurgical Transactions A 6:4, pages 1075-1085.
Crossref
Crossref
J.A. Shields, S.H. Goods, R. Gibala & T.E. Mitchell. (1975) Deformation of high purity tantalum single crystals at 4.2 K. Materials Science and Engineering 20, pages 71-81.
Crossref
Crossref
Peter HaasenPeter Haasen. 1974. Physikalische Metallkunde. Physikalische Metallkunde
302
321
.