Access the full text.
Sign up today, get DeepDyve free for 14 days.
R Becker, JF Butler, H Hu, LA Lalli (1991)
Analysis of an Aluminum Single Crystal with Unstable Initial Orientation (001) [110] in Channel Die CompressionMetall. Mater. Trans. A, 22
W. Liu, J. Morris (2005)
Through-thickness texture variation in cold-rolled AA 5182 aluminum alloy with an initial {001}〈110〉 textureMetallurgical and Materials Transactions A, 36
H. Honneff, H. Mecking (1978)
A Method for the Determination of the Active Slip Systems and Orientation Changes During Single Crystal Deformation
Z. Li, A. Godfrey, Q. Liu (2001)
Macroscopic sub-division of rolled Al-1%Mn single crystals of {001} (110) orientationScripta Materialia, 45
Jian-tao Liu, J. Morris (2003)
Texture and grain-boundary evolutions of continuous cast and direct chill cast AA 5052 aluminum alloy during cold rollingMetallurgical and Materials Transactions A, 34
T. Zhai, A. Wilkinson, John Martin (2000)
A crystallographic mechanism for fatigue crack propagation through grain boundariesActa Materialia, 48
J. Chen, L. Zhen, W. Shao, S. Dai, Yanhui Cui (2008)
Through-thickness texture gradient in AA 7055 aluminum alloyMaterials Letters, 62
H. Vatne, E. Nes, O. Daaland (1994)
On the Formation of Cube Texture in AluminiumMaterials Science Forum, 157-162
W. Liu
Quantitative Analysis of Texture Evolution in Cold-Rolled, Continuous-Cast AA 5xxx-Series Aluminum Alloys
Xiaofeng Wang, M. Guo, Adrien Chapuis, Jin-ru Luo, Ji-shan Zhang, L. Zhuang (2015)
Effect of solution time on microstructure, texture and mechanical properties of Al–Mg–Si–Cu alloysMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 644
B. Bacroix, J. Jonas (1988)
The Influence of Non-Octahedral Slip on Texture Development in FCC MetalsTexture, Stress, and Microstructure, 8
O. Engler, M. Crumbach, Saiyi Li (2005)
Alloy-dependent rolling texture simulation of aluminium alloys with a grain-interaction modelActa Materialia, 53
W. Liu, C. Man, J. Morris (2001)
Lattice rotation of the cube orientation to the β fiber during cold rolling of AA 5052 aluminum alloyScripta Materialia, 45
M. Kuroda (2005)
Effects of Texture on Mechanical Properties of Aluminum Alloy Sheets and Texture Optimization Strategy, 778
K. Morii, H. Mecking, Y. Nakayama (1985)
Development of shear bands in f.c.c. single crystalsActa Metallurgica, 33
A. Oscarsson, W. Hutchinson, H. Ekström (1991)
Influence of initial microstructure on texture and earing in aluminium sheet after cold rolling and annealingMaterials Science and Technology, 7
H. Weiland, J. Hirsch (1991)
Microstructure and Local Texture in Hot Rolled AluminumTexture, Stress, and Microstructure, 14
C. Maurice, J. Driver (1997)
Hot rolling textures of f.c.c. metals—Part I. Experimental results on Al single and polycrystalsActa Materialia, 45
J. Hirsch, K. Lücke (1988)
Overview no. 76: Mechanism of deformation and development of rolling textures in polycrystalline f.c.c. metals—I. Description of rolling texture development in homogeneous CuZn alloysActa Metallurgica, 36
CS Lee, BJ Duggan (1991)
A Simple Theory for the Development of Inhomogeneous Rolling TexturesMetall. Mater. Trans. A, 22
Guilin Wu, A. Godfrey, Wei Liu, Q. Liu (2001)
Macroscopic subdivision of columnar grain aluminium with {001}〈uv0〉 orientations following low strain deformationScripta Materialia, 45
Y. Zhao, W. Liu, J. Morris (2003)
Comparison of texture evolution during cold rolling between direct chill and continuous cast aluminium alloy 5052Materials Science and Technology, 19
SV Divinskii, VN Dnieprenko (1993)
The Mechanism of Influence of Non-octahedral Slip on Rolling Texture Development in FCC MetalsComput. Simul. Textures Microstruct., 21
L. Delannay, S. Kalidindi, P. Houtte (2002)
Quantitative prediction of textures in aluminium cold rolled to moderate strainsMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 336
W. Liu, J. Morris (2004)
Quantitative analysis of texture evolution in cold-rolled, continuous-cast AA 5xxx-series aluminum alloysMetallurgical and Materials Transactions A, 35
M. Crumbach, G. Gottstein (2004)
Analysis of the activity of {1 1 0}〈1 1 0〉 slip in AA3103 by inverse modelingMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 387
Junkai Li, L. Wenchao, H. Yuan, Y. Gao (2010)
Comparison of earing behavior between continuous cast and direct chill cast AA 5182 aluminum alloys during cold rolling and annealingJournal of Materials Processing Technology, 210
W. Liu, J. Morris (2004)
Lattice rotation and stability of 22.5° ND rotated cube orientation in cold rolled polycrystalline AA 5182 aluminum alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 380
D. Caillard, Jean-Luc Martin (2009)
Glide of dislocations in non-octahedral planes of fcc metals: a reviewInternational Journal of Materials Research, 100
O. Engler, C. Tomé, M. Huh (2000)
A study of through-thickness texture gradients in rolled sheetsMetallurgical and Materials Transactions A, 31
U. Kocks, H. Chandra (1982)
Slip geometry in partially constrained deformationActa Metallurgica, 30
Wang Xinyun, H. Hu, Xia Juchen (2009)
Effect of deformation condition on plastic anisotropy of as-rolled 7050 aluminum alloy plateMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 515
and P
B Bacroix, JJ Jonas (1988)
The influence of Non-octahedral Slip on Texture Development in FCC MetalsTextures Microstruct., 8
HP Kneijnsberg, CA Verbraak, MJT Bouwhuijs (1985)
Determination of Texture Distributions in Inhomogeneously Rolled Al Single Crystals Using a Topographical X-ray MethodActa Mater., 33
P. Houtte, L. Delannay, S. Kalidindi (2002)
Comparison of two grain interaction models for polycrystal plasticity and deformation texture predictionInternational Journal of Plasticity, 18
A. Bowen (1990)
Texture development in high strength aluminium alloysMaterials Science and Technology, 6
J. Bishop, R. Hill (1951)
XLVI. A theory of the plastic distortion of a polycrystalline aggregate under combined stresses.Philosophical Magazine Series 1, 42
A. Akef, J. Driver (1991)
Orientation splitting of cube-oriented face-centred cubic crystals in plane strain compressionMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 132
O. Engler, J. Hirsch, K. Lücke (1989)
Texture development in Al 1.8wt% Cu depending on the precipitation state—I. Rolling texturesActa Metallurgica, 37
W Truszkowski, J Krol, B Major (1982)
On penetration of Shear Texture into the Rolled Aluminum and CopperMetall. Mater. Trans. A, 13
Q. Zhao, Zhiyi Liu, Shasha Li, Tiantian Huang, P. Xia, Luqing Lu (2017)
Evolution of the Brass texture in an Al-Cu-Mg alloy during hot rollingJournal of Alloys and Compounds, 691
W. Liu, J. Morris (2006)
Effect of hot and cold deformation on the P {011}〈455〉 recrystallization texture in a continuous cast Al–Mn–Mg aluminum alloyScripta Materialia, 54
W. Liu, J. Morris (2002)
Kinetics of the formation of the β fiber rolling texture in continuous cast AA 5xxx series aluminum alloysScripta Materialia, 47
R. Becker, J. Butler, H. Hu, L. Lalli (1991)
Analysis of an aluminum single crystal with unstable initial orientation (001) [110] in channel die compressionMetallurgical Transactions A, 22
J. Hirsch, K. Lücke (1988)
Overview no. 76: Mechanism of deformation and development of rolling textures in polycrystalline f.c.c. metals—II. Simulation and interpretation of experiments on the basis of Taylor-type theoriesActa Metallurgica, 36
X. Kong, O. Engler, K. Lücke (1991)
Influence of Precipitates on the Rolling Texture Development in(011)[100] Oriented Al-Cu and Al-Mn Single CrystalsTexture, Stress, and Microstructure, 14
H. Jin, D. Lloyd (2007)
Evolution of texture in AA6111 aluminum alloy after asymmetric rolling with various velocity ratios between top and bottom rollsMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 465
H. Vatne, R. Shahani, E. Nes (1996)
Deformation of cube-oriented grains and formation of recrystallized cube grains in a hot deformed commercial AlMgMn aluminium alloyActa Materialia, 44
T. Schulthess, P. Turchi, A. Gonis, T. Nieh (1998)
Systematic study of stacking fault energies of random Al-based alloysActa Materialia, 46
C.S.T. Chang, B. Duggan (2010)
Relationships between rolled grain shape, deformation bands, microstructures and recrystallization textures in Al-5%MgActa Materialia, 58
W. Truszkowski, J. Król, B. Major (1982)
On Penetration of Shear Texture into the Rolled Aluminum and CopperMetallurgical Transactions A, 13
B. Bacroix, O. Brun, T. Chauveau (1991)
The Influence of Temperature on the Rolling Textures of Al Alloys in the Absence of RecrystallizationTexture, Stress, and Microstructure, 14
O Engler, J Hirsch, K Lücke (1989)
Texture Development in Al 1.8 wt% Cu Depending on the Precipitation State—I. Rolling TexturesActa Mater., 37
B Bacroix, O Brun, T Chauveau (1991)
The Influence of Temperature on the Rolling Textures of Al Alloys in the Absence of RecrystallizationTextures Microstruct., 14
Olga Sukhopar, C. Schäfer, G. Gottstein (2010)
Nucleation at Cube Bands during Recrystallisation in Commercial Al AlloyAdvanced Materials Research, 89-91
O. Mishin, B. Bay, G. Winther, D. Jensen (2004)
The effect of roll gap geometry on microstructure in cold-rolled aluminumActa Materialia, 52
Q. Liu, J. Wert, N. Hansen (2000)
Location-dependent lattice rotation and shear strain in rolled aluminium single crystals of cube and goss orientationsActa Materialia, 48
D. Raabe (1995)
Texture simulation for hot rolling of aluminium by use of a Taylor model considering grain interactionsActa Metallurgica Et Materialia, 43
Zhiyi Liu, Fudong Li, P. Xia, Song Bai, Yan-xia Gu, Dier Yu, Su-min Zeng (2015)
Mechanisms for Goss-grains induced crack deflection and enhanced fatigue crack propagation resistance in fatigue stage II of an AA2524 alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 625
W. Liu, Z. Li, C. Man, D. Raabe, J. Morris (2006)
Effect of precipitation on rolling texture evolution in continuous cast AA 3105 aluminum alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 434
W. Liu, J. Morris (2005)
Effect of hot and cold deformation on the β fiber rolling texture in continuous cast AA 5052 aluminum alloyScripta Materialia, 52
P. Bate, Yan Huang, F. Humphreys (2004)
Development of the “brass” texture component during the hot deformation of Al–6Cu–0.4ZrActa Materialia, 52
Fudong Li, Zhiyi Liu, Wenting Wu, Q. Zhao, Ya-ru Zhou, Song Bai, Xiaohu Wang, Guanghua Fan (2016)
Slip band formation in plastic deformation zone at crack tip in fatigue stage II of 2xxx aluminum alloysInternational Journal of Fatigue, 91
SC Chang, DH Hou, YK Chang (1989)
The effect of Textures and Grain Shape on the Shear Band Formation in Rolled F.C.C. MetalsActa Mater., 37
D. Raabe, Z. Zhao, S.-J Park, F. Roters (2002)
Theory of orientation gradients in plastically strained crystalsActa Materialia, 50
B. Cheon, Hyoung-Wook Kim, Jae-Chul Lee (2011)
Asymmetric rolling of strip-cast Al–5.5Mg–0.3Cu alloy sheet: Effects on the formability and mechanical propertiesMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 528
Fudong Li, Zhiyi Liu, Wenting Wu, P. Xia, Puyou Ying, Q. Zhao, Junlin Li, Song Bai, C. Ye (2016)
On the role of texture in governing fatigue crack propagation behavior of 2524 aluminum alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 669
O. Dalland, E. Nes (1996)
Origin of cube texture during hot rolling of commercial AlMnMg alloysActa Materialia, 44
UF Kocks, H Chandra (1982)
Slip Geometry in Partially Constrained DeformationActa Mater., 30
F. Basson, J. Driver (2000)
Deformation banding mechanisms during plane strain compression of cube-oriented f.c.c. crystalsActa Materialia, 48
S. Divinskii, V. Dnieprenko (1993)
THE MECHANISM OF INFLUENCE OF NON- OCTAHEDRAL SLIP ON ROLLING TEXTURE DEVELOPMENT IN FCC METALS. COMPUTER SIMULATIONTextures and Microstructures, 21
Lihong Su, Cheng Lu, A. Gazder, Ahmed Saleh, G. Deng, K. Tieu, Huijun Li (2014)
Shear texture gradient in AA6061 aluminum alloy processed by accumulative roll bonding with high roll roughnessJournal of Alloys and Compounds, 594
S. Chowdhury (2005)
Development of texture during cold rolling in AA5182 alloyScripta Materialia, 52
W. Liu, J. Morris (2002)
Texture evolution of polycrystalline AA 5182 aluminum alloy with an initial {001}〈110〉 texture during rollingScripta Materialia, 47
Jian-tao Liu, J. Morris (2003)
Macro-, micro- and mesotexture evolutions of continuous cast and direct chill cast AA 3105 aluminum alloy during cold rollingMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 357
C. Maurice, J. Driver (1997)
Hot rolling textures of f.c.c. metals—Part II. Numerical simulationsActa Materialia, 45
W. Liu, T. Zhai, J. Morris (2004)
Texture evolution of continuous cast and direct chill cast AA 3003 aluminum alloys during cold rollingScripta Materialia, 51
H. Kneijnsberg, C. Verbraak, M. Bouwhuijs (1985)
Determination of texture distributions in inhomogeneously rolled Al single crystals using a topographical X-ray methodActa Metallurgica, 33
Yuan-chun Huang, Yu Liu, Qing Li, Xiang Liu, C. Yang (2016)
Relevance between microstructure and texture during cold rolling of AA3104 aluminum alloyJournal of Alloys and Compounds, 673
O. Mishin, B. Bay, D. Jensen (2000)
Through-thickness texture gradients in cold-rolled aluminumMetallurgical and Materials Transactions A, 31
J. Driver, A. Skalli, M. Wintenberger (1984)
A theoretical and experimental study of the plastic deformation of f.c.c. crystals in plane strain compressionPhilosophical Magazine, 49
C. Choi, J. Kwon, K. Oh, Dong Lee (1997)
Analysis of deformation texture inhomogeneity and stability condition of shear components in f.c.c. metalsActa Materialia, 45
Ming-biao Chen, Junkai Li, Y. Zhao, H. Yuan, W. Liu (2011)
Comparison of texture evolution between different thickness layers in cold rolled Al–Mg alloyMaterials Characterization, 62
L. Zhen, Junzhou Chen, Shou-jie Yang, W. Shao, S. Dai (2009)
Development of microstructures and texture during cold rolling in AA 7055 aluminum alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 504
A. Vasudévan, M. Przystupa, W. Fricke (1995)
Effect of composition on crystallographic texture of hot-rolled AlLi binary alloysMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 196
T. Rickert, S. Guldberg, T. Furu, E. Nes, K. Lücke (1991)
The Effect of Particles on Texture Evolution in Commercial AlMnTextures and Microstructures, 14
I. Dillamore, W. Roberts (1964)
Rolling textures in f.c.c. and b.c.c. metalsActa Metallurgica, 12
K Morii, H Mecking, Y Nakayama (1985)
Development of Shear Bands in f.c.c. Single CrystalsActa Mater., 33
W. Truszkowski, J. Kr'ol, B. Major (1980)
Inhomogeneity of rolling texture in fcc metalsMetallurgical Transactions A, 11
O. Engler, J. Hirsch, K. Lücke (1995)
Texture development in Al-1.8 wt% Cu depending on the precipitation state—II. Recrystallization texturesActa Metallurgica Et Materialia, 43
Z. Yao, Z. Zhang, A. Godfrey, W. Liu, Q. Liu (2010)
Microstructure and texture evolution of particle-containing AA3104 alloy cold rolled to large strainsMaterials Science and Technology, 26
T. Zhai, X. Jiang, J. Li, M. Garratt, G. Bray (2005)
The grain boundary geometry for optimum resistance to growth of short fatigue cracks in high strength Al-alloysInternational Journal of Fatigue, 27
W. Liu, C. Man, D. Raabe, J. Morris (2005)
Effect of hot and cold deformation on the recrystallization texture of continuous cast AA 5052 aluminum alloyScripta Materialia, 53
U. Kocks (1970)
The relation between polycrystal deformation and single-crystal deformationMetallurgical and Materials Transactions B, 1
S. Choi, Jae-Kwon Choi, Hyoung-Wook Kim, Seokil Kang (2009)
Effect of reduction ratio on annealing texture and r-value directionality for a cold-rolled Al–5% Mg alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 519
J Hirsch, K Lücke (1988)
Overview no. 76 Mechanism of Deformation and Development of Rolling Textures in Polycrystalline f.c.c. metals—II. Simulation and Interpretation of Experiments on the Basis of Taylor-Type TheoriesActa Mater., 36
Q. Liu, N. Hansen (1995)
Deformation microstructure and orientation of f.c.c. crystalsPhysica Status Solidi (a), 149
D. Raabe, Z. Zhao, F. Roters (2004)
Study on the orientational stability of cube-oriented FCC crystals under plane strain by use of a texture component crystal plasticity finite element methodScripta Materialia, 50
B. Major (1992)
Texture, microstructure, and stored energy inhomogeneity in cold rolled commercial purity aluminium and copperMaterials Science and Technology, 8
H. Asbeck, H. Mecking (1978)
Influence of friction and geometry of deformation on texture inhomogeneities during rolling of Cu single crystals as an exampleMaterials Science and Engineering, 34
W. Liu, B. Radhakrishnan, Z. Li, J. Morris (2008)
Through-thickness texture gradient in continuous cast AA 5052 aluminum alloy sheetMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 472
J Hirsch, K Lücke (1988)
Overview no. 76: Mechanism of Deformation and Development of Rolling Textures in Polycrystalline f.c.c. metals—I. Description of Rolling Texture Development in Homogeneous CuZn AlloysActa Mater., 36
J. Sidor, A. Miroux, R. Petrov, L. Kestens (2008)
Microstructural and crystallographic aspects of conventional and asymmetric rolling processesActa Materialia, 56
P. Houtte, Saiyi Li, M. Seefeldt, L. Delannay (2005)
Deformation texture prediction: from the Taylor model to the advanced Lamel modelInternational Journal of Plasticity, 21
R. Singh, Ashutosh Singh, N. Prasad (2000)
Texture and mechanical property anisotropy in an Al–Mg–Si–Cu alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 277
W. Liu, J. Morris (2003)
Comparison of the texture evolution in cold rolled DC and SC AA 5182 aluminum alloysMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 339
H. Yuan, Qing-feng Wang, Jianjun Zhang, L. Wenchao, Youping Gao (2011)
Effect of grain shape on the texture evolution during cold rolling of Al–Mg alloysJournal of Alloys and Compounds, 509
S. Chang, Q. Jiang, J. Hu, Fu-Rong Chen (1998)
The texture and formation of shear bands in a hot rolled 7050 aluminum alloyScripta Materialia, 39
L. Wenchao, C. Man, D. Raabe (2010)
Effect of strain hardening on texture development in cold rolled Al–Mg alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 527
J. Li, T. Zhai, M. Garratt, G. Bray (2005)
Four-point-bend fatigue of AA 2026 aluminum alloysMetallurgical and Materials Transactions A, 36
J. Bishop, R. Hill (1951)
CXXVIII. A theoretical derivation of the plastic properties of a polycrystalline face-centred metalPhilosophical Magazine Series 1, 42
O. Engler, J. Aegerter (2014)
Texture and anisotropy in the Al–Mg alloy AA 5005 – Part II: Correlation of texture and anisotropic propertiesMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 618
Gonzalo Becerra, J. Ramos-Grez, J. Montecinos (2009)
Texture Distribution and Plane Strain Mechanical Behavior of AA 7xxx Plates of Different ThicknessesJournal of Materials Engineering and Performance, 18
A. Duckham, R. Knutsen, O. Engler (2001)
Influence of deformation variables on the formation of copper-type shear bands in Al–1MgActa Materialia, 49
Z. Yao, G. Huang, A. Godfrey, Wei Liu, Qing Liu (2009)
Dislocation Boundary Structure from Low to Medium Strain of Cold Rolling AA3104 Aluminum AlloyMetallurgical and Materials Transactions A, 40
J Liu, JG Morris (2003)
Texture and Grain-Boundary Evolutions of Continuous Cast and Direct Chill Cast AA 5052 Aluminum Alloy During Cold Rolling, MetallMater. Trans. A, 34
W. ∥, T. Zhai, C. Man, B. Radhakrishnan, J. Morris (2004)
Effect of initial texture on texture evolution in cold-rolled AA 5182 aluminium alloyPhilosophical Magazine, 84
IL Dillamore, WT Roberts (1964)
Rolling Textures in f.c.c. and b.c.c. MetalsActa Mater., 12
F. Perocheau, J. Driver (2002)
Slip system rheology of Al–1% Mn crystals deformed by hot plane strain compressionInternational Journal of Plasticity, 18
K. Jata, S. Panchanadeeswaran, A. Vasudévan (1998)
Evolution of texture, micro structure and mechanical property anisotropy in an Al-Li-Cu alloyMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 257
(1964)
Crystallographic Texture Variations Through Rolled Aluminium and Copper Sheet, J
R. Higginson, P. Bate (1999)
Substructure drag effects and recrystallization textures in aluminiumActa Materialia, 47
A. Godfrey, D. Jensen, N. Hansen (1998)
Slip pattern, microstructure and local crystallography in an aluminium single crystal of copper orientation {112}〈111〉Acta Materialia, 46
W. Smith (1993)
Foundations of Materials Science and Engineering
J. Hjelen, R. Ørsund, E. Nes (1991)
On the origin of recrystallization textures in aluminiumActa Metallurgica Et Materialia, 39
Xiaofeng Wang, M. Guo, Y. Zhang, Hui Xing, Yong Li, Jin-ru Luo, Ji-shan Zhang, L. Zhuang (2016)
The dependence of microstructure, texture evolution and mechanical properties of Al–Mg–Si–Cu alloy sheet on final cold rolling deformationJournal of Alloys and Compounds, 657
Q. Contrepois, C. Maurice, J. Driver (2010)
Hot rolling textures of Al–Cu–Li and Al–Zn–Mg–Cu aeronautical alloys: Experiments and simulations to high strainsMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 527
P. Lequeu, P. Gilormini, F. Montheillet, B. Bacroix, J. Jonas (1987)
Yield surfaces for textured polycrystals—I. Crystallographic approachActa Metallurgica, 35
Chang Shih-Chin, Hou Duen-Huei, Chang Yun-Kie (1989)
The effect of textures and grain shape on the shear band formation in rolled F.C.C. metalsActa Metallurgica, 37
O. Castro-Orgaz, W. Hager (2019)
and sShallow Water Hydraulics
G Varga, G Wassermann (1933)
On the Relation Between the Crystal Orientation in Rolled Aluminum Sheet and the Thickness of the SheetMetallwirtschqft, 12
W Truszkowski, J Kr’Ol, B Major (1980)
Inhomogeneity of Rolling Texture in fcc MetalsMetall. Mater. Trans. A, 11
O. Engler, K. Lücke (1991)
Influence of the precipitation state on the cold rolling texture in 8090 AlLi materialMaterials Science and Engineering A-structural Materials Properties Microstructure and Processing, 148
Qing Liu, N. Hansen (1998)
Macroscopic and microscopic subdivison of a cold–rolled aluminium single crystal of cubic orientationProceedings of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences, 454
C. Maurice, J. Driver (1993)
High temperature plane strain compression of cube oriented aluminium crystalsActa Metallurgica Et Materialia, 41
GL Wu, A Godfrey, W Liu, Q Liu (2001)
Macroscopic Subdivision of Columnar Grain Aluminium with {001}Scr. Mater., 45
P Lequeu, P Gilormini, F Montheillet, B Bacroix, JJ Jonas (1987)
Yield Surfaces for Textured Polycrystals—ICrystallogr Approach Acta Mater., 35
AK Vasudévan, MA Przystupa, WG Fricke (1995)
Effect of Composition on Crystallographic Texture in Hot-Rolled Al-Li-Cu AlloysMater. Sci. Eng., A, 196
C. Lee, B. Duggan (1991)
A simple theory for the development of inhomogeneous rolling texturesMetallurgical Transactions A, 22
H Weiland, JR Hirsch (1991)
Microstructure and Local Texture in Hot Rolled AluminumTextures Microstruct., 14
The current understanding of texture evolution during deformation by rolling in aluminum alloys was summarized. This included understanding the evolution mechanisms and several key factors of initial texture, microstructure, alloy composition, deformation temperature, stress–strain condition, and rolling geometry. Related models on predicting texture evolution during rolling were also discussed. Finally, for this research field, the recommendations for controlling the formation of rolling textures were proposed.
Journal of Materials Engineering and Performance – Springer Journals
Published: Jun 1, 2018
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.