nach oben

Erschienen in:

2014 | OriginalPaper | Buchkapitel

6. Annealing Texture

verfasst von : Satyam Suwas, Ranjit Kumar Ray

Erschienen in: Crystallographic Texture of Materials

Verlag: Springer London

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

A plastically deformed material, due to its increased content of physical defects, is in a thermodynamically metastable state. On increasing the temperature, the material can lower its free energy by the removal and rearrangement of the lattice defects.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Vorheriges Kapitel Deformation Textures

Nächstes Kapitel Texture Evolution in Thin Films

Bever MB, Holt DL, Titchener AL (1973) Stored energy of cold work. Prog Mater Sci 17:5–177CrossRef

Reed-Hill RE (1973) Physical metallurgy principles. (University Series in Basic Engineering), 2nd edn. Van Nostrand

Suwas S, Eberhardt A, Toth LS, Fundenberger JJ, Grosdidier T (2004) A recrystallisation based investigation for efficiency of processing routes during equal channel angular extrusion. In: Recrystallization and grain growth, pts 1 and 2. Trans Tech Publications Ltd., Stafa-Zurich, pp 1325–1330

Cahn RW (1949) Recrystallization of single crystals after plastic bending. J Inst Met 76:121–143

Humphreys FJ, Hatherly M (2004) Recrystallization and related annealing phenomena, 2nd edn. Elsevier, Oxford

Burgers WG (1941) Handbuch der Metallphysik, Edwards Brothers Lithographers, Ann Arbor

Beck PA, Sperry PR, Hu H (1950) The orientation dependence of the rate of grain boundary migration. J Appl Phys 21:420–425CrossRef

Cahn RW (1950) A new theory of recrystallization nuclei. Proc Phy Soc London 63:323–336CrossRef

Beck PA (1948) Effect of recrystallized grain size on grain growth. J Appl Phys 19:507–508CrossRef

10.

Cottrell AH (1953) Theory of dislocation. Prog Met Phy 4:205–264CrossRef

11.

Cahn RW (1971) Nucleation in recrystallization. In: Recrystallization of metallic materials. Dr. Riederer Verlag G.m.b.H, Stuttgart, pp 43–79

12.

Walter JL, Koch EF (1963) Substructures and recrystallization of deformed (100) [001]—oriented crystals of high purity silicon–iron. Acta Metall 11:923–938CrossRef

13.

Huang Y, Humphreys FJ (2000) Subgrain growth and low angle boundary mobility in aluminium crystals of orientation {110}〈001〉. Acta Mater 48:2017–2030CrossRef

14.

Hu H (1962) Direct observations on the annealing of a Si–Fe crystal in the electron microscope. Trans Am Inst Min Metall Pet Eng 224:75–84

15.

Bailey JE, Hirsch PB (1962) Recrystallization process in some polycrystalline metals. Proc Roy Soc London Ser A 267:11–30CrossRef

16.

Dillamore IL, Morris PL, Smith CJE, Hutchinson WB (1972) Transition bands and recrystallization in metals. Proc Roy Soc London Ser A 329:405–420CrossRef

17.

Adcock F (1922) Shear bands in deformed copper. J Inst Met 27:73–92

18.

Kohara S, Parthasarathi MN, Beck PA (1958) Annealing texture in a rolled and artificially nucleated aluminum single crystal. Trans Am Inst Min Metall Pet Eng 212:875–881

19.

Liebmann B, Lucke K, Masing G (1956) Orientation dependency of the rate of growth during primary recrystallization of aluminum single crystals. Z Metallkd 47:57–63

20.

Rath BB, Hu H (1966) Anisotropy of grain boundary mobility in zone-refined aluminum crystals. Trans Metall Soc AIME 236:1193–1197

21.

Kinsman K, Aaronson H (1997) Structure of crystalline interfaces. Mater Char 39:209–233CrossRef

22.

Kronberg ML, Wilson FH (1949) Secondary recrystallization in copper. Trans Am Inst Min Metall Pet Eng 1:501–514

23.

Brandon DG, Ralph B, Ranganathan S, Wald MS (1964) Field ion microscope study of atomic configuration at grain boundaries. Acta Metall 12:813–821CrossRef

24.

Aust KT, Rutter JW (1959) Temperature dependence of grain boundary migration in high-purity lead containing small additions of tin. Trans Am Inst Min Metall Pet Eng 215:820–831

25.

Li JC (1961) High-angle tilt boundary—a dislocation core model. J Appl Phys 32:525–541CrossRef

26.

Ibe G, Lucke K (1966) Recrystallization, grain growth and textures, A.S.M, Cleveland

27.

Lücke K, Stuwe HP (1963) On the theory of grain boundary motion. In: Himmel L (ed) Recovery and recrystallization of metals. 171–210, New York (Interscience)

28.

Beck PA, Hu H (1952) Annealing textures in rolled face-centered cubic metals. J Met 4:83–90

29.

Richards TL, Pugh SF (1960) Structural changes in 99.990 % pure aluminium during rolling and annealing. J Inst Met 88:399–405

30.

Bunk W, Lucke K, Masing G (1954) Rolling and recrystallization textures of aluminum. Texture studies with hot-rolled aluminum sheets. Z Metallkd 45:584–593

31.

Lücke K (1954) Rolling and recrystallization texture of aluminum. I. Texture of cold-rolled aluminum. Z Metallkd 45:86–92

32.

Grewen J (1965) Texturbildung beim walzen und gluhen von aluminium 99.99 (.2. Gluhtexturen) Metall., 19:604–609

33.

Smallman RE (1955) Textures in face-centered cubic metals and alloys. J Inst Met 84:10–18

34.

Bunk W, Esslinger P (1959) Einfluss der legierungselemente eisen und silizium auf textur und zipfelverhalten von reinaluminium. Z Metallkd 50:278–287

35.

Haessner F, Masing G, Stuwe HP (1956) Textur und zipfelbildung an reinaluminiumblechen aus strang und kokillenguss. Z Metallkd 47:743–750

36.

Engler O, Lücke K (1992) Mechanisms of recrystallization texture formation in aluminium alloys. Scripta Metall Mater 27:1527–1532CrossRef

37.

Detert K, Dorsch P, Migge H (1963) Texture formation in recrystallized sheets of high-purity nickel and nickel alloys. Z Metallkd 54:263–270

38.

Littmann MF (1956) Cubic texture in ultrathin tapes of 48 % nickel-iron alloy. J Met 8:593–595

39.

Schmid E, Thomas H (1950) Crystal structures and x-ray reflection patterns in 50–50 nickel-iron alloys. Z Metallkd 41:45–49

40.

Schmid E, Thomas H (1951) The cubic layer (“W.ovrddot.urfellage”) of face-centered cubic metals. Z Phys 130:293–303CrossRef

41.

Seymour WE, Harker D (1950) Recrystallization reaction kinetics and texture studies of a 50 iron–50 nickel alloy. J Met 188:1001–1004

42.

Tai LC, Chang SY, Liu RP (1962) Formation of cube texture in nickel-iron. Sci Sin (Engl. Ed.) 11:753–760

43.

Beck PA, Hu H (1952) Annealing textures in rolled face-centered cubic metals. J Met 4:83–90

44.

Merlini A, Beck PA (1955) Effect of zinc content on the rolling texture and annealing texture of alpha brass. J Met 7:385–393

45.

Gottstein G, Shvindlerman LS (2010) Grain boundary migration in metals: thermodynamics, kinetics applications. CRC Press, New York

46.

Richman RH, Liu Y-C (1961) The evolution of textures in FCC [face-centered-cubic] metals. II. Alloys of copper with phosphorus, arsenic, and antimony. Trans Am Inst Min Metall Pet Eng 221:720–732

47.

Hutchinson WB, Ray RK (1979) Influence of phosphorus additions on annealing behavior of cold-worked copper. Met Sci 13:125–130CrossRef

48.

Barrett CS (1952) Structure of metals. Crystallographic methods principles and data, 2nd edn. McGraw-Hill Book Co, New York

49.

Engler O (2001) Recrystallisation textures in copper-manganese alloys. Acta Mater 49:1237–1247CrossRef

50.

Hu H, Cline RS, Goodman SR (1962) Annealing textures in high-purity silver. Trans Am Inst Min Metall Pet Eng 224:96–105

51.

Hu H, Goodman SR (1963) Texture transition in copper. Trans Am Inst Min Metall Pet Eng 227:627–639

52.

Dillamore IL, Roberts WT (1964) Crystallographic texture variations through rolled aluminium + copper sheet. J Inst Met 92:193–199

53.

Ray RK, Jonas JJ, Hook RE (1994) Cold rolling and annealing textures in low carbon and extra low carbon steels. Inter Mater Rev 39:129–172CrossRef

54.

Engler O (1999) On the origin of the R-orientation in the recrystallization textures of aluminum alloys. Metall Mater Trans A 30A:1517–1527CrossRef

55.

Humphreys FJ, Kalu PN (1991) The development of microstructure and texture during the deformation and annealing of particle-containing polycrystals. Textures Microstruct 14:703–708CrossRef

56.

Keeler JH, Geisler AH (1957) Preferred orientations in rolled and annealed titanium. Trans Am Inst Min Metall Pet Eng 206:80–90

57.

Philippe MJ (1994) Texture formation in hexagonal materials. Mater Sci Forum 157–162:1337–1350CrossRef

58.

Wagner F, Bozzolo N, van Landuyt O, Grosdidier T (2002) Evolution of recrystallisation texture and microstructure in low alloyed titanium sheets. Acta Mater 50:1245–1259CrossRef

59.

Bozzolo N, Dewobroto N, Grosdidier T, Wagner F (2005) Texture evolution during grain growth in recrystallized commercially pure titanium. Mater Sci Eng A 397:346–355CrossRef

60.

Engler O, Hirsch J, Lücke K (1995) Texture development in Al-1.8 wt% Cu depending on the precipitation state—II. Recrystallization textures. Acta Metall Mater 43:121–138

61.

Burgers WG, Louwerse PC (1931) Recrystallization of single aluminum crystals. III. Connection between deformation phenomena and recrystallization texture for aluminum. Z Phys 67:605–678CrossRef

62.

Liu YC, Hibbard WR Jr (1953) Recrystallization of a cold-rolled copper single crystal. J Met 197:672–679

63.

Burgers WG, Liu YH, Tiedema TJ (1951) The influence of crystal orientation on polygonization of aluminum single crystals. Proc K Ned Akad Wet Ser B Phys Sci 54B:459–463

64.

Burgers WG (1952) Recrystallization and grain growth in solid metals. In: Inst. intern. phys. Solvay, 9e Conseil phys., Univ. Bruxelles, Etat solide, Rapp. et disc., pp 73–156

65.

Decker BF, Harker D (1951) Relation between initial and final orientations in rolling and annealing of silicon ferrite. J Appl Phys 22:900–904CrossRef

66.

Stadelmaier H, Brown BF (1956) Einfluss elastischer spannungen auf rekristallisationstexturen. Z Metallkd 47:1–8

67.

Barrett CS (1940) Recrystallization texture of aluminum after compression. Am Inst Mining Met Eng Inst Metals Div Tech Pub 137:128–149

68.

Beck PA (1951) Origin of the cube texture in face-centered cubic metals. Trans Am Inst Min Met Eng 191:474–475

69.

Ibe G (1964) Doctoral Thesis, University of Aachen

70.

Lücke K (1963) 7th Colloque de Metallurgie: Ecrouissage, Restauration, Recristallisation. Paris

71.

Dillamore IL, Roberts WT (1965) Preferred orientation in wrought and annealed metals. Met Rev 10:271–380CrossRef

72.

Merlini A, Beck PA (1953) The origin of the cube texture. Acta Metall 1:598–606CrossRef

73.

Parthasarathi MN, Beck PA (1961) The oriented growth mechanism of the formation of recrystallization textures in aluminum. Trans Am Inst Min Metall Pet Eng 221:831–838

74.

Burke JE (1952) Origin of recrystallization textures. Trans Am Inst Min Met Eng 194:263–264

75.

Becker JJ (1951) Oriented growth in primary recrystallization. Trans Am Inst Min Met Eng 191:115

76.

Dunn CG (1954) Cold rolled and primary recrystallization textures in cold rolled single crystals of silicon iron. Acta Metall 2:173–183CrossRef

77.

Liu YC, Hibbard WR Jr (1955) Recrystallization textures of a cold-rolled aluminum single crystal. J Met 7:1249–1251

78.

Verbraak CA (1958) The formation of cube recrystallization textures by (112) slip. Acta Metall 6:580–597CrossRef

79.

Burgers WG, Tiedema TJ (1950) Recrystallization nuclei and the origin of recrystallization textures. Proc K Ned Akad Wet 53:1525–1587

80.

Dunn CG (1949) Cold working of metals. A.S.M, Cleveland

81.

Juul Jensen D (1995) Growth rates and misorientation relationships between growing nuclei/grains and the surrounding deformed matrix during recrystallization. Acta Metall Mater 43:4117–4129CrossRef

82.

Doherty R, Samajdar I, Necker C, Vatne H (1995) Microstructural and crystallographic aspects of recrystallization. In: 16th Risø international symposium on materials science, pp 1–23

83.

Engler O (1998) On the influence of orientation pinning on growth selection of recrystallisation. Acta Mater 46:1555–1568CrossRef

84.

Vandermeer R, Hansen N, Jensen DJ, Liu Y, Ralph B (1995) Microstructural and crystallographic aspects of recrystallization. Risø National Lab, Roskilde

85.

Lee DN (1996) Maximum energy release theory for recrystallization textures. Met Mater (Seoul) 2:121–131CrossRef

86.

Park YB, Lee DN, Gottstein G (1997) Evolution of recrystallisation textures from cold rolling textures in interstitial free steel. Mater Sci Tech 13:289–298CrossRef

87.

Gottstein G (2002) Evolution of recrystallization textures—classical approaches and recent advances. Mater Sci Forum 408–412:1–24CrossRef

88.

Bhattacharjee PP, Ray RK, Tsuji N (2009) Cold rolling and recrystallization textures of a Ni-5 at.% W alloy. Acta Mater 57:2166–2179CrossRef

89.

Dillamore IL, Katoh H (1974) Mechanisms of recrystallization in cubic metals with particular reference to their orientation dependence. Met Sci 8:73–83CrossRef

90.

Ridha AA, Hutchinson WB (1982) Recrystallization mechanisms and the origin of cube texture in copper. Acta Metall 30:1929–1939CrossRef

91.

Zaefferer S, Baudin T, Penelle R (2001) A study on the formation mechanisms of the cube recrystallization texture in cold rolled Fe-36 %Ni alloys. Acta Mater 49:1105–1122CrossRef

92.

Doherty RD, Hughes DA, Humphreys FJ, Jonas JJ, Jensen DJ, Kassner ME, King WE, McNelley TR, McQueen HJ, Rollett AD (1997) Current issues in recrystallization: a review. Mater Sci Eng A 238:219–274CrossRef

93.

Lücke K, Engler O (1990) Effects of particles on development of microstructure and texture during rolling and recrystallization in FCC alloys. Mater Sci Tech 6:1113–1130CrossRef

94.

Doherty RD (1985) Nucleation and growth kinetics of different recrystallization texture components. Scripta Metall 19:927–930CrossRef

95.

Doherty RD, Kashyap K, Panchanadeeswaran S (1993) Direct observation of the development of recrystallization texture in commercial purity aluminum. Acta Metall Mater 41:3029–3053CrossRef

96.

Samajdar I, Doherty R (1998) Cube recrystallization texture in warm deformed aluminum: understanding and prediction. Acta Mater 46:3145–3158CrossRef

Titel: Annealing Texture
verfasst von: Satyam Suwas
Ranjit Kumar Ray
Verlag: Springer London
Buch: Crystallographic Texture of Materials
Print ISBN: 978-1-4471-6313-8

Electronic ISBN: 978-1-4471-6314-5

Copyright-Jahr: 2014
DOI: https://doi.org/10.1007/978-1-4471-6314-5_6

Premium Partner

Marktübersichten

Die im Laufe eines Jahres in der „adhäsion“ veröffentlichten Marktübersichten helfen Anwendern verschiedenster Branchen, sich einen gezielten Überblick über Lieferantenangebote zu verschaffen.

Zur Marktübersicht