Czasopismo | RUDY I METALE NIEŻELAZNE | Rocznik 2017 - zeszyt 11

WALCOWANIE ASYMETRYCZNE - WYBRANE PROBLEMY Część A: Walcowanie asymetryczne i inne technologie umożliwia jące rozdrobnienie ziarna

ASYMMETRIC ROLLING - SELECTED TOPICS

10.15199/67.2017.11.4

nr katalogowy: 110802
10.15199/67.2017.11.4

Streszczenie

W serii trzech artykułów przeanalizowano literaturę dotyczącą walcowania asymetrycznego oraz wpływu tego procesu na teksturę i mikrostrukturę metali. W części A syntetycznie przedstawiono dostępne techniki rozdrabniania ziarna oraz przedstawiono podstawową klasyfikację procesów walcowania asymetrycznego.

Abstract

A literature review on asymmetric rolling has been done and presented in a series of three consecutive papers. The effect of rolling asymmetry on technological parameters and the product texture and microstructure was presented. The present paper briefly presents, the available grain reduction techniques and the basic classification of asymmetric rolling processes.

Słowa kluczowe

Keywords

Bibliografia

[1] Aliofkhazraei Mohmood. 2015. Handbook of Mechanical Nanostructuring. Weinheim: Wiley-VCH Verlag GmbH & Co.
[2] Angella G., B. Esfandiar Jahromi, M. Vedani. 2013. “A Comparison between Equal Channel Angular Pressing and Asymmetric Rolling of Silver in the Severe Plastic Deformation Regime". Materials Science and Engineering A 559: 742-750.
[3] Avitzur Betzalel. 1975. “Extrolling: Combined Extrusion and Rolling". The Wire Journal 7: 73-80.
[4] Avitzur Betzalel. 1976. “Methods of and apparatus for production of wire". Patent US 3934446 A.
[5] Beausir Benoît, Somjeet Biswas, Dong Ik Kim, László S. Tóth, Satyam Suwas. 2009. “Analysis of Microstructure and Texture Evolution in Pure Magnesium during Symmetric and Asymmetric Rolling". Acta Materialia 57 (17): 5061-5077.
[6] Bochniak Włodzimierz, Paweł Ostachowski, Jacek Borowski. 2013. “Wyciskanie Metali I Stopów Metodą KOBO". Obróbka Plastyczna Metali XXIV (2): 83-97.
[7] Bochniak Włodzimierz, Andrzej Korbel, Robert Szyndler, Robert Hanarz, Feliks Stalony-Dobrzański, Ludwiek Błaż, Piotr Snarski. 2006. “New forging method of bevel gears from structural steel". Journal of Materials Processing Technology 173: 75-83
[8] Bridgman Percy Williams. 1943. “On Torsion Combined with Compression". Journal of Applied Physics 14 (6): 273-283.
[9] Buxton S. A., S. C. Browning. 1972. “Turn-up and Turn-down in Hot Rolling: A Study on a Model Mill Using Plasticine". Journal of Mechanical Engineering Science 14: 245-254.
[10] C. Yong, L., H. S. Zeon, L. S. Hee. 2005. A manufacturing metod of high-strength Cu workpiece using accumulative roll-bonding process. Patent KR20060013211 (A).
[11] Chen Shou-Dong, Xiang-Hua Liu, Li-Zhong Liu. 2015. “Symmetric and Asymmetric Rolling Pure Copper Foil: Crystal Plasticity Finite Element Simulation and Experiments". Acta Metallurgica Sinica 28 (8): 1024-1033.
[12] Chen Shou Dong, Xiang Hua Liu, Li Zhong Liu. 2015. “Grain Statistics Effect on Deformation Behavior in Asymmetric Rolling of Pure Copper Foil by Crystal Plasticity Finite Element Model". Transactions of Nonferrous Metals Society of China (English Edition) 25 (10): 3370-3380.
[13] Cheon Boo Hyeon, 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 Properties". Materials Science and Engineering A 528 (15): 5223-5227.
[14] Dewhurst P., I. F. Collins, W. Johnson. 1974. “A Theoretical and Experimental Investigation into Asymmetrical Hot Rolling". International Journal of Mechanical Sciences 16: 389-397.
[15] Dyja Henryk, W. M. Sałganik, A. M. Piesin, Anna Kawałek. 2008. Asymetryczne walcowanie blach cienkich -teoria, technologia i nowe rozwiązania. Częstochowa: Wydawnictwo Politechniki Częstochowskiej.
[16] Dyja Henryk, Krzysztof Wilk. 1998. Asymetryczne walcowanie blach i taśm. Częstochowa: Wydwnictwo Wydziału Metalurgii i Inżynierii Materiałowej Politechniki Częstochowskiej. 18 Rudy Metale 2017, R. 62, nr 11
[17] Edalati, Kaveh, Zenji Horita. 2016. “A Review on High-Pressure Torsion (HPT) from 1935 to 1988". Materials Science and Engineering A 652: 325-352.
[18] Farè S., N. Lecis, M. Vedani. 2011. “Aging Behaviour of Al-Mg-Si Alloys Subjected to Severe Plastic Deformation by ECAP and Cold Asymmetric Rolling". Journal of Metallurgy 2011: 1-8.
[19] Green D. 1971. Patent No. 1370894.
[20] Green D. 1972. “Continuous Extrusion-Forming of Wire Section". Journal of the Institute of Metals 100: 295-300.
[21] Grosman Franciszek, Jacek Pawlicki, Andrzej Korbel, Włodzimierz Bochniak, Ryszard Kiełpiński, Lucjan Tomecki. 2009. Sposób walcowania, zwłaszcza metali oraz klatka walcownicza do walcowania. Patent PL 203220 B1.
[22] Utsunomiya H., K. Hatsuda, T. Sakai, Y. Saito. 2004. “Continuous Ultra Grain Refinement of Aluminum Strip by Conshearing". Materials Science and Engineering A 372(1-2): 199-206.
[23] Hall E. O. 1951. “The Deformation and Ageing of Mild Steel: III Discussion of Results". Proceedings of the Physical Society. Section B 64 (9): 747-753.
[24] Han Jun-Hyun, Jin-Yoo Suh, Kyu Hwan Oh, Jae-Chul Lee. 2004. “Orientation Rotation Behavior in Aluminum Alloys during Dissimilar Channel Angular Pressing". Materials Transactions 45 (1): 125-130.
[25] Holbrook L., C. F. Zorowski. 1988. “Effects of Non-Symmetry in Strip Rolling." J. Eng. Ind. B88: 401-408.
[26] Huang Y., P. B. Prangnell. 2007. “Continuous Frictional Angular Extrusion and Its Application in the Production of Ultrafine-Grained Sheet Metals". Scripta Materialia 56 (5): 333-336.
[27] Hwang Yeong-Maw, Gow-Yi Tzou. 1996. “An Analytical Approach to Asymmetrical Cold- and Hot-Rolling of Clad Sheet Using the Slab Method". Journal of Materials Processing Technology 62: 249-256.
[28] Hwang Yeong-Maw, Gow-Yi Tzou. 1997. “Analytical and Experimental Study on Asymmetrical Sheet Rolling". International Journal of Mechanical Sciences 39: 289-303.
[29] Ji Y.H., J.J. Park. 2009. “Development of Severe Plastic Deformation by Various Asymmetric Rolling Processes". Materials Science and Engineering: A 499 (1-2): 14-17.
[30] Jiang Jianhua, Yi Ding, Fangqing Zuo, Aidang Shan. 2009. “Mechanical Properties and Microstructures of Ultrafine-Grained Pure Aluminum by Asymmetric Rolling." Scripta Materialia 60 (10). Acta Materialia Inc.: 905-908.
[31] Jin H., D. J. Lloyd. 2007. “Evolution of Texture in AA6111 Aluminum Alloy after Asymmetric Rolling with Various Velocity Ratios between Top and Bottom Rolls". Materials Science and Engineering A 465 (1-2): 267-273.
[32] Johnson W., G. Needham. 1966. An Experimental Study of Asymmetrical Rolling, in: Applied Mechanics Convention. Cambridge: Institute of Mechanical Engineers.
[33] Juretzek G. 1957. “Rolling Force and Moment with Mismatched Roll Diameters". Freibergerer Researchcorpus B 16: 74-81.
[34] Kawałek Anna. 2008. “Wpływ Asymetrycznego Procesu Walcowania Na Wyginanie Się Pasma Podczas Walcowania Blach Grubych". Hutnik. Wiadomości Hutnicze 75 (6): 287-293.
[35] Kawałek Anna. 2009. “Analiza Wpływu Parametrów Asymetrycznego Procesu Walcowania Na Kształt Pasma". Hutnik. Wiadomości Hutnicze 76 (8): 593-595.
[36] Kawałek Anna. 2010. “Analiza Asymetrycznego Procesu Walcowania Blach Grubych". Archiwum Technologii Maszyn i Automatyzacji 30 (1): 105-116.
[37] Kawałek Anna. 2011. Asymetryczne walcowanie blach grubych w walcowni dwuklatkowej. Częstochowa: Wydnictwo Wydziału Inżynierii Procesowej, Materiałowej i Fizyki Stosowanej Politechniki Częstochowskiej.
[38] Korbel Andrzej, Włodzimierz Bochniak. 1998. Method of Plastic Forming of Materials. US Patent 5737959 A.
[39] Korbel Andrzej, Włodzimierz Bochniak. 2000. Method of plastic forming of materials. European Patent No 0711210.
[40] Korbel Andrzej, Włozimierz Bochniak, Paweł Ostachowski Ludwik Błaż. 2011. "Viscolastic Flow of Metal in Dynamic Conditions of Complex Strain Scheme". Metallurgical and Materials Transaction A 42A: 2881-2897
[41] Kurzydłowski Krzysztof, Małgorzata Lewandowska. 2010. Nanomateriały inżynierskie konstrukcyjne i funkcjonalne. Warszawa: Wydawnictwo naukowe PWN.
[42] Lee Jae-Chul., Hyun-Kwang Seok, Jin-Yoo Suh. 2002. “Microstructural Evolutions of the Al Strip Prepared by Cold Rolling and Continuous Equal Channel Angular Pressing". Acta Materialia 50 (16): 4005-4019.
[43] Lee Jae-Chul, Young-Hoon Chung, Hyun-Kwang Seok, Jin-Yoo Suh, Jun-Hyun Han. 2002. “Structural Evolution of a Strip-Cast Al Alloy Sheet Processed by Continuous Equal-Channel Angular Pressing". Metallurgical and Materials Transactions A 33 (3): 665-673.
[44] Lee Jae-Chul, Hyun-Kwang Seok, Jun-Hyun Han, Young-Hoon Chung. 2001. “Controlling the Textures of the Metal Strips via the Continuous Confined Strip shearing(C2S2) Process". Materials Research Bulletin 36 (5-6): 997-1004.
[45] Liu Jie, Rudolf Kawalla. 2012. “Influence of Asymmetric Hot Rolling on Microstructure and Rolling Force with Austenitic Steel." Transactions of Nonferrous Metals Society of China (English Edition) 22 (SUPPL.2). The Nonferrous Metals Society of China: 504-511.
[46] Loorent Z., Young Gun Ko. 2014. “Effect of Differential Speed Rolling Strain on Microstructure and Mechanical Properties of Nanostructured 5052 Al Alloy". Journal of Alloys and Compounds 586. Elsevier B.V.: 205-209.
[47] Lu J.-S., O.-K. Harrer, W. Schwenzfeier, F. D. Fischer. 2000. “Analysis of the Bending of the Rolling Material in Asymmetrical Sheet Rolling". International Journal of Mechanical Sciences 42: 49-61.
[48] Majta Janusz, Janusz Łuksza, Michał Wielgus. 2015. Sposób ciągnienia metalowego profile okrągłego z silną akumulacją efektów odkszatłcenia w warstwie przypowierzchniowej. Patent PL 218899 B1.
[49] Marzec Anna, Jolanta Pulit, Justyna Kwasny, Marcin Banach. 2012. “Nanometale - Wybrane Technologie Wytwarzania". Czasopismo Techniczne. Chemia 109 (16): 95-107.
[50] Muszka Krzysztof. 2013. “Modelling of Deformation Inhomogeneity in the Angular Accumulative Drawing Process-Multiscale Approach." Materials Science and Engineering A 559: 635-642.
[51] Muszka Krzysztof, Lukasz Madej, Janusz Majta. 2013. “The Effects of Deformation and Microstructure Inhomogeneities in the Accumulative Angular Drawing (AAD)". Materials Science and Engineering A 574: 68-74.
[52] Nilsson A., I. Salvator, P. D. Putz, G. Goldhahn, J. Malbrancke. 2009. Using Asymmetrical Rolling for Increased Production and Improved Material Propertie. Luxembourg.
[53] Olejnik Leszek, Andrzej Rosochowski. 2005. “Methods of Fabricating Metals for Nano-Technology". Bulletin of the Polish Academy of Sciences: Technical Sciences 53 (4): 413-423.
[54] Pa D., D. H. Sansome. 1982. “An Experimental Study of the Effect of Roll-Speed Mismatch on the Rolling Load during the Cold Rolling of Thin Strip". Journal of Mechanical Working Technology 6: 361-677.
[55] Pardis N., B. Talebanpour, R. Ebrahimi, S. Zomorodian. 2011. “Cyclic Expansion-Extrusion (CEE): A Modified Counterpart of Cyclic Extrusion-Compression (CEC)". Materials Science and Engineering A 528 (25-26): 7537-7540.
[56] Patent No. 575151. 1977. ZSRR
[57] Pesin A., D. Pustovoytov, M. Sverdlik. 2014. “Influence of Different Asymmetric Rolling Processes on Shear Strain". International Journal of Chemical, Nuclear, Metallurgical and Materials Engineering 8 (6): 422-424.
[58] Petch, N. J. 1953. “The Cleavage Strength of Polycrystals". Journal of Iron and Steel Research, International 173: 25-28.
[59] Pieła Krzysztof, Ludwik Błaz, Marcin Jaskowski. 2013. “Effects of Extrusion Parameters by KoBo Method on the Mechanical Properties and Microstructure of Aluminum". Archives of Metallurgy and Materials 58 (3): 683-689
[60] Pokropivny V., R. Lohmus, I. Hussainova, A. Pokropivny, S. Vlassov. 2007. Introduction to Nanometrials and Nanotechnology. Tartu: Tartu University Press. 19 Rudy Metale 2017, R. 62, nr 11
[61] Polkowski Wojciech. 2016. Asymetryczne walcowanie jako metoda kształtowania struktury i własności stopu na osnowie fazy międzymetalicznej Ni3Al. Praca doktorska. Warszawa: Wojskowa Akademia Techniczna w Warszawie.
[62] Polkowski Wojciech, Paweł Jóźwik, Marek Polański, Zbigniew Bojar. 2013. “Microstructure and Texture Evolution of Copper Processed by Differential Speed Rolling with Various Speed Asymmetry Coefficient". Materials Science and Engineering A 564: 289-297.
[63] Qwamizadeh M., M. Kadkhodaei, M. Salimi. 2012. “Asymmetrical Sheet Rolling Analysis and Evaluation of Developed Curvature". International Journal of Advanced Manufacturing Technology 61: 227-235.
[64] Raab Georgy J., Ruslan Z. Valiev, Terry C. Lowe, Yuntian T. Zhu. 2004. “Continuous Processing of Ultrafine Grained Al by ECAP- Conform". Materials Science and Engineering: A 382 (1-2): 30-34.
[65] Richelsen A. B. 1997. “Elastic-Plastic Analysis of the Stress and Strain Distributions in Asymmetric Rolling". International Journal of Mechanical Sciences 39 (11): 1199-1211.
[66] Richert Jan. 2010. “Strain-Stress Conditions of Shear Band Formation during CEC Processing on a New Machine with Control Back-Pressure". Archives of Metallurgy and Materials 55 (2): 391- 408.
[67] Richert Jan, Maria Richert. 1986. “A New Method for Unlimited Deformation of Metals and Alloys". Aluminum 62 (8): 604-607.
[68] Richert Jan, Maria Richert, Józef Zasadziński, Andrzej Korbel. 1979. Sposób plastycznego przerobu metali i stopów oraz urządzenie do plastycznego przerobu metali i stopów. Patent No. 123026.
[69] Sachs G., L. J. Klingler. 1947. “The Flow of Metals through Tools of Circular Contour". Journal of Applied Mechanics 14 (2):88-98.
[70] Saito Yoshihiro., N. Tsuji, H. Utsunomiya, Tetsuo Sakai, R. G. Hong. 1999. “Ultra-Fine Grained Bulk Aluminum Produced by Accumulative Roll-Bonding Proces". Scripta Materialia 40 (7): 795-800.
[71] Saito Yoshihiro, H. Utsunomiya, H. Suzuki, Tetsuo Sakai. 2000. “Improvement in the R-Value of Aluminum Strip by a Continuous Shear Deformation Process". Scripta Materialia 42 (12): 1139-44.
[72] Sakai Tetsuo, Syuichi Hamada, Yoshihiro Saito. 2001. “Improvement of the R-Value in 5052 Aluminum Alloy Sheets Having through-Thickness Shear Texture by 2-Pass Single-Roll Drive Unidirectional Shear Rolling". Scripta Materialia 44 (11): 2569-2573.
[73] Salimia M., F. Sassani. 2002. “Modified Slab Analysis of Asymmetrical Plate Rolling". International Journal of Mechanical Sciences 44: 1999-2023.
[74] Segal Vladimir M., V. I. Reznikov, V. I. Kopylov, Et Al. 1994. Processes of Plastic Structure Formation in Metals. Minsk, Belarus: Nauka i Tekhnika.
[75] Sha Y. H., F. Zhang, S. C. Zhou, W. Pei, L. Zuo. 2008. “Improvement of Recrystallization Texture and Magnetic Property in Non-Oriented Silicon Steel by Asymmetric Rolling". Journal of Magnetism and Magnetic Materials 320 (3-4): 393-396.
[76] Sidor Jurij, Roumen H. Petrov, Leo A I Kestens. 2010. “Deformation, Recrystallization and Plastic Anisotropy of Asymmetrically Rolled Aluminum Sheets". Materials Science and Engineering A 528 (1). Elsevier B.V.: 413-424.
[77] Siebel E. 1942. “The Theory of Rolling Processes between Unequally Driven Rolls". Archiv Für Das Eisenhüttenwesen 15 (9): 125-128.
[78] Simões Fábio J. P., Ricardo J. Alves De Sousa, José J. A. Grácio, Frédéric Barlat, Jeong Whan Yoon. 2008. “Mechanical Behavior of an Asymmetrically Rolled and Annealed 050-O Heet". International Journal of Mechanical Sciences 50 (9): 1372-1380.
[79] Sztwiertnia Krzysztof, Jakub Kawałko, Magdalena Bieda, Katarzyna Berent. 2013. “Microstructure of Polycrystalline Zinc Subjected to Plastic Deformation by Complex Loading". Archives of Metallurgy and Materials 58 (1): 157-161
[80] Sztwiertnia Krzysztof, Jakub Kawalko, Magdalena Bieda, M. Jaskowski, Krzysztof Pieła, Włodzimierz Bochniak. 2015. “Microstructure and Texture of Zinc Deformed by Extrusion with Forward-Backward Rotating Die (KoBo)". IOP Conference Series: Materials Science and Engineering 82 (1): 012084.
[81] Tamimi S., J. P. Correia, A. B. Lopes, S. Ahzi, F. Barlat, J. J. Gracio. 2014. “Asymmetric Rolling of Thin AA-5182 Sheets: Modelling and Experiments". Materials Science & Engineering A 603: 150-59.
[82] Tan E., C. H. Gor. 2010. “Influence of DCAP Process on the Mechanical Properties of 6061 Al-Alloy Sheet". Reviews On Advanced Materials Science 25: 189-193.
[83] Toth Laszlo S., Chengfan Gu. 2014. “Ultrafine-Grain Metals by Severe Plastic Deformation". Materials Characterization 92: 1-14.
[84] Ucuncuoglu Selda, Ahmet Ekerim, Gizem Oktay Secgin, Ozgur Duygulu. 2014. “Effect of Asymmetric Rolling Process on the Microstructure, Mechanical Properties and Texture of AZ31 Magnesium Alloys Sheets Produced by Twin Roll Casting Technique". Journal of Magnesium and Alloys 2 (1): 92-98.
[85] Uniwersał Agnieszka, Mirosław Wróbel, Krzysztof Wierzbanowski, Sebastian Wroński, Marcin Wroński, Izabela Kalemba-Rec, Teresa Sak, Brigitte Bacroix. 2016. “Microstructure, Texture and Mechanical Characteristics of Asymmetrically Rolled Polycrystalline Copper". Materials Characterization 118: 575-583.
[86] Verlinden Bert. 2009. “Severe Plastic Deformation of Metals". Metalurgija-Journal of Metallurgy 44 (2002): 1900-1911.
[87] Voorhes W.G. 1974. Extrusion process and apparatus. Patent No. GB1488445.
[88] Vydrinand V. N., L. M. Ageev. 1971. “A New Technology for Rolling Sheet and Strip". Steel USSR 1: 4-8.
[89] Wauthier Aurelie, Helene Regle, Jorge Formigoni, Gwenola Herman. 2009. “The Effects of Asymmetrical Cold Rolling on Kinetics, Grain Size and Texture in IF Steels". Materials Characterization 60 (2): 90-95.
[90] Wilk Krzysztof. 1997. Optymalizacja procesu niesymetrycznego walcowania blach i taśm poprzez analizę naprężeń i odkształceń. Praca doktorska. Kraków: Akadamia Górniczo-Hutnicza im. Stanisława Staszica w Krakowie.
[91] Wroński Marcin, Krzysztof Wierzbanowski, Sebastian Wroński, Brigitte Bacroix, P. Lipinski. 2014. “Texture Variation in Asymmetrically Rolled Titanium. Study by Finite Element Method with Implemented Crystalline Model". International Journal of Mechanical Sciences 87: 258-267.
[92] Wroński Marcin, Krzysztof Wierzbanowski, Sebastian Wroński, Bigitte Bacroix, Marcin Wróbel, Agnieszka Uniwersał. 2015. “Study of Texture, Microstructure and Mechanical Properties of Asymmetrically Rolled Aluminium". IOP Conference Series: Mat. Sci. Eng. 82: 012074-1-012074-6.
[93] Wroński Sebastian, Krzysztof Wierzbanowski, Brigitte Bacroix, Thierry Chauveau, Mirosław Wróbel. 2013. “Effect of Asymmetric Rolling on Mechanical Characteristics, Texture and Misorientations in Ferritic Steel". Journal of Central South University 20 (6): 1443-1455.
[94] Yu Hailiang, Cheng Lu, a Kiet Tieu, Ajit Godbole, Lihong Su, Yong Sun, Mao Liu, Delin Tang, Charlie Kong. 2013. “Fabrication of Ultra-Thin Nanostructured Bimetallic Foils by Accumulative Roll Bonding and Asymmetric Rolling". Scientific Reports 3: 2373.
[95] Zasadziński Józef, Tadeusz Knych, Ewa Dziedzic. 2007. “Badania procesu wyciskania metodą Conform w produkcji wyrobów i recyklingu aluminium i jego stopów". Rudy i Metale Nieżelazne 52 (11): 757-767.
[96] Zhang F., G. Vincent, Y. H. Sha, L. Zuo, J. J. Fundenberger, C. Esling. 2004. “Experimental and Simulation Textures in an Asymmetrically Rolled Zinc Alloy Sheet". Scripta Materialia 50 (7): 1011-1015.
[97] Zhang S. H., D. W. Zhao, C. R. Gao, G. D. Wang. 2012. “Analysis of Asymmetrical Sheet Rolling by Slab Method". International Journal of Mechanical Sciences 65: 168-176.

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