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Prof. Dr. Ing. Dorel BANABIC

Universitatea Tehnica din Cluj Napoca


Lista de citari


  1. Banabic D., Bünge H.J., Pöhlandt K., Tekkaya A.E., Formability of Metallic Materials (Plastic Anisotropy, Formability Testing and Forming Limits), Editor: Banabic D., Springer Verlag, Heidelberg-Berlin, 2000 (358 pag), ISBN 3-540-67906-5.




  1. Li S., Hofferlin E., Van Bael A., Van Houtte P., Application of a texture-based plastic potential in earing prediction of an IF steel, Advanced Eng. Materials, 3(2001), 990-994.

  2. Zhao Z, Roters F, Moo W, et al.: Introduction of a texture component crystal plasticity finite element method for anisotropy simulations, ADV ENG MATER, 3 (2001) 12, pp. 984-990.

  3. Raabe D, Zhao ZS, Roters F: A finite element method on the basis of texture components for fast predictions of anisotropic forming operations, STEEL RES, 72 (2001), p. 421-426.

  4. Kuwabara, T., van Bael, A., Iizuka, E., Measurement and analysis of yield locus and work-hardening characteristic of steel sheets with different r values, Acta Materialia, 50(2002), 3717-3729.

  5. Man, C.S., On the r value of textured sheet metals, Int. J. of Plasticity, 18(2002), 1683-1706.

  6. Rees D.W., Anisotropy in thin canning sheet metals, In: Nonlinear mechanics of anisotropic materials, EUROMECH Conf., Liege, 2002, 33-42.

  7. Kuwabara T., Ishiki M., Kuroda M., Takahashi S., Yield locus and work hardening behaviour of a thin walled steel tube subjected to combined tension-internal pressure, In: Nonlinear mechanics of anisotropic materials, EUROMECH Conf., Liege, 2002, 233-240.

  8. Ikeda S., Kuwabara T., Measurement and analysis of work hardening of sheet metals under plane strain tension, In: NUMISHEET 2002 Conf., Jeju, Corea, 2002, 97-102.

  9. Lejeune A., Modelisation et simulation des defauts d´aspect lors l´un procede de mise en forme, These de Docteur, Universite Franche Compte, Besancon, 2002.

  10. Delameziere, A., Contribution à l'optimisation des paramètres du procédé d'emboutissage des tôles minces par l'approche inverse, These de doctorat, Univ. de Technologie de Compiegne, France, 2002.

  11. Kuwabara T., Ishiki M., Kuroda M., Takahashi S., Yield locus and work hardening behaviour of a thin walled steel tube subjected to combined tension-internal pressure, J. Physique, 105(2003), 347-354.

  12. Boudeau N., Lejeune A., Gelin J.C., Damage in sheet metal forming: Prediction of necking phenomenon, In: Numerical modelling in damage mechanics, Ed. Saanouni K., Hermes, Paris, 2001, p.147-165.

  13. Roters, F., Application of the texture component crystal plasticity FEM to forming simulation, Materials Science Forum 426-432 (2003), pp. 3673-3678.

  14. Thibaud S., Boudeau N., Gelin J.C., Influence of processing on the structural behaviour of sheet metal components, Proc. ESAFORM 2003 Conf., Salerno, 2003, p.

  15. Barlat F., Brem J.C., Yoon J.W., Plane stress yield function for aluminium alloy sheets- part I: Formulation, Int. J. Plasticity, (2003)

  16. Aretz H., Modellierung des anisotropen Materialverhaltens von Blechen mit Hilfe de Finite-Elemente-Methode, Dissertation (D82) RWTH Aachen, Shaker Verlag, Aachen, 2003.

  17. Choi Y., Modeling Evolution Of Anisotropy And Hardening For Sheet Metals, PhD Thesis, Ohio State University, 2003.

  18. Wang J., Principles Of The Draw-Bend Springback Test, PhD Thesis, Ohio State University, 2003.

  19. Boscher D., Gaspérini M., Strain distribution and plastic localization during bending of metal-rubber profiles, Rev. Met. Paris, N°9 (September 2003), pp. 835-842.

  20. Boscher D., Modelisation mecanique et simulation numerique de la mise en forme de bimateriaux metal-elastomere utilises dans la fabrication des coulisses des vitres pour automobile, These de doctorat, Univ. Paris 13, Villetaneuse, 2003.

  21. Sigvant M.: The Hemming Process: A Numerical and Experimental Study ,(2003) Doktorsavhandlingar vid Chalmers Tekniska Hogskola, 2066.

  22. Bunge H.J.: Texture and Microstructure Analysis by Diffraction of Hard X-Rays, (2003) Physics of Metals and Metallography, 96 SUPPL.

  23. Butuc M.C., Gracio J.J., Barata da Rocha A., A theoretical study on forming limit diagrams prediction, Journal of Material Processing Technology, 2003.

  24. Neumann, L., Aretz, H., Kopp, R., Goerdeler, M., Crumbach, M., Gottstein, G., Integrative finite element simulation of the rolling of Al alloys with coupled dislocation density and texture models , Zeitschrift fuer Metallkunde/Materials Research and Advanced Techniques 94(2003), p. 593-598

  25. Aretz H., Applications of a new plane stress yield function to orthotrotopic steel and aluminium sheet metals, Modelling. Simul. Mater. Sci. Eng., 12(2004), pp. 491-509.

  26. Y. Choi - M.E. Walter - J.K. Lee - C.S. Han, Observation of the evolution of anisotropy and identification of the plastic spin parameters by uni-axial tensile tests, International Journal of Solids and Structures, 2004.

  27. Aretz H., Numerical restrictions of the modified maximum force criterion for prediction of forming limits in sheet metal forming, Modelling. Simul. Mater. Sci. Eng., 12(2004)

  28. Jurisevic B., Junkar M., Jadhav S., Kleiner M., Kuzman K.: Incremental sheet metal forming process with a water jet and rigid tool ,(2004) 17th International Conference on Water Jetting: Advances and Future Needs, , Pages 71-81.

  29. Nguyen V.T., Chen Z., Thomson P.F.: Prediction of spring-back in anisotropic sheet metals ,(2004) Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 218 6, Pages 651-662.

  30. Neumann L., Kopp R., Ludwig A., Wu M., Buhrig-Polaczek A., Schneider M., Crumbach M., Gottstein G.: Simulation of casting, homogenization, and hot rolling: Consecutive process and microstructure modelling for aluminium sheet production ,(2004) Modelling and Simulation in Materials Science and Engineering, 12 1.

  31. Smithells Metals Reference Book (Editors: W. F. Gale, T. C. Totemeier), Elsevier, 2004.

  32. Lee Y., Rod And Bar Rolling: Theory And Applications (Manufacturing Engineering and Materials Processing), Marcel Dekker, 2004.

  33. Cazacu O., Barlat F., A criterion for description of anisotropy and differential effects in pressure-insensitive metals, Int. Journal of Plasticity, 20(2004), 2027-2045.

  34. Kuwabara T., Ikeda S., Asano Y., Effect of anisotropic yield functions on the accuracy of sprinback simulation, NUMIFORM 2004 Conf., Columbus-Ohio, 2004, p. 887-892.

  35. Butuc M.C., Forming Limit Diagrams. Definition of plastic instability criteria, PhD Thesis, University of Porto, Portugal, 2004.

  36. Habraken A.M., Modelling the plastic anisotropy of metals, Archive of Computational Methods in Engineering, 11(2004), p3-96.

  37. Raabe D., Roters F., Simulation study on the influence of texture on earing in steel, Max Plank Düsseldorf, Research project report, 2004.

  38. Menezez L.P., Computational Mechanics in Technology (Course), University of Coimbra, Portugal (http://www.uc.pt/ects/html/fctuc/m_mecan/ecad83.html)

  39. Fundamentals of steel products metallurgy, Twente University, The Netherlands, 2004

  40. Thermo-mechanichal processing(Course), Twente University, The Netherlands, 2004

  41. Petek A, Pepelnjak T, Kuzman K., An improved method for determining a forming limit diagram in the digital environment, Journal of Mechanical Engineering, 51 (2005), p.330-345.

  42. Poehlandt K., Tekkaya A.E., Schoeck J., Concepts for characterizing plastic anisotropy of sheet metal, Proc. of the 24th IDDRG Congress, Besancon, 2005, 20.1-20.16.

  43. Aretz H., A non-quadratic plane stress yield function for orthotrotopic sheet metals, Journal of Materials Processing Technology, 168(2005), 1-9.

  44. Unterkircher A., Reissner J.: Parallel assembling and equation solving via graph algorithms with an application to the FE simulation of metal extrusion processes ,(2005) Computers and Structures, 83 89, p. 627-638.

  45. Aydemir A., De Vree J.H.P., Brekelmans W.A.M., Geers M.G.D., Sillekens W.H., Werkhoven R.J.: An adaptive simulation approach designed for tube hydroforming processes ,(2005) Journal of Materials Processing Technology, 159(2005), p. 303-310.

  46. Basic H., Demirdzic I., Muzaferija S.: Finite volume method for simulation of extrusion processes ,(2005) International Journal for Numerical Methods in Engineering, 475-494.

  47. D. Raabe, Y. Wang, F. Roters, Crystal plasticity simulation study on the influence of texture on earing in steel, Computational Materials Science 34 (2005) 221–234.

  48. G. Giuliano L. Carrino, S. Franchitti, Formability of superplastic PbSn60 alloy, Materials Letters 59 (2005) 2156– 2158.

  49. Unterkircher, J. Reissner, Parallel assembling and equation solving via graph algorithms with an application to the FE simulation of metal extrusion processes, Computers and Structures 83 (2005) 627–638.

  50. Strano M., Colosimo B., Logistic regression analysis for experimental determination of forming limit diagrams, Int. Journal of Machine Tools and Manufacture, 2005, 1-10.

  51. Strano M., Automatic tooling design for rotary draw bending of tubes, The International Journal of Advanced Manufacturing Technology, 26(2005), 733 – 740

  52. Giuliano, G., Failure analysis in superplastic materials, International Journal of Machine Tools & Manufacture, Nov. 2006, 1604-1609.

  53. Kuwabara T. et al., Anisotropic plastic deformation of extruded aluminum alloy tube under axial forces and internal pressure, International Journal of Plasticity 21 (2005) 101–117.

  54. Yoon J.W., Barlat F. et al. Linear transformation-based anisotropic yield criteria, International Journal of Plasticity, 21(2005), 1009-1039.

  55. Arbak M., A. E. Tekkaya , F. Özhan, Comparison of various preforms for hot forging of bearing rings, Journal of Materials Processing Technology, 169(2005), 72-82

  56. H. Basic, I. Demirdžic, S. Muzaferija, Finite volume method for simulation of extrusion processes, Int. J. Numer. Meth. Engng., 62(2005), 475–494.

  57. Tekkaya E.A., A guide for validation an FE-simulations in bulk metal forming, The Arabian Journal for Science and Engineering, 30(2005), 113-136.

  58. P. Flores, P. Moureaux and A.-M. Habraken, Material Identification Using a Bi-axial Test Machine, Applied Mechanics and Materials Vols. 3-4 (2005) pp. 91-98.

  59. Petek A., Pepelnjak, T., Kuzman K., An improved method for determining the FLD in the digital environment, Journal of Mechanical Engineering, 51(2005), 330-345.

  60. M.L. Garcia-Rumeo de Luna, Contribucion al studio del processo de doblado al aire de chapa, PhD Thesis, Universidad de Girona, 2005.

  61. Wang, J., Principles of the draw-bend springback test, PhD Thesis, OSU, Colombus, Ohio, USA, 2005.

  62. Topcu N., numerical, analytical and experimental analysis of indentation, PhD Thesis, 2005, METU Ankara.

  63. Piskin, M.A., Computer aided modeling of wrinkling and its prevention, PhD Thesis, 2005, METU Ankara.

  64. Spieß, L., Schwarzer, R., Behnken, H., Teichert, G., Moderne Röntgenbeugung, Teubner, 2005.

  65. Vahl M., Beitrag zur gezeilten Beeinflussung des Werkstofflusses beim Innenhochdruckumformen von Blechen, Erlanger Nurberg Universitaet, Meisenbach Verlag, Bamberg, 2005 (ISBN 3-87525-224-1).

  66. Proust, G., Identifying the Complete Space of Feasible Anisotropic Properties in Polycrystalline Microstructures, PhD Thesis, Drexel Univ. USA, 2005.

  67. Formability Analysis of Tailor-Welded Blanks of Different Thickness Ratios, Trans. ASME 2005

  68. Zhang, Xiao-Jing; Zhou, Xian-Bin; Li, Dong-Sheng, The advances of finite element simulation on sheet metal forming, Journal of Plasticity Engineering, 12(2005), p.1-10.

  69. Sönmez, C., Tekkaya, A.E., Gür, C.H., Comparison of the deep drawability of aluminum and steel using numerical simulation experiments, AIP Conference Proceedings 778 A,2005, p. 119-124.

  70. Ofenheimer, A., Buchmayr, B., Kolleck, R., Merklein, M., Forming limits in sheet metal forming for non-proportional loading conditions - Experimental and theoretical approach, AIP Conference Proceedings 778 A, (2005), p. 460-465. Pepelnjak T., A. Petek and K. Kuzman, Analysis of the Forming Limit Diagram in Digital Environment, Advanced Materials Research Vols. 6-8 (2005) pp. 697-704.

  71. Schwarzer R.A., Texture in Hot Extruded, Hot Rolled and Laser Welded Magnesium Base Alloys, Solid State Phenomena, Vol. 105 (2005) pp. 23-28

  72. Flores P., P. Moureaux and A.-M. Habraken, Material Identification Using a Bi-axial Test Machine, Applied Mechanics and Materials, Vols. 3-4 (2005) pp. 91-97.

  73. Holweger, W., Ahrstrom, B.O., Simplified modelling of lubricants, Technische Akademie Esslingen International Tribology Colloquium Proceedings 15, (2005), p. 44.

  74. Guelorget, M. Francois, C. Vial-Edwards, G. Montaya, L. Daniel, J. Lu, Strain rate measurement by Electronic Speckle Pattern Interferometry: A new look at the strain localization onset, Materials Science and Engineering A, 415 (2006) 234–241.

  75. Hora P., Tong L., Prediction of forming limits in virtual sheet metal forming –yesterday, today and tomorrow, In: Proc. of the FLC Zürich, 2006, p.8-23.

  76. Ofenheimer A., Lind Ch., Judging numerically the forming severity for non-proportional loading conditions considering the influence of forming history on sheet formability, In: Proc. of the FLC Zürich, 2006, p.90-94.

  77. Shang, J., Electromagnetically assisted sheet metal stamping, PhD Thesis, OSU, 2006.

  78. Bouhattate J., Modeling texture evolution in polycrystalline materials using spherical harmonics, PhD Thesis, Florida State University, USA, 2006.

  79. Choi Y. Han C.S., Lee J.K, Wagoner R.H., Modeling multi-axial deformation of planar anisotropic elasto-plastic materials, part II: Applications, International Journal of Plasticity, 2006.

  80. Aretz, H., Numerical analysis of diffuse and localized necking in orthotropic sheet metals, International Journal of Plasticity, 2007, 794-840

  81. Aretz, H., A less hypothetical perspective on rate-independent continuum theory of metal plasticity, Mech. Research Com., 2006, 734-738

  82. Shi, Y., Wu., J., Development and the applications of anisotropic yield criterions, Forging & Stamping Technology, 2006, p.99-103.

  83. Turetta A. Bruschi S., Ghiotti A., Anisotropic and Mechanical Behavior of 22MnB5 in Hot Stamping Operations, ESAFORM 2007, Zaragoza.

  84. Kuwabara T., Advances in experiments on metal sheets and tubes in support of constitutive modeling and forming simulations, International Journal of Plasticity, 2007, 385-419.

  85. Roll K., Faust A., Keßler L., Deep Drawing Simulation Of High And Ultrahigh Strength Steels Under Consideration Of Anisotropic Hardening, in: Proceedings of the 9th International Conference on Numerical Methods in Industrial Forming Processes-NUMIFORM 2007, p.853-859.

  86. P. Flores et al., Model identification and FE simulations: Effect of different yield loci and hardening laws in sheet forming, International Journal of Plasticity 23 (2007) 420–449

  87. Larsson, R., Constitutive Modelling of High Stength Steel, Master Thesis, Linkoping, 2007

  88. Risy, G., Modellierung der texturinduzierten plastischen Anisotropie auf verschiedenen Skalen, Univ. Magdeburg, 2007

  89. Montay, G., François, M., Tourneix, M., Guelorget, B., Vial-Edwards, C., Lira, I., Strain and strain rate measurement during the bulge test by electronic speckle pattern interferometry, Journal of Materials Processing Technology, 184(2007), p.428-435.

  90. Mueller T., Der Bake-Hardening-Effekt im ein- und mehrachsigen Spannungszustand, DGM Informationsgesellschaft Verlag, Frankfurt, 2007 (ISBN 978-3-88355-363-4).

  91. Aretz, H., A simple isotropic-distortional hardening model and its application in elastic-plastic analysis of localized necking in orthotropic sheet metals, International Journal of Plasticity, 2008, p. 1457–1480.

  92. T. Khandeparkar, M. Liewald, Hydromechanical deep drawing of cups with stepped geometries, JMPT, 201-202(2008), 246-254.

  93. Firat M., Computer aided analysis and design of sheet metal forming processes: Part II – Deformation response modeling, Materials and Design 28 (2007) 1304–1310.

  94. Mattiasson, K., Sigvant M., An evaluation of some recent yield criteria for industrial simulations of sheet forming processes, International Journal of Mechanical Sciences, 50(2008), p.774-787.

  95. HE Zhubin, WANG Xiaosong, YUAN Shijian, XU Aijun, Formability of AZ31B magnesium alloy extruded tube under internal high pressure, Acta Metallurgica Sinica, 5(2007), p.534-538.

  96. He ZB, Gang L, Yuan SJ, et al, Formability evaluation of AZ31B extruded tube for hydroforming process, Rare Metals, 26 (2007), p. 83-87.

  97. Zadpoor, A.A., Sinke, J., Benedictus, R., Prediction of limit strains in limiting dome height formability test, AIP Conference Proceedings 907,, 2007, p. 258-263.

  98. Desai, S., An alternative method of quantitative characterization of non-uniformity in the strain distribution of drawn sheet metal parts, PhD, IIT Bombay, 2008

  99. Korkolis, Y., Kyriakidis, S., Inflation and burst of anisotropic aluminum tubes for hydroforming applications, IJP, 24(2008), 509-543.

  100. I. Tikhovskiy, D. Raabe, F. Roters, Simulation of earing of a 17%Cr stainless steel considering texture gradients, Material Science and Engineering-A, 488(2008), 482-490.

  101. Andersson A., Evaluation and visualisation of surface defects on auto-body panels, Journal of Materials Processing Technology, (2008).

  102. M. Rabahallah, T. Balan, S. Bouvier, B. Bacroix, F. Barlat, K. Chung, C. Teodosiu, Parameter identification of advanced plastic strain rate potentials and impact on plastic anisotropy prediction, IJP, 24(2008).

  103. K. Hariharan, C. Balaji, Material optimization: A case study using sheet metal-forming analysis, JMPT, 2009, p.324-331..

  104. A. Gavrus, M. Banu, E. Ragneau, C. Maier, V. Oleksik, An inverse analysis approach of the Erichsen test starting from a finite element model, ESAFORM 2008 Conf., Lyon, 2008.

  105. P.F. Bariani, S. Bruschi, A. Ghiott, A. Turetta, Testing formability in the hot stamping of HSS, CIRP Annals, 2008.

  106. G. Palumbo, D. Sorgente, L. Tricarico, The design of a formability test in warm conditions for an AZ31 magnesium alloy avoiding friction and strain rate effects, International Journal of Machine Tools & Manufacture, 2008, p.1535-1545.

  107. J. Kang, et al., Constitutive Behavior of AA5754 Sheet Materials at Large Strains, Trans of ASME, Journal of Engineering Materials and Technology, July 2008, p.

  108. Firat M., A numerical analysis of sheet metal formability for automotive stamping applications, Computational Materials Science, 2008.

  109. Franchitti S., Analisi e modellazione dei processi di formatura superplastica, PhD thesis, Cassino Univ., 2007.

  110. Kuwabara T., Effect of anisotropic yield function on the accuracy of springback simulation, In: Automotive Sheet Metal Forming, Eds.: R.K. Verma, D. Bhattacharjee, Tata Mc Graw Hill, New Dehli, 2008, p.19-29.

  111. He, Z., Yuan, S., Zha, W., Liang, Y., Force and deformation analysis of tube ring specimen during hoop tension test, Acta Metallurgica Sinica, Volume 44, Issue 4, April 2008, Pages 423-427.

  112. Plaut, R.L., Padilha, A.F., Lima, N.B., Herrera, C., Filho, A.F., Yoshimura, L.H., Medium carbon steel deep drawing: A study on the evolution of mechanical properties, texture and simulations, from cold rolling to the end product, Materials Science and Engineering A, Volume 499, Issue 1-2, 15 January 2009, Pages 337-341




  1. Barlat F., Cazacu O., Zyczkowski M., Banabic D., Yoon J.-W., Yield surface plasticity and anisotropy, In: Continuum scale simulation of engineering materials, Editors: Raabe D., Chen L.Q., Barlat F., Roters F., Wiley-VCH, 2004 (800 pag), ISBN 3-527-30760-5.




        1. Aretz H., A non-quadratic plane stress yield function for orthotrotopic sheet metals, Journal of Materials Processing Technology, 2003

        2. Aretz H., Applications of a new plane stress yield function to orthotropic steel and aluminium sheet metals, Modelling. Simul. Mater. Sci. Eng., 12(2004), pp. 491-509.

        3. Butuc M.C., Forming Limit Diagrams. Definition of plastic instability criteria, PhD Thesis, University of Porto, Portugal, 2004.

        4. Yoon J.W., Barlat F. et al. Linear transformation-based anisotropic yield criteria, International Journal of Plasticity, 21(2005), 1009-1039.

        5. Cazacu O., Plunkett, P., Barlat F., Orthotropic yield criterion for hexagonal closed packed metals, International Journal of Plasticity, 22(2006), 1171-1194.

        6. B. Plunkett, et al., Anisotropic yield function of hexagonal materials taking into account texture development and anisotropic hardening, Acta Materialia 54 (2006) 4159–4169.

        7. Crumbach, M., Neumann, L., Goerdeler, M., Aretz, H., Gottstein, G., Kopp, R., Through-process modelling of texture and anisotropy in AA5182, Modelling and Simulation in Materials Science and Engineering 14 (2006), p. 835-856.

        8. Mattiasson, K., Sigvant M., An evaluation of some recent yield criteria for industrial simulations of sheet forming processes, International Journal of Mechanical Sciences, 50(2008), p.774-787.

        9. Barlat F., Constitutive descriptions for metal forming simulations, AIP Conference Proceedings, Volume 908, (2007), p.3-24.

        10. M. Rabahallah, T. Balan, S. Bouvier, B. Bacroix, F. Barlat, K. Chung, C. Teodosiu, Parameter identification of advanced plastic strain rate potentials and impact on plastic anisotropy prediction, IJP, 24(2008)




  1. Banabic D., Dörr I.R., Thin Sheet Metal Formability. Forming Limit Diagrams Method, OIDICM Publishing House, Bucuresti, 1992, 246 pag., ISBN 973-95641-1-9.




    1. Subramanian K.R., A study of theoretical investigations on sheet metal forming and upsetting of powder metallurgy performs, PhD Thesis, Bharathidasan University, Tiruchirappalli, India, 2002.

    2. Butuc M.C., Gracio J.J., Barata da Rocha A., A theoretical study on forming limit diagrams prediction, Journal of Material Processing Technology, 2003.

    3. Butuc M.C., Forming Limit Diagrams. Definition of plastic instability criteria, PhD Thesis, University of Porto, Portugal, 2004.

    4. R. Ponalagusamy, R. Narayanasamy, K.R. Subramanian, Prediction of limit strains in sheet metals by using new generalized yield criteria, Materials and Design, 2007, 913-920




  1. Banabic D., Dörr I.R., Banabic D, Dorr IR. The modelling of the sheet metal forming processes,Cluj-Napoca, Transilvania Publishing House, 1995, 226p., ISBN-973-97041-9-0.




    1. Subramanian K.R., A study of theoretical investigations on sheet metal forming and upsetting of powder metallurgy performs, PhD Thesis, Bharathidasan University, Tiruchirappalli, India, 2002.

    2. R. Ponalagusamy, R. Narayanasamy, K.R. Subramanian, Prediction of limit strains in sheet metals by using new generalized yield criteria, Materials and Design, 2007, 913-920.

    3. Vulcan M., Der pneumatische Tiefungsversuch und seine Anwendung in der superplastischen Aluminium-Blechumformung, DGM Informationsgesellschaft Verlag, Frankfurt, 2007 (ISBN 3-88355-356-5)




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