About Us


tinplate; uniaxial tensile test; finishing temperature; coiling temperature.


The paper was focused on analysis of mechanical properties determined by the uniaxial tensile test and their comparison with production parameters (coiling temperature, finishing temperature, 1st stand reduction and 2nd stand reduction) pertaining to TH 550, CA material. The thicknesses of tinplates were 0.15 – 0.18 mm.


Acta Mechanica Slovaca. Volume 20, Issue 1, Pages 22 – 26, ISSN 1335-2393


  Influence of Technological Parameters of Production on Properties of Tinplate TH 550, CA


[1] Pittner, J., Simaan, M.A. (2010). Tandem Cold Metal Rolling Mill Control. Using Practical Advanced Methods. New York, p. 205.

[2] Sharma, R.C. (2003). Principles of Heat Treatment of Steel. New Age International, pp. 87-99.
[3] Banabic, D., Bunge, H.J., Pöhlandt, K., Tekkaya, A. E. (2000). Formability of Metallic Materials. Springer - Verlag Berlin Heidelberg. ISBN: 3-540-67906-5.
[4] Ma, J., Yu, G., Jiang, S., Yang, C. (2012). Research progress on tinplate annealing process. Jinshu Rechuli/Heat Treatment of Metals, Vol. 37 (5), p. 77-80.
[5] Marciniak, Z., Dunca, J.L., Hu, S.J. (2002). Mechanics of Sheet Metal Forming. London. Edward Arnold. p. 231.
[6] Murphy, T.P. (2011). Tin and Tinplate. Uhlig's Corrosion Handbook: Third Edition. p. 853-860.
[7] Wang, X., Zhu, Z., Cai, F., Li, H. (2013). Effects of continuous annealing process on microstructure and properties of electrolytic tinplate. Heat Treatment of Metals. Vol. 38 (6). p. 49-54.
[8] Pittner, J., Simaan, M. A. (2010). Tandem Cold Metal Rolling Mill Control. Using Practical Advanced Methods. New York. p. 205.
[9] Spišák, E., Slota, J., Majerníková, J., Kaščák, Ľ., Malega, P. (2012). Inhomogeneous plastic deformation of tinplates under uniaxial stress state. Chemické listy. Vol. 106, no. Symposia, p. 537-540.
[10] Spišák, E., Slota, J., Majerníková, J. (2010). The evaluation of mechanical properties of tinplates as input parameters for simulation of deep drawing processes. Metalurgija. Vol. 49, no. 2. p. 528-532.
[11] Spišák, E., Majerníková, J. (2013). Analysis of variance of mechanical properties of sheets as the input parameters for simulation ofprocesses. Acta Metallurgica Slovaca. Vol. 18, no. 2-3. p. 109-116.
[12] Spišák, E., Majerníková, J., Spišáková E. (2015). The causes of corrosion formation of packaging sheets after plastic deformation. Materials Science Forum. Vol. 818. p. 121-124.
[13] Spišák, E., Majerníková, J. (2013). Continual annealed single rolled sheets and evaluation of their properties. Journal of manufacturing and industrial engineering. Vol. 12, no. 3-4. p. 30-34.

[14] Zhang, J., Jiang, Y. (2004). A Study of Inhomogeneous Plastic Deformation of 1045 Steel, Journal Engineering Materials Technoly. Vol. 126. p. 164-172.

Latest Issue

ams 2 2016


Guests Online

We have 69 guests and no members online