Sac Şekillendirme İşleminde Sürtünmenin İncelenmesi

Hakan Kalkan; Tuğçe Hacaloğlu; Bilgin Kaftanoğlu

Research Article

Sac Şekillendirme İşleminde Sürtünmenin İncelenmesi

Year 2016, Volume: 14 Issue: 2, 88 - 94, 02.11.2016

Hakan Kalkan Tuğçe Hacaloğlu Bilgin Kaftanoğlu

Abstract

Derin çekme işleminde sürtünme, baskı plakası-sac metal-kalıp yüzeyleri
arasında "radyal çekme bölgesinde" ve zımba-sac metal arasında
"gerdirme bölgesinde" bölgelerinde gerçekleşmektedir. Bu bölgelerde
oluşan sürtünme katsayısı, zımba kuvveti değerleri ve optik tarayıcıdan elde
edilen genleme dağılımları kullanılarak iki yöntemle hesaplanmıştır. Bu
hesaplama yöntemleri hem oda sıcaklığında hem de yüksek sıcaklıklarda
kullanılabilir.Elde edilen sürtünme katsayısı değerleri diğer yöntemlerden elde
edilen sonuçlar ile karşılaştırılmıştır.

Konunun incelenmesi, elde edilecek sonuçların sürecin teorik modellenmesinde
kullanımı ve kullanılan yağlayıcı maddelerin değerlendirilmesi açılarından da
oldukça önemlidir.

Keywords

Sürtünme, Derin Çekme, Triboloji

References

1. Kaftanoǧlu B., 1973, Determination of coefficient of friction under conditions of deepdrawing and stretch forming, Wear, 25/2:177- 188.
2. Subramonian S, Kardes N, Demiralp Y, Jurich M, Altan T., 2011, Evaluation of Stamping Lubricants in Forming Galvannealed Steels for Industrial Application, Journal of Manufacturing Science and Engineering, 133/6:061001-9.
3. Yanagida A, Azushima A., 2009, Evaluation of coefficients of friction in hot stamping by hot flat drawing test, Annals of the CIRP, 58/1:247- 250.
4. Bech J, Bay N, Eriksen M., 1998, A Study of Mechanisms of Liquid Lubrication in Metal Forming, Annals of the CIRP, 47/1:221-226.
5. Schmoeckel D, Prier M, Staeves J., 1997, Topography Deformation of Sheet Metal during the Forming Process and Its Influence on Friction, Annals of the CIRP, 46/1:175-178.
6. ] Berglund J, Brown CA, Rosén BG, Bay N., 2010, Milled die steel surface roughness correlation with steel sheet friction, Annals of the CIRP, 59/1:577-580.
7. Makinouchi A, Teodosiu C, Nakagawa T., 1998, Advance in FEM Simulation and its Related Technologies in Sheet Metal Forming, Annals of the CIRP, 47/2:641-649.
8. Vollertsen F, Hu Z., 2006, Tribological Size Effects in Sheet Metal Forming Measured by a Strip Drawing Test, Annals of the CIRP, 55/1:291-294.
9. Azushima A, Kudo H., 1995, Direct Observation of Contact Behaviour to Interpret the Pressure Dependence of the Coefficient of Friction in Sheet Metal Forming, Annals of the CIRP, 44/1:209-212.
10. Figueiredo L, Ramalho A, Oliveira MC, Menezes LF, 2011, Experimental study of friction in sheet metal forming, Wear, 271/9– 10:1651-1657.
11. Fratini L, Lo Casto S, Lo Valvo E., 2006, A technical note on an experimental device to measure friction coefficient in sheet metal forming, Journal of Materials Processing Technology, 172/1:16-21.
12. Weinmann KJ, Kernosky SK., 1996, Friction Studies in Sheet Metal Forming Based on a Unique Die Shoulder Force Transducer. Annals of the CIRP, 45/1:269-272.
13. Yanagida A, Azushima A., 2009, Evaluation of coefficients of friction in hot stamping by hot flat drawing test. Annals of the CIRP, 58/1:247- 50.

Year 2016, Volume: 14 Issue: 2, 88 - 94, 02.11.2016

Hakan Kalkan Tuğçe Hacaloğlu Bilgin Kaftanoğlu

Abstract

References

1. Kaftanoǧlu B., 1973, Determination of coefficient of friction under conditions of deepdrawing and stretch forming, Wear, 25/2:177- 188.
2. Subramonian S, Kardes N, Demiralp Y, Jurich M, Altan T., 2011, Evaluation of Stamping Lubricants in Forming Galvannealed Steels for Industrial Application, Journal of Manufacturing Science and Engineering, 133/6:061001-9.
3. Yanagida A, Azushima A., 2009, Evaluation of coefficients of friction in hot stamping by hot flat drawing test, Annals of the CIRP, 58/1:247- 250.
4. Bech J, Bay N, Eriksen M., 1998, A Study of Mechanisms of Liquid Lubrication in Metal Forming, Annals of the CIRP, 47/1:221-226.
5. Schmoeckel D, Prier M, Staeves J., 1997, Topography Deformation of Sheet Metal during the Forming Process and Its Influence on Friction, Annals of the CIRP, 46/1:175-178.
6. ] Berglund J, Brown CA, Rosén BG, Bay N., 2010, Milled die steel surface roughness correlation with steel sheet friction, Annals of the CIRP, 59/1:577-580.
7. Makinouchi A, Teodosiu C, Nakagawa T., 1998, Advance in FEM Simulation and its Related Technologies in Sheet Metal Forming, Annals of the CIRP, 47/2:641-649.
8. Vollertsen F, Hu Z., 2006, Tribological Size Effects in Sheet Metal Forming Measured by a Strip Drawing Test, Annals of the CIRP, 55/1:291-294.
9. Azushima A, Kudo H., 1995, Direct Observation of Contact Behaviour to Interpret the Pressure Dependence of the Coefficient of Friction in Sheet Metal Forming, Annals of the CIRP, 44/1:209-212.
10. Figueiredo L, Ramalho A, Oliveira MC, Menezes LF, 2011, Experimental study of friction in sheet metal forming, Wear, 271/9– 10:1651-1657.
11. Fratini L, Lo Casto S, Lo Valvo E., 2006, A technical note on an experimental device to measure friction coefficient in sheet metal forming, Journal of Materials Processing Technology, 172/1:16-21.
12. Weinmann KJ, Kernosky SK., 1996, Friction Studies in Sheet Metal Forming Based on a Unique Die Shoulder Force Transducer. Annals of the CIRP, 45/1:269-272.
13. Yanagida A, Azushima A., 2009, Evaluation of coefficients of friction in hot stamping by hot flat drawing test. Annals of the CIRP, 58/1:247- 50.

There are 13 citations in total.

Details

Primary Language	Turkish
Subjects	Mechanical Engineering
Journal Section	Araştırma, Geliştirme ve Uygulama Makaleleri
Authors	Hakan Kalkan Tuğçe Hacaloğlu This is me Bilgin Kaftanoğlu
Publication Date	November 2, 2016
Submission Date	August 7, 2016
Published in Issue	Year 2016 Volume: 14 Issue: 2

Cite

Vancouver	Kalkan H, Hacaloğlu T, Kaftanoğlu B. Sac Şekillendirme İşleminde Sürtünmenin İncelenmesi. MATİM. 2016;14(2):88-94.

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