BEHAVIOR OF THE TRANSFER OBJECT ON THE DYNAMIC LOADS DURING THE WORKING PROCESS
Keywords:
the structural strapping elements of the metal band, the dynamic stress behavior, the resistance calculation for complex loads and the lateral buckling of the transfer object - the metal band, the behavior of the welded joint (end-to-end), traction and shearing, appropriate calculation relationships
Abstract
This scientific paper presents studies and researches in the field of nonconventional technologies, namely in the field of electrical erosion processing with transfer object the metal band. The paper presents the dimensioning elements of transfer object - metallic band, as well as its resistance calculations, to the stresses on the linear part 1-2, as well as to the complex bending stresses of the metal band. It also shows the behavior of the weld seam joint (tilted) to traction and shear, as well as the computation relations corresponding to the lateral buckling load and the welded joint.
References
1. Bucur, V., Contribuții la optimizarea tehnologiei de prelucrare dimensională prin Eroziune Electrică cu Rupere de Contact (E.E.R.C) cu obiect de transfer - banda metalică. Sibiu: Universitatea „Lucian Blaga”. Teză de doctorat, (1999).
2. Sofonea, G., Nanu, D., Bucur, V., Determinarea dimensiunilor obiectului de transfer (T.O.) - banda metalică îngustă la debitarea prin E.E.R.C. Timișoara: C.N.T.N., VI, (1993).
3. Galaftion, Sofonea, Dan, Nanu, Viorel, Bucur, Aspecte privind determinarea unor dimensiuni constructiv-funcționale la debitarea prin E.E.R.C cu bandă metalică. s.l.: În: Buletinul Științific al Universității Tehnice din Cluj-Napoca, Seria Construcții de Mașini, Supliment, (1993).
4. Galaftion, Sofonea, Dan, Nanu, Viorel, Bucur, Dimensionarea tamburilor de antrenare a O.T de tip bandă metalică la debitarea prin E.E.R.C. Timișoara : C.N.T.N, 1993. A VI-a.
5. Galaftion Sofonea; Dan Nanu; Viorel Bucur. Dimensionarea cilindrilor de antrenare a O.T - tip bandă metalică îngustă, la debitarea prin E.E.R.C. Timișoara: În: lucrările celei de a VI-a C.N.T.N., (1993).
6. Sahu, R.K., Hiremath, S.S., Manivannan, P.V., Singaperumal, M., An innovative approach for generation of aluminium nanoparticles using micro electrical discharge machining, International Conference on Advances in Manufacturing and Materials Engineering, AMME 2014, Procedia Materials Science, 5, 1205-1213, (2014).
7. Koshy, P., Boroumand, M., Ziada, Y., Breakout detection in fast hole electrical discharge machining. International Journal of Machine Tools & Manufacture, 50, 922–925, (2010). Wang, F., Liu, Y., Tang, Z., Ji, R., Zhang ,Y., Shen, Y., Ultra-high-speed combined machining of electrical discharge machining and arc machining. J Engineering Manufacture, 1-10, (2013).
2. Sofonea, G., Nanu, D., Bucur, V., Determinarea dimensiunilor obiectului de transfer (T.O.) - banda metalică îngustă la debitarea prin E.E.R.C. Timișoara: C.N.T.N., VI, (1993).
3. Galaftion, Sofonea, Dan, Nanu, Viorel, Bucur, Aspecte privind determinarea unor dimensiuni constructiv-funcționale la debitarea prin E.E.R.C cu bandă metalică. s.l.: În: Buletinul Științific al Universității Tehnice din Cluj-Napoca, Seria Construcții de Mașini, Supliment, (1993).
4. Galaftion, Sofonea, Dan, Nanu, Viorel, Bucur, Dimensionarea tamburilor de antrenare a O.T de tip bandă metalică la debitarea prin E.E.R.C. Timișoara : C.N.T.N, 1993. A VI-a.
5. Galaftion Sofonea; Dan Nanu; Viorel Bucur. Dimensionarea cilindrilor de antrenare a O.T - tip bandă metalică îngustă, la debitarea prin E.E.R.C. Timișoara: În: lucrările celei de a VI-a C.N.T.N., (1993).
6. Sahu, R.K., Hiremath, S.S., Manivannan, P.V., Singaperumal, M., An innovative approach for generation of aluminium nanoparticles using micro electrical discharge machining, International Conference on Advances in Manufacturing and Materials Engineering, AMME 2014, Procedia Materials Science, 5, 1205-1213, (2014).
7. Koshy, P., Boroumand, M., Ziada, Y., Breakout detection in fast hole electrical discharge machining. International Journal of Machine Tools & Manufacture, 50, 922–925, (2010). Wang, F., Liu, Y., Tang, Z., Ji, R., Zhang ,Y., Shen, Y., Ultra-high-speed combined machining of electrical discharge machining and arc machining. J Engineering Manufacture, 1-10, (2013).
Published
2019-09-30
How to Cite
Bucur, V., Titu, A., & Sofonea, G. (2019). BEHAVIOR OF THE TRANSFER OBJECT ON THE DYNAMIC LOADS DURING THE WORKING PROCESS. Nonconventional Technologies Review, 23(3). Retrieved from http://revtn.ro/index.php/revtn/article/view/249
Section
Articles
