PROCESSING PRECISION ON TURNING MACHINE WITH INCLINED BED FRAME
Abstract
Massive structures with low displacement are not anymore option of choice for modern and precise cutting tool machines. Our team is researching to define new types of structures with two main qualities: controlled deformations easy to predict and therefore to correct with the clear purpose to get the „ideal” product and right materials and way of manufacturing the structure itself in order to obtain lower vibration levels. The paper analyses welded and molded structures, in this case referring to previous papers in dynamics conditions, willing to determine advantages and disadvantages of using them for frames in projecting, producing and exploitation of tool machinery. Experiments following two different principles were done and their results are briefly presented in this paper in order to sustain our theory.
Key words: Lathe, inclined bed frame, precision, load, displacements, welded, molded.
Full Text:
PDFReferences
.Rahman, M.M., Optimization of Machining Parameters on Tool Wear Rate of Ti-6Al-4V through EDM Using Copper Tungsten Electrode: A Statistical Approach. Advanced Materials Research, pp. 1595-1602, 2010.
.Glavan, D.O., Babanatsas, T.. Tool machinery vibrations frames comparison concerning welded or moulded manufacturing structures, 8th International Conference on Manufacturing Science and Education - Trends in new industrial revolution, June 2017, Sibiu, Romania.
.Altintas Y.. Manufacturing Automation: Metal Cutting Mechanics, Machine Tool Vibrations, and CNC Design, Cambridge University Press, 2012.
.Epucret. Mineral casting frames for machine tools (www.rampf-gruppe.de, 12.06.2018).
.Szaraniec-Matusiak, A.. Technological and design analysis machine bodies and technological devices, Archives of Mechanical Technology and Automation, No. 27, pp. 121-129, 2007.
.Weule, H., Fleischer, J., Neithardt, W., Emmrich D., Just, D.. Structural Optimization of Machine Tools including the static and dynamic Workspace Behavior, The 36th Cirp-International Seminar on Manufacturing Systems, Saarbruecken, 2003.
.Glavan, D.O., Babanatsas, T., Babanatis Merce, R.M., Glavan, A.. Comparative study of tool machinery sliding systems; Comparison between plane and cylindrical basic shapes, International Conference on Applied Sciences, May 2017, Hunedoara, Romania.
.Pop, D., Haragâş, S.. Organe de maşini. Volumul 1, Ed. Risoprint, 352 pp., ISBN 978-973-53-1294-7, Cluj-Napoca, 2014.
.Radu I., Glăvan, D.. Elemente de vibraţii mecanice, Ed. „UAV”, 127 pp., ISBN 973-9361-50-1, Arad, Romania, 2001.
. Darshan, A., Anand, C.. Design and Fabrication of Grinding Wheel Attachment on Lathe Machine, Vol. 7, Isue 4, pp.281–288, 2016.
. Sima, Gh.. Sisteme senzoriale utilizate la sudare, Ed. „ Viata Arădeana“, 172 pp., ISBN 973-9455-56-9, Arad, Romania, 2004.
. Mortoiu, D., Săbăilă, L., Babanatsas, T., Gal L.. Autocad 2006, partea I– modelarea 2d, Îndrumător pentu uzul studenţilor, Ed. Universităţii “Aurel Vlaicu”, 160 pp., ISBN (10) 973 – 752-092-0, Arad, Romania, 2006.
Refbacks
- There are currently no refbacks.