INFLUENCE OF MILLING STRATEGIES ON DEFORMATIONS OF NON-RIGID ELEMENTS OF ALUMINUM ALLOY PARTS-Reference-Cited by-同舟云学术

INFLUENCE OF MILLING STRATEGIES ON DEFORMATIONS OF NON-RIGID ELEMENTS OF ALUMINUM ALLOY PARTS

Published:2020-07-05 Issue: Volume: Page:101-108
ISSN:2071-7318
Container-title:Bulletin of Belgorod State Technological University named after. V. G. Shukhov
language:en
Short-container-title:

Author:

Durykhin A.¹,Hurtasenko A.¹²

Affiliation:

1. Belgorod State Technological University named after V.G. Shukhov

2. BSTU

Abstract

The article considers strategies for milling thin-walled elements of aluminum alloy parts and their influence on static deformations that occur during cutting. The simulation of workpiece loading in the process of milling is produced. Different processing strategies for different parameters of the thin wall are applied in the simulation. Variations in strategies are caused by the position of the supporting element relative to the surface being machined or its absence, as well as by the geometric parameters of the thin-walled element. The modernization of the processing strategy is proposed, which consists in the use of zigzag working passes with the cutter tilt at the advance angle in combination with processing with supporting elements. The results of finite element analysis performed using the Siemens NX CAD system are studied. The obtained data are compared with each other and with critical reference values of the mechanical properties of the processed material. It is established that the use of strategies with supporting elements and use the applying of the tool lead angle allows to reduce the static deformation of the workpiece material during the cutting process. This leads to a decrease in the number of finishing passes and a reduction in processing time.

Publisher

BSTU named after V.G. Shukhov

Subject

Psychiatry and Mental health,Neuropsychology and Physiological Psychology

Reference12 articles.

1. Инструкция по эксплуатации Sandvik Coromant. Обработка титана. Техническое руководство. AB Sandvikens Tryckeri. AB Sandvik Coromant 2011. С. 91–94., Sandvik Coromant user manual. Titanium processing. Technical manual. [Instrukciya po ekspluatacii Sandvik Coromant. Obrabotka titana. Tekhnicheskoe rukovodstvo]. AB Sandvikens Tryckeri. AB Sandvik Coromant 2011. Pp. 91–94. (rus)

2. Arnaud, L., Gonzalo, O., Seguy, S. et al. Simulation of low rigidity part machining applied to thin-walled structures. The International Journal of Advanced Manufacturing Technology. 2011. Vol. 54. Pp. 479–488. DOI:10.1007/s00170-010-2976-9, Arnaud L., Gonzalo O., Seguy S. et al. Simulation of low rigidity part machining applied to thin-walled structures. The International Journal of Advanced Manufacturing Technology. 2011. Vol. 54. Pp. 479–488. DOI:10.1007/s00170-010-2976-9

3. Vincent Thévenot, Lionel Arnaud, Gilles Dessein, Gilles Cazenave-Larroche. Influence of material removal on dynamic behavior of thin walled structure in peripheral milling. 7th CIRP International Workshop on Modeling of Machining Operations, ENSAM Cluny, May 2004, Cluny, France. Pp. 243-249. ffhal-01449170, Vincent Thévenot, Lionel Arnaud, Gilles Dessein, Gilles Cazenave-Larroche. Influence of material removal on dynamic behavior of thin walled structure in peripheral milling. 7th CIRP International Workshop on Modeling of Machining Operations, ENSAM Cluny, May 2004, Cluny, France. Pp. 243–249. ffhal-01449170

4. Vincent Thévenot, Lionel Arnaud, Gilles Dessein, Gilles Cazenave-Larroche. Integration of dynamic behaviour in stability lobes method: 3D lobes construction and application to thin walled structure milling. The International Journal of Advanced Manufacturing Technology. 2006. No. 27. Pp. 638–644., Vincent Thévenot, Lionel Arnaud, Gilles Dessein, Gilles Cazenave-Larroche. Integration of dynamic behaviour in stability lobes method: 3D lobes construction and application to thin walled structure milling. The International Journal of Advanced Manufacturing Technology. 2006. No. 27. Pp. 638–644.

5. Herranz S, Campa FJ, López de Lacalle LN, Rivero A, Lamikiz A, Ukar E, Sánchez JA, Bravo U. The milling of airframe components with low rigidity: a general approach to avoid static and dynamic problems. P I Mech Eng B J Eng Manuf. 2005. No. 219 Pp.789– 801., Herranz S, Campa FJ, López de Lacalle LN, Rivero A, Lamikiz A, Ukar E, Sánchez JA, Bravo U. The milling of airframe components with low rigidity: a general approach to avoid static and dynamic problems. P I Mech Eng B J Eng Manuf. 2005. No. 219. Pp.789– 801.

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