Details

Title

Vibratory Machining Effect on the Properties of the Aaluminum Alloys Surface

Journal title

Archives of Foundry Engineering

Yearbook

2017

Numer

No 4

Publication authors

Divisions of PAS

Nauki Techniczne

Publisher

The Katowice Branch of the Polish Academy of Sciences

Date

2017

Identifier

ISSN 2299-2944

References

Eric (2012), Repair of high - value high - demand spiral bevel gears by superfinishing Gear Technology, October, 15, 50. ; Oryński (2010), Surface roughness testing of conventionally treated surfaces and vibration on a surface grinder Mechanik in Polish, null, 190. ; Konieczny (2013), Mechanical properties and deformation behavior of laminated composites and Engineering A - Structural Materials Properties Microstructure and Processing, Materials Science, 586. ; Woźniak (2017), Surface treatment in container smoothers in Polish, null, 11. ; Hlavac (2017), Precision comparison of analytical and statistical - regression models for AWJ cutting Precision the for and, Engineering Journal of International Societies Precision Engineering Nanotechnology October, 148, doi.org/10.1016/j.precisioneng.2017.05.002 ; Kacalak (2012), Effect of superfinishing methods kinematic features on the machined surface Machine, Engineering, 19, 4. ; Bańkowski (2017), and smoothing the edges using vibro - abrasive machining th International Scientific Conference of Young Scientists on Sustainable Volume, Engineering, 12, 192. ; Patejuka (2007), Effects of finishing on the surface quality of precision castings of Foundry, Archives Engineering, 7, 93. ; (2017), http www dostal com pl metale kolorowe aluminium html, null, 23, 06. ; Rao (2009), Suren Repair of aircraft transmission gears via isotropic superfinishing Gear Technology, null, 14. ; Gillespie (1999), LK Edge Finishing Handbook of Manufacturing Engineers, Society, 20. ; Mola (2017), Microstructure of the bonding zone between formed by compound casting of Foundry, Archives Engineering, 17, 1, doi.org/10.1515/afe-2017-0036 ; (2017), http riad usk pk edu pl mnykiel iim dydaktyka SkrSkry html, null, 22, 06. ; MARDAB (2017), technical materials from www mardab pl, null, 25, 06. ; Brinksmeier (2005), gear finishing viewed as a process of abrasive wear, Wear, 12, 258. ; Bańkowski (2017), Influence of the smoothing conditions in vibro - abrasive finishing and deburring process for geometric structure of the surface machine parts made of aluminum alloys EN of th International Conference on Metallurgy and Materials METAL, Proceedings, 24, 2015. ; Bańkowski (2017), The aplication of vibro - abrasive machining for smoothing of castings of Foundry, Archives Engineering, 13, 169. ; Bańkowski (2006), Influence of the smoothing conditions in vibro - abrasive for technically dry friction the parts made of steel Metal th Anniversary International Conference on Metallurgy And Materials, null, 25, 160. ; Starosta (2008), Surface treatment in Polish, null. ; Massarsky (2002), Turbo - abrasive machining - a new technology for metal and non - metal part finishing The Finishing Line No MI Association of Finishing Processes Society of Manufacturing Engineers, null, 17. ; Janecki (2010), Problems of measurement of barrel - and saddle - shaped elements using the radial method, Measurement, 26, 659. ; Vibro (2017), http www rollwasch it en Dry Experience Italiana p a, null, 24, 06. ; Bankowski (2017), Investigations of influence of vibration smoothing conditions of geometrical structure on machined surfaces th International Conference Recent Trends in Structural Materials Volume Article Number org, null, 18, 179. ; Hashimura (1999), Effect of in - plane exit angle and rake angles on burr height and thickness in face milling operation transactions of the ASME of Manufacturing, Journal Science Engineering, 21, 121. ; Davidson (2002), Mass Finishing Processes Metal Finishing Guidebook and Directory New York TAM surfaces are Published, Science, 16.

DOI

10.1515/afe-2017-0124

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