The Technological Conception of Quality Assurance in the Surface Treatment of Aluminum and Copper Alloys

Mikhail Yurievich Kulikov; Vitaliy Evgenevich Inozemtsev; Dmitry Aleksandrovich Nechaev; Myo Naing Oo

doi:10.4028/www.scientific.net/AMM.548-549.331

Paper Titles

Effect of Cold Rolling Process on the Microstructure and Corrosion Behaviors of 316L Stainless Steel in Simulated Body Fluids
p.310

Steam Methane Reforming of Natural Gas with Substantial Carbon Dioxide Contents – Process Optimization for Gas-to-Liquid Applications
p.316

Preparation of Gold Nanocrystals Having Various Morphologies under Polymeric Bulk Phase
p.321

Optimization Sol Gel Process Parameter of CaCu₃Mn₄O₁₂
p.326

The Technological Conception of Quality Assurance in the Surface Treatment of Aluminum and Copper Alloys
p.331

Study the Effect of Vegetable-Based Lubricant on Surface Roughness during Milling Operation by Using Response Surface Methodology
p.336

Production of Self-Healing PI Polymeric Films with Encapsulated TMPTA in PU Microparticles
p.344

Low Temperature Annealing Effect on Electrical Properties of Multicrystalline Silicon Wafers for Photovoltaic Application
p.349

Controlling the Growth of ZnO-SiO₂ Nanostructures Using Pt-Coated Si Substrate
p.354

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 548-549The Technological Conception of Quality Assurance...

The Technological Conception of Quality Assurance in the Surface Treatment of Aluminum and Copper Alloys

Abstract:

The way is developed by the combined process of finishing machining. In this method, surface treatment is due to the combined effects of cutting tool and anodic dissolution of metal under the influence of an electric current in the electrolytic solution. Applying of this method allow the processing of aluminum and copper alloys to obtain higher quality parameters of the obtained surface, including special material.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 548-549)

Pages:

331-335

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.548-549.331

Citation:

Cite this paper

Online since:

April 2014

Authors:

Mikhail Yurievich Kulikov*, Vitaliy Evgenevich Inozemtsev, Dmitry Aleksandrovich Nechaev, Myo Naing Oo

Keywords:

Cermet, Combined Processing, Finishing Work, Quality Parameters, Roughness, Silumin

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] M. Yu. Kulikov, V.E. Inozemtsev, Myo Naing Oo. Technological method for the finishing process of fusible alloy Precision Machining VII. Selected, peer reviewed papers from the 7th International Congress of Precision Machining (ICPM 2013), October 3-5, 2013, Miskolc, Hungary. Pg. 224-228.

DOI: 10.4028/www.scientific.net/kem.581.224

Google Scholar

[2] Mathew A. Kuttolamadom, Sina Hamzehlouia, M. Laine Mears. Effect of Machining Feed on Surface Roughness in Cutting 6061 Aluminum. http: /www. clemson. edu/ manufacturing- lab/ documents/publications/kuttolamadom%25202010b. pdf.

DOI: 10.4271/2010-01-0218

Google Scholar

[3] Nourredine Boubekri, Vasim Shaikh. Machining using minimum quantity lubrication: a technology for sustainability. http: /www. ijastnet. com/journals/Vol_2_No_1_January_2012/13. pdf.

Google Scholar

[4] Anna Carla Araujo1, Adriane Lopes Mougo, Fabio de Oliveira Campos. Micro milling cutting forces on machining aluminum alloy. http: /minds. wisconsin. edu/bitstream/handle/ 1793/65377/0064-1. pdf?sequence=1.

Google Scholar

[5] Marko Reibenschuh, Franc Cus, Uros Zuperl. Turning of high quality aluminium alloys with minimum costs. http: /bookr2. com/viewmanual/197514.

Google Scholar

[6] Kovensky I.M., Kuskov B.N., Prohorov N.N. Structural transformation of metal and alloy by electrolytic action. Tyumen GNGU. 2001. Pg. 115.

Google Scholar

[7] Beletsku B.M., Kruvov G.A. Aluminum alloys (compound, properties, technology, using) Reference book. Kiev, Kominteh 2005. Pg. 180-181.

Google Scholar

[8] Babich B. N.; Vershinina E. B; Glebov B. A. Metal powdes and powder materials. Reference book-ECOMET, 2005. Pg. 450.

Google Scholar

[9] Cyparecov C.C.; Libenson G. A. Powder metallurgy. Moscow Metallurgy, 1980. Pg. 382.

Google Scholar

[10] Kulikov M. Yu.; Inozemtsev V.E.; Myo Naing Oo. Method for improving the surface layer quality by the combination of mechanical-electrochemical processing. Collecting of scientific works The high technology in mechanical engineering, Kharkov polytechnic institute . №1 2012. Pg. 168 – 170.

Google Scholar

[11] Kulikov M. Yu.; Inozemtsev V.E. Research the effects of cutting condition in the surface formation quality of metal-ceramic products during their finishing turning process. Journal World transport,. №2 2012. Pg. 44 – 49.

Google Scholar

[12] Inozemtsev V.E. Using and processing of ceramic-metal. Journal World transport, № 4/2010. MIIT. Pg. 44 – 48.

Google Scholar

[13] Afonin A.N., Gaponenko E.B., Erenkov O.U. and others . Progressive mechanical engineering technology. Moscow. Spectrum. 2012. Pg. 191.

Google Scholar

[14] Poduraev B.N. Cutting hard-to-cut materials. M. М. Higher school. 1974. Pg. 469-470, Pg. 494.

Google Scholar

[15] Inozemtsev V.E. Factors influencing in the technological capabilities of metal-ceramic sintered materials, during the finishing process. Science-technological magazine Fundamental and applied problems of engineering and technology" State university- education-scientific-industrial complex (FGBOU VPO "State university, ) № 4/2 (288) 2011. Orel. 2011. Pg. 61 – 66.

Google Scholar

[16] Inozemtsev V.E., Kulikov M. Yu. Research the effects of finishing mechanical processing condition of metal-ceramic sintered material on the formed surface quality. Interuniversity collection of scientific papers Physic, chemistry and mechanic tribosystem, Ivanovo state university. Tribological center-ivanovo state university. X. Ivanovo. 2011. Pg. 88 - 93.

DOI: 10.32864/0202-4977-2021-42-3-338-349

Google Scholar