Theory of Formation of Edge’s Surface Roughness Finished by Radial Polymer-Abrasive Brushes

Dmitry Podashev

doi:10.4028/www.scientific.net/MSF.1037.571

Paper Titles

Investigation of Residual Stresses during Processing of GTE Blades with Microbeads
p.547

Numerical Simulation of the Laser Infusion Process of a Ni-Cr-B-Si Cover Strengthened with Zirconium Oxide Particles
p.552

Modification of the Surface of a Reconditioned Cutting Tool via Laser Ablation
p.558

Modeling of the Contact Interaction of the Tool Indenter with the Part Surface when Processing by Surface Plastic Deformation Methods
p.564

Theory of Formation of Edge’s Surface Roughness Finished by Radial Polymer-Abrasive Brushes
p.571

Solving the Inverse Problem of Recovering the 3D Surface of a Detail According to its 2D Projections in the Modelling of Electroplating Processes
p.581

Properties of Vibro-Abrasive Treatment by Combination the Kinds and Granulometric Characteristics of the Medium
p.589

Grinding of High-Strength Materials
p.595

Evaluation of the Possibilities of Processing High-Alloy Corrosion-Resistant Steels during Grinding Operations
p.603

HomeMaterials Science ForumMaterials Science Forum Vol. 1037Theory of Formation of Edge’s Surface Roughness...

Theory of Formation of Edge’s Surface Roughness Finished by Radial Polymer-Abrasive Brushes

Abstract:

Formation of roughness during treatment by polymer-abrasive brushes occurred as a result of interaction of cutting micro-relief with processed surface. The cutting micro-relief of abrasive instrument is described in the form of random process with normal distributional law. When calculation of roughness, the depths of penetration of cutting lugs in processed material as well as regularity of changing of radial radius of rounding of peaks of cutting lugs from modes of treatment are taken into consideration. Set are relations of roughness of processed edge from modes of treatment (deformations of instrument, cutting velocities, feeding) as well as from constituent cutting force. It is proved that usage of polymer-abrasive brushes for rounding of edges faces all requirements of aviation industry on roughness of processed edges.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Materials Science Forum (Volume 1037)

Pages:

571-580

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.1037.571

Citation:

Cite this paper

Online since:

July 2021

Authors:

Dmitry Podashev*

Keywords:

Cutting, Cutting Force, Micro-Relief, Mode of Treatment, Polymer-Abrasive Brushes, Roughness

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] A.P. Chapyshev, A.V. Ivanova, A.V. Krychkin, Technological possibilities of processes of mechanized finishing treatment of parts, News of Samarsky Scientific Centre of Russian Academy of Sciences. vol. 15 6 (2) (2013) 533–537.

Google Scholar

[2] A.P. Babichev, Vibration treatment of parts, Mashinostroenie, Moscow, (1974).

Google Scholar

[3] Yu. V. Dimov, A.V. Shmatkova, Interaction of Lobed Wheel with Machined Surface, Russian Engineering Research. 7 (2011) 707–711.

DOI: 10.3103/s1068798x11070057

Google Scholar

[4] Yu. V. Dimov. Processing of parts by free abrasive, Publishing house of Irkutsk State Technical University, Irkutsk, (2000).

Google Scholar

[5] V.S. Lukyanov, Ya. A. Rudzit, Parameters of surface roughness, Publishing house of standards, Moscow, (1979).

Google Scholar

[6] Yu. V. Dimov, Treatment of parts by elastic instrument, Publishing house of Irkutsk State Technical University, Irkutsk, (2007).

Google Scholar

[7] Yu. V. Dimov, D.B. Podashev, Process performance when machining part edges with polymer-abrasive brushes, Bulletin PNRPU. Mechanical engineering, materials science. 3 (2020) 29–36.

Google Scholar

[8] Information on https://www.3mrussia.ru/.

Google Scholar

[9] A.D. Tomlenov, Theory of plastic deformation of metals, Metallurgy, Moscow, (1972).

Google Scholar

[10] Reference book of controller of engineering plant. Tolerances, fits and linear measurements, under reference of A.I. Yakushev, Engineering, Moscow, (1980).

Google Scholar

[11] A.S. Ahmatov, Molecular physics of boundary friction, Physmatgiz, Moscow, (1963).

Google Scholar

[12] Yu. V. Dimov, D.B. Podashev, Calculation of force acting on part edge at machining by abrasive brushes, The bulletin of Mechanical Engineering. 11 (2016) 59–63.

Google Scholar