Paper Titles

System of Chemical Bonds and Compounds as a Modern Scientific Foundation for Unification of Methods for Controlling the Structure and Properties of Various Substances and Materials
p.887

Analysis of Wear-Resistant Materials of Mixer - Pneumosuperchargers Blades Operating under Conditions of Abrasive Wear
p.893

Fatigue Resistance of Welded Titanium Joints
p.899

Analytical Description of Neck Profile during Tensile Testing of Cylindrical Specimens
p.905

About Some Reasons of Destruction of Gear Details of the Car
p.912

Method for the Determining Metal Mechanical Characteristics Using FEM
p.917

The Use of Fractal Formalism for the Description of Microstructures Engineering Materials
p.923

Determination Coefficient of Stress Concentration Using a Conformed Display on a Circle of a Single Radius
p.928

Modeling the Stress-Strain Curve of Elastic-Plastic Materials
p.936

HomeSolid State PhenomenaSolid State Phenomena Vol. 316About Some Reasons of Destruction of Gear Details...

About Some Reasons of Destruction of Gear Details of the Car

Article Preview

Abstract:

It is shown that deformed steel has an advantage over cast steel in terms of mechanical properties. It was revealed that the decrease in the durability of gear parts is associated with the presence of metallurgical defects in the steel. The square segregation is always inherited by the finished part and its appearance on the surface leads to the destruction of the product. The dendritic structure of steel is the reason for the low endurance strength of the tooth of the part. For heavily loaded gear parts of the «shaft-gear» type, it is recommended to use rolled products with a high degree of crimping (extension). To eliminate the dendritic structure in steel, hot deformation of the metal can be carried out at the stage of forging production.

You might also be interested in these eBooks

Materials Engineering and Technologies for Production and Processing VI

Info:

Periodical:

Solid State Phenomena (Volume 316)

Pages:

912-916

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.316.912

Citation:

Cite this paper

Online since:

April 2021

Authors:

V.I. Astashchenko*, T.V. Shveyova, A.I. Shveyov

Keywords:

Cast Structure, Cementation, Forging, Gear Part, Properties, Steel, Structure

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2021 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] R.E. Gliner, V.I. Astashchenko. Introduction to Metal Quality Management: Tutorial./R.E. Gliner, Publishing house Kazan. un-that, Kazan, (2015).

[2] A.M. Sulima, V.A. Shulov, Y.D. Buttkin. Surface layer and operating properties of machine parts, Mechanical Engineering, Moscow, (1988).

[3] A.V. Later, A.M. Sulima, M.I. Evstigneev, G.Z. Serebrennikov. Technological residual stresses, Mechanical engineering, Moscow, (1973).

[4] V.I. Astashchenko, N.N. Zapadnova, G.F. Mukhametzianova, Key concepts for production of high-quality parts, IOP Conference Series: Materials Science and Engineering, Kazan, 2017, Vol.240, Is.1, Art. № 012007.

DOI: 10.1088/1757-899x/240/1/012007

[5] A.G. Suslov. Quality of surface layer of machine parts. Mechanical engineering, Moscow, (2000).

[6] A.G. Suslov To the issue of ensuring optimal durability of machines and their parts, Journal of Mechanical Engineering, Moscow, 2014, № 10, pp.35-39.

[7] A.G. Suslov. Ensuring Competitiveness and Quality of Mechanical Engineering Products, Knowledge-intensive Technologies in Mechanical Engineering, Moscow, 2013, № 4, pp.3-6.

[8] V.I. Astashchenko, A.I. Shveyov, T.V. Shveyova Quality Control and Inheritance of Steel Structure at Technological Metal Transmission, Academy, Moscow, (2011).

[9] V.I. Astashchenko, N. N.Zapadnova, Shveyova T.V., Mukhametzynova G.F., Zapadnova E.A. Neutralization of stress concentrators in machine details, Journal of Kazan State Technical University named after A.N. Tupolev, Kazan, 2016, Vol. 72, № 4, pp.62-67.

[10] Y.B. Friedman. Mechanical properties of metals. Part 1. Deformation and destructions. Mechanical engineering, Moscow, (1974).

[11] M.L. Bernstein. Hot strain diagrams, structure and properties of steels. Metallurgy, Moscow, (1989).

[12] M.A. Bernstein, A.G. Rahstadt. Metal science and thermal treatment of steel. Reference. In 2x volumes, Metallurgy, Moscow, (1962).

[13] E.I. Semenov, V.G. Condratenko, N.I. Lyapunov Technology and equipment of forging and volume stamping, Mechanical Engineering, Moscow, (1978).

[14] M.A. Tylkin. Directory of Thermist of Repair Service, Metallurgy, Moscow, 1981.

[15] A.A. Aliyev. Selection and improvement of structural steels, Automotive industry, 2018, №4, pp.35-38.

[16] T.V. Shveyova, A.M. Pesin, D.O. Pustovoytov, Behavior of micro-alloyed steel at thermal treatment, Solid State Phenomena (2017), 2017, 265 SSP, pp.177-180.

DOI: 10.4028/www.scientific.net/ssp.265.177

[17] R. Kuziak, R.Kawalla, S. Waengler. Advanced high strength steels for automotive industry, Arch. Civil and Mech. Eng. 8 (2008), №. 2.

DOI: 10.1016/s1644-9665(12)60197-6

[18] A.I. Shveyov, V.I. Astashchenko, I.G. Gazizov, T.V. Shveyova, I.A. Shveyov. Surface Layer Metal Diagnosis of Carburized Parts, World Applied Sciences Journal 29(12), 2014, pp.1566-1568. ISSN 1818-4952.

[19] V.I. Astashchenko, A.I. Shveyov, T.V. Shveyova. Forecasting of Carburized Tooth Parts Durability on Metal of a Core Properties, World Applied Sciences Journal 29(12), 2014, pp.1550-1552, ISSN 1818-4952.

[20] V.I. Astashchenko, T.V. Shveyova, A.I. Shveyov. Diagnostics of the properties of steel articles according to the criterion of microhardness, Metal Science and Heat Treatment, Moscow, 58(5), pp.303-307.

DOI: 10.1007/s11041-016-0008-6