Technologies for the Manufacturing of Multi-Layered Hollow Structures by Superplastic Forming

N.K. Krioni; A.D. Mingazhev; I.R. Kuzeev

doi:10.4028/www.scientific.net/MSF.870.642

Paper Titles

Improving the Controlled Cooling after Wire Rod Rolling in the Finishing Block of Stands
p.620

Separation of Fine Particles with the Set Dimensional and Physical Characteristics by Method of the Crown Separation
p.625

Laser and Hybrid Laser-Arc Welding of High Strength Steel N-A-XTRA-70
p.630

The Mechanism of Water-Soluble Polymer Аdditives and Parameters of the Pulse Electrolysis Effect on the Size Distribution of the Electrolytic Copper Powder
p.636

Technologies for the Manufacturing of Multi-Layered Hollow Structures by Superplastic Forming
p.642

Optimal Сontrol of Technological Process of Carburization of Automotive Gears
p.647

Water-Coal Suspension Preparation Using Electrohydraulic Coal Breakage Method
p.657

Development and Implementation of Energy Efficient Burners at Power Stations
p.661

Improvement of Liquid Organic Fuel Oils Operational Characteristics with Additives
p.666

HomeMaterials Science ForumMaterials Science Forum Vol. 870Technologies for the Manufacturing of...

Technologies for the Manufacturing of Multi-Layered Hollow Structures by Superplastic Forming

Abstract:

Hollow multilayered structures are increasingly used in various fields of engineering and technology. One of the most important applications is шт aircraft engine construction and power-plant engineering. In recent years, the methods of superplastic forming have started to be used to obtain hollow parts specified for different areas. However, despite significant advances in this field, these technologies have several drawbacks, leading to the emergence of technological defects, particularly those associated with the the effect of Baushinger. In this regard, this article discusses the development and study of a technology for production of multilayer hollow constructions by superplastic forming, in particular, degradation process of adhesive bonds in areas, forming cavities in a constructional workpiece. It is shown that the use of more delicate effects to create the breaking away of the load enables the reduction of process defects in the part.

You might also be interested in these eBooks

Materials Engineering and Technologies for Production and Processing II

View Preview

Info:

Periodical:

Materials Science Forum (Volume 870)

Pages:

642-646

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.870.642

Citation:

Cite this paper

Online since:

September 2016

Authors:

N.K. Krioni, A.D. Mingazhev, I.R. Kuzeev*

Keywords:

Adhesive Bonds, Hollow Blade, Homogeneous Deformation, Magnetic-Striction Impact, Multi-Layered Hollow Structure, Superplastic Forming, Technological Defects

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] S.I. Molodykh, V.V. Tretyak, Development of technology of manufacturing the hollow wide chord fan blades of turbofan, Aerospace engineering and technology. 8 (2008) 10-14.

Google Scholar

[2] A. Levers, US Patent 7322223. (2008).

Google Scholar

[3] S.M. Barlow, M.J. Wallis, US Patent 8764404. (2014).

Google Scholar

[4] P.J. Brennand, M.B. Richard, US Patent 8382441. (2013).

Google Scholar

[5] A.A. Inosemtsev, On the program of manufacturing the fifth-generation aviation gas turbine engines for the family of aircrafts МС-21, Perm Scientific Centre Reporter. 4 (2010) 28-46.

Google Scholar

[6] E.N. Petrov, V.V. Rodionov, E.N. Kuzmin, R. Ya. Lutfullin, R.V. Safiullin, Cellular structures, Publishing House of Russian Federal Nuclear Centre - All-Russian Research Institute for Applied Physics, Snezhinsk, (2008).

Google Scholar

[7] R.R. Mulyukov, A.A. Inosemtsev, RU Patent 2477191. (2013).

Google Scholar

[8] E.M. Nagovitsyn, T.F. Imaev, RU Patent 2423216. (2011).

Google Scholar

[9] N.P. Lyakishev, Metal Industry Encyclopedic Dictionary, Reference work, vol. 2, Intermet Engineering, Moscow, (2000).

Google Scholar

[10] J.O. Fowler, B. Richardson, A method of manufacturing an article by superplastic forming and diffusion bonding, EP0568201, (1996).

Google Scholar

[11] N.L. Koksharov, S.A. Kharin, RU Patent 2412017. (2011).

Google Scholar

[12] A.D. Mingazhev, N.K. Krioni, RU Patent 2569614. (2015).

Google Scholar