APPLICATION OF ADDITIVE TECHNOLOGIES IN MANUFACTURE OF MACHINE PARTS

Emerged in the late 1980s, the additive technologies are currently the advanced techniques of limited and piece production in different branches of machine building, medicine, aircraft and missilery. The additive technologies are the brand-new methods in manufacture of various articles, including metal items. The technologies can be used both to create a product and to treat a created piece, and the resultant material has the identical mechanical and physical characteristics as the products of conventional blacksmithing or foundry. The article describes two kinds of additive technologies using methods of layer formation. The problems connected with the required qualities and properties of parts are displayed. The methods to produce metal-particle materials from nickel for various branches of industry and machine building are presented. The implemented analysis marks the ways of improving strength of parts made of nickel powders.

Keywords

Аdditive technologies, heat experiments, print methods, selective laser sintering, direct deposition of materials, thermal barrier, material extrusion, thermal conduction, conventional technologies, 3D printing.

Issue number: 11
Year: 2018
ISBN:
UDK: 621.91.002
DOI: 10.25018/0236-1493-2018-11-0-136-144
Authors: Haba Etienne, Timiryazev V. A.

About authors: Haba Etienne, Magister, е-mаil: habatino@yahoo.fr, Timiryazev V.A., Doctor of Technical Sciences, Professor, е-mаil: timwa38@mail.ru, Peoples’ Friendship University of Russia (RUDN University), 113093, Moscow, Russia.

REFERENCES:

1.Timiryazev V. A., Skhirtladze A. G., Melet'ev G. A., SHebashev V. E. Osnovy tekhnologii mashinostroe-
niya
: uchebnik [Fundamentals of engineering technology: Textbook], Yoshkar-Ola, PGTU, 2016, 424 p.

2. Boparai K. S., Singh R., Singh H. Development of rapid tooling using fused deposition modeling: Areview. Rapid Prototyp. J. 2016, no 22, Pp. 281—299.

3. Baumann F. W., Eichhoff J. R., Roller D. Scanned Image Data from 3D-printed Specimens Using Fused Deposition Modeling. Data 2017, No 2, P. 3.

4. Logacheva A. I., Sentyurina ZH. A., Logachev I. A. Additivnye tekhnologii proizvodstva otvetstvennykh izdeliy iz metallov i splavov (obzor) [Additive technologies for manufacture of critical products from metals and allows (review)]. Perspektivnye materialy. 2015, no 4, pp. 5—16. [In Russ].

5. Yang C., Shen W., Lin T., Wang X. A hybrid framework for integrating multiple manufacturing clouds. Int. J. Adv. Manuf. Technol. 2016, No 86, 895—911.

6. Valetov V. A. Additivnye tekhnologii (sostoyanie i perspektivy): uchebnoe posobie [Additive technologies (current condition and prospects: Educational aid], Saint-Petersburg, Universitet ITM, 2015, p. 63.

7. Marants A. V. Sravnenie svoystv materialov stal'–TiC, poluchennykh metodami lazernykh tekhnologiy i poroshkovoy metallurgii [Comparison of properties of steel–TiC materials produced using laser technologies and powder metallurgy]. PMiFP. Izvestiya vuzov. 2013, no 1, pp. 22—26. [In Russ].

8. Dovbysh V. M., Zabednov P. M., Zelenko M. A. Additivnye tekhnologii i izdeliya iz metalla [Additive technologies and metal-work], available at: http://nami.ru/upload/AT_metall.pdf (accessed 10.03.2015).

9. Mark Curles German selective laser melting specialist mulls IPO. Industrial laser solutions. 15.08.2014.

10. Balyakin A. V., Chempinskiy L. A., Smelov V. G. Primenenie additivnykh tekhnologiy dlya sozdaniya detaley kamery sgoraniya [Application of additive technologies in manufacture of combustion chamber parts], Vestnik Samarskogo gosudarstvennogo aerokosmicheskogo universiteta. 2012, no 3 (34), pp. 47—52. [In Russ].

11. Galkin V. I., SHeshko E. E. Perspektivy razvitiya transportnykh sistem v glubokikh kar'erakh [Prospects for development of transport systems in deep open pit mines]. Gornyy informatsionno-analiticheskiy byulleten'. 2018. Special edition 1, pp. 369—379. [In Russ].

12. Chumakov D. M. Perspektivy ispol'zovaniya additivnykh tekhnologiy pri sozdanii aviatsionnoy i raketno-kosmicheskoy tekhniki [Prospects for application of additive technologies in aeronautical and rocket-and-space engineering]. Trudy MAI. 2014, no 78, pp. 22. [In Russ].

13. Conner B. P., Manogharan G. P., Martof A. N., Rodomsky L. M., Rodomsky C. M., Jordan D. C., Limperos J. W. Making sense of 3D printing: Creating a map of additive manufacturing products and services.Addit. Manuf. 2014, 1—4, Pp. 64—76.

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