Версия для
слабовидящих
ISSN 2227-6858
English version IS Bulletin Archive 2017. N 2/31


Aircraft Designing and Manufacturing                

DOI.org/10.5281/zenodo.808901

Grishchenko T., Melukhov N., Lyubushkin V.

TATIANA GRISHCHENKO, Engineer
NIKITA MELUKHOV, Engineer
PJSC AAC Progress, e-mail: aac@progress.ru
5, Lenin Square, Arsenyev, Primorsky Krai, Russia, 692335
VADIM LYUBUSHKIN, Student, Arsenyev Branch, Far Eastern Federal University
Far Eastern Federal University
6, Lenin Square, Arsenyev, Primorsky Krai, Russia, 692335
Scientific advisers: Yury Denisenko, Managing Director, Mikhail Ivashkov, Director, The Project of the Reconstruction of the Production of Polymer Composite Materials, PJSC AAC Progress, Oleg Berdiev, SRW Deputy Director, FEFU in Arsenyev Branch.

Application of waterjet cutting when processing parts from polymer composite materials

Abstract: The article deals with the application of a robot machine tool for cutting oversized stretch-forming thin-walled panels made from polymeric composite materials (PCM), the tool being produced by the specialists of the Engineering School, the Far Eastern Federal University. Described are the lines of the investigations in the new techniques of marking and cutting with minimum tolerance the panels consisting in the cutting zone of heterogeneous composite materials and structural inserts of different metals. The adopted solutions may be applied when manufacturing stretch-forming thin-walled panels RMB by the companies of the aerospace industry, as well as in shipbuilding.

Key words: molding surface, the polymer plate, water jet cutting, heterogeneous fillers, abrasives, metal inserts.

REFERENCES

  1. Grishchenko T.A., Ryabkov N.M., Tarabanova V.V., Rechitsky V.A.  The use of waterjet cutting for machining of PCM. Problems and prospects of development of small cities of Primorye Territory: the materials stud. scientific-practical. conf., Dalnegorsk, April 22. 2016, ed. N.V. Lisichkinа. Vladivostok, Far East. Fed. Univ., 2016, p. 70-75. URL: https://www.dvfu.ru/science/student_scientific_life/proceedings-of-student-activities/ – 24.06.2016.
  2. Ryabkov N.M., Grishchenko T.A. Shaping equipment manufacturing technology for large composite panels on the aviation enterprise. FEFU: School of Engineering Bulletin. 2014;4(21):50-53. URL: https://www.dvfu.ru/vestnikis/archive-editions/4-21/5/ – 24.06.2016.
  3. A method of manufacturing composite panels power: Pat. 2579779 Russian Federation: IPC 32 B 1/00, F 16 S 1/00/. V.I. Sergienko, Y.P. Denisenko, V.G. Dobzhansky, Yu.F. Ognev, O.Sh. Byrdiev. N 2014135941/06; appl. 09/02/14; publ. 04.10.16. 10 p .: silt.
  4. The method of manufacturing a multilayer construction panels: Pat. 2508496 Russian Federation: IPC F16S 1/00 B32B 1/00/Yu.F. Ognev, O.Sh. Byrdiev. N 2013101394/06; appl. 01/10/2013; publ. 27.02.2014, Bull. N 6.
  5. Handbook of composite materials: a 2-Prince. Bk. 1 / ed. J. Lubin; tr. English. A.B. Geller, M.M. Helmont. M., Engineering, 1988, 448 p .: silt.
  6. Investigations of metal's corrosion resistance in the sea climate conditions. V.I. Sergienko, Yu.P. Denisenko, V.G. Dobrzhansky, Yu.F. Ognev, O.Sh. Berdiev, N.E. Dushina. Modern technologies and the development of polytechnic education: Intern. scientific. conf., Vladivostok, 14–18 Sept. 2015, ed. A.T. Becker, V.I. Petukhov. Vladivostok, Far East. Fed. Univ., 2015. URL: http://www.dvfu.ru/web/dpd/katalog – 06.25.2016.