Aerospace Technic and Technology

The directions of improving of mixture formation system for thermal pulse equipment are considered. Based on established by international standards qualimetric parameters of precision parts edges the requirements to dosing accuracy of fuel mixture components are formulated for precision thermal pulse treatment. An overview of the methods for gas mixture generating with a high-precision component ratio was examined, its features, advantages and disadvantages were reviewed with regard to thermal pulse equipment were considered. For solving the specified problem the critical hole method as the most promising method is proposed to apply.

Shipul' O. V. Tendentsii razvitiya pretsizionnogo proizvodstva [The trends in the development of precision production]. Issues of design and manufacture of flying vehicles Sbornik nauchnyh trudov Nacional'nogo ajerokosmicheskogo universiteta im. N.E. Zhukovskogo «HAI». Kharkiv, 2015 no. 1(81), pp. 77-90.

Kato, Y., Ohmri, K., Hatano, E., Takazawa, K. The Standardized Classification for Edge Quality of the Precise Machining Products. Advanced Materials Research, Proceedings 9th International symposium on precision surface finishing and deburring technology, 5 - 7 November 2007, vol. 24, Suzhou, China, pp. 3-90.

Plankovskij, S. I., Losev, A. V., Shipul, O. V., Borisova, O. S. Sovremennoe sostojanie i perspektivy razvitija tehnologij finishnoj otdelki precizionnyh detalej letatel'nyh apparatov [Current state and prospects of development technologies of finishing for precision details of aircrafts]. Aviacijno-kosmicna tehnika i tehnologia - Aerospace technic and technology, 2010. no. 2(69), pp. 39-47.

Plankovskii, S. I., Shipul', O. V., Trifonov, O. V., Ko-zlov, V. G. Smeseobrazovanie v kamerakh termoimpul'snykh mashin pri obrabotke detalei agregatov dvigatelei. [The mixing in chamber of thermo-puls sys-tem at clearing of engine unit workpiece]. Aviacijno-kosmicna tehnika i tehnologia - Aerospace technic and technology, 2010. no. 9, pp. 7-11.

Borisova, O. S. Sovershenstvovanie sposobov doziro-vaniya energii pri finishnoi termoimpul'snoi ochistke pretsizionnykh detalei LA. diss. ... kand. tekhn. nauk [The improving methods of energy metering at the fin-ish thermo-puls precision parts cleaning LA. Cand. tech. sci. diss.]. Kharkiv, 2011. 154 p.

Losev, A. V., Laduhina, O. S., Vlijanie progreva kamery sgoranija impul'snyh mashin na temperaturu gorjuchej smesi [The effect of heating the combustion chamber of pulse machines on the temperature of the combustible mixture]. Obrabotka metallov davleniem v mashinostroenii, Kharkiv, 1989, no. 25, pp. 90-92.

Plankovskii, S. I., Shipul', O. V., Malashenko, V. L., Kozlov, V. G. Naznachenie rezhimov ob-rabotki dlya avtomatizirovannykh termoimpul's-nykh ustanovok v usloviyakh informatsionno-integrirovannogo proizvodstva [Appointment of processing regimes for automated thermal-pulse equipment used in computer integrated manufacturing]. Otkrytye informacionnye i komp'juternye integrirovannye tehnologii, 2012, no. 56, pp. 67-77.

Plankovskij, S. I., Shipul', O. V., Trifonov, O. V., Palazjuk, E. C., Malashenko, V. L. Modelirovanie teploo-bmena pri zatuhanii udarnyh voln v zamknutoj kamere. [The simulation of the heat transfer during shock waves damping in an enclosed chamber] Aviacijno-kosmicna tehnika i tehnologia - Aerospace technic and technology, 2014, no. 1, pp. 104-109.

Plankovskij, S. I., Gajdachuk, A. V., Shipul', O. V., Palazjuk, E. C. Modelirovanie processa oplavlenija zausencev pri termoimpul'snoj obrabotke detonirujushhimi smesjami [Simulation of the burrs reflow process in thermal-pulse deburring with detonating]. Aviacijno-kosmicna tehnika i tehnologia - Aerospace technic and technology, 2013, no. 3, pp. 4-11.

Sysoev, Yu. A., Rudenko, V. P., Dolomanov, A. V. Cozdanie smesei gazov dlya ionnoplazmennykh tekhnologii [The creation of gases mixtures for ion plasma technologies]. Vostochno-Evropejskij zhurnal peredovyh tehnologij – Eastern-european journal of enterprise technologies, 2014, no. 2/5 (68), pp. 15-19.

Sysoev, Yu. A. Sozdanie mnogokomponentnykh gazovykh smesei dlya ionno-plazmennykh tekhnologii [The creation of multi-component gas mixtures for ion-plasma technologies]. Voprosy atomnoj nauki i tehniki – Problems of atomic science and technology, 2014. no. 2(90), pp. 137-142.

ISO 6145-2:2014. Gas analysis. Preparation of calibration gas mixtures using dynamic methods. Part 2: Piston pumps.

ISO 6145-4:2004. Gas analysis. Preparation of calibration gas mixtures using dynamic volumetric methods. Part 4: Continuous syringe injection method.

ISO 6145-5:2009. Gas analysis. Preparation of calibration gas mixtures using dynamic volumetric methods. Part 5: Capillary calibration devices.

ISO 6145-6:2003. Gas analysis. Preparation of calibration gas mixtures using dynamic volumetric methods. Part 6: Critical orifices.

ISO 6145-1:2003. Gas analysis — Preparation of calibration gas mixtures using dynamic volumetric methods — Part 1: Methods of calibration

ISO 6145-7:2009. Gas analysis . Preparation of calibration gas mixtures using dynamic volumetric methods. Part 7: Thermal mass-flow controllers.