MODULE OF MEASUREMENT OF FORCES OF CUTTING

Authors

  • Сергій Володимирович Майданюк National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine https://orcid.org/0000-0003-2853-8606
  • Олександр Анатолійович Плівак National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv, Ukraine https://orcid.org/0000-0003-3680-8485

DOI:

https://doi.org/10.20535/2305-9001.2016.77.66401

Keywords:

block sensor, sensor, resistive-strain sensor, dynamometer, measurements, cutting force.

Abstract

Purpose. Creation of a universal complex on measurement of forces of cutting of dynamic processes in real time.

Methodology. On the basis of the analysis of sensors for measurement of forces of cutting it is accepted, for dynamic processes, the strain sensor. Schemes of connection and power supply of strain sensors are considered and analysed, the relevant decisions for achievement of a goal are made. correspondence of the made decisions to schemes in dynamometers is analysed. The analysis of schemes of creation of data collection systems on the basis of strain sensors is carried out. Considering the accepted power supply circuits and connections of strain sensors, the scheme of the module on measurement of cutting forces of dynamic processes is developed.

Results. On the basis of the developed scheme the four-channel module on measurement of cutting forces of dynamic processes, in real time, with high metrological characteristics is created.

Scientific novelty. The offered block sensor of the module on measurement of cutting forces on the basis of a universal dynamometer.

Practical importance. This module can be used in laboratory and research works for research of power characteristics of cutting processes.

Author Biographies

Сергій Володимирович Майданюк, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv

Institute of Mechanical Engineering, Department of Integrated Manufacturing Engineering

Олександр Анатолійович Плівак, National Technical University of Ukraine «Igor Sikorsky Kyiv Polytechnic Institute», Kyiv

Institute of Mechanical Engineering

References

Rozenberg, Ju. A. and Tahman, S.I. (1995), “Part 1. Obshhie polozhenija”, Sily rezanija i metody ih opredelenija [Forces of cutting and methods of their definition], KMI, Kurgan, Russia.

Review of tension sensors, "Obzor siloizmeritel'nyh datchikov", available at: http://www.anwit.kiev.ua/article/24/t/page/4/

Tensoresistors, "Tenzorezistory", available at: http://www.bookasutp.ru/Chapter6_3_5.aspx.

Wang, L. and Tan, K.C. (2006), Modern Industrial Automation Software Design, Principles and Real-World Applications. Hoboken, New Jersey, John Wiley & Sons Inc…

Muhin, B.I. and Sinel'shhikova, T.K. (1969), Rukovodstvo k unіversal'nomu dinamometru UDM konstrukcii VNII [Manual for universal dynamometer of UDM of a design of all-union scientific research institute], VNII, Мoskow, Russia.

O'Gredi, A., Metody vozbuzhdenija izmeritel'nyh datchikov i primenenie IS AD7711 i AD7730 [Methods of excitation of measuring sensors and application of IS AD7711 and AD7730], available at: http://www.compitech.ru/html.cgi/arhiv/03_03/stat_50.htm.

Dinamicheskie harakteristiki tenzometricheskih izmeritel'nyh sistem dlja prochnostnyh ispytanij [Dynamic characteristics of tensometric measuring systems for strength tests], available at: http://inburo.com.ua/ru/pages/58/

Gershtenhaber, M. (2003), Shema vozbuzhdenija mostovogo tenzodatchika peremennym tokom [Scheme of excitation of the bridge strain gage alternate current"], available at: http://www.analog.com/media/ru/technical-documentation/application-notes/38829122935342AN683R.pdf.

Teorija tenzoizmerenij, shemy podkljuchenija tenzorezistorov [Theory of tenzoizmereniye, schemes of connection of tensoresistors] available at: http://www.zetlab.ru/support/articles/tenzometriya/teoriya-tenzoizmereniy-skhemy-podklyucheniya-tenzorezistorov-k-zetsensor/.

Krasnovyd, D.O. (2010), "Increase of operability of taps for processing of titanium and titanic alloys"¸ dys. … kand. tehn. nauk, Kyiv, Ukraina.

Ohrimenko, O. (2010), Information system of design of end mills: report on NIR [Informacijna systema proektuvannja kincevyh frez : zvit pro NDR], NTUU "KPI"; Kyiv, Ukraine.

Katruk, O.V., Besarabec', Ju.J. and Plivak, O.A. (2011), “Research of power characteristics of milling of details from aluminum”, Journal of Mechanical Engineering the National Technical University of Ukraine "Kyiv Polytechnic Institute", no. 62, pp.175-182.

Vanijev, E. R. (2014), The strengthening action of the environments MCTW when milling staly an austenitic class [Zmicnjujucha dija MOTS pry frezeruvanni stalej austenitnogo klasu: dys. … kand. tehn. nauk], Ternopil', Ukraine.

Balyc'ka, N. O. (2015), Increase of operability of pro-carved mills [Pidvyshhennja pracezdatnosti proriznyh frez: dys. … kand. tehn. nauk], Kyi'v¸ Ykraine.

Published

2016-11-17

Issue

Section

Original study