TY  - CONF
AU  - Simeunović, J.P.
AU  - Gadjanski, I.
AU  - Janićijević, Ž.
AU  - Janković, M.M.
AU  - Barjaktarović, Marko
AU  - Janković, Novica
AU  - Čantrak, Đorđe
PY  - 2017
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2715
AB  - The article presents the process of fabrication of the microfluidic chip to be used with the do-it-yourself (DIY) micro-PIV system previously made and compared to the classic PIV setup. This pilot study is an example of research being conducted in the Scientific fab lab (fabrication laboratory), founded at the Faculty of Mechanical Engineering, University of Belgrade. Fab labs and DIY principle are becoming more and more accepted by the scientific community and this article aims to contribute to such trend.
PB  - Springer Heidelberg
C3  - Lecture Notes in Mechanical Engineering
T1  - Microfluidic chip fabrication for application in low-cost DIY microPIV
EP  - 459
SP  - 451
DO  - 10.1007/978-3-319-56430-2_34
ER  - 

@conference{
author = "Simeunović, J.P. and Gadjanski, I. and Janićijević, Ž. and Janković, M.M. and Barjaktarović, Marko and Janković, Novica and Čantrak, Đorđe",
year = "2017",
abstract = "The article presents the process of fabrication of the microfluidic chip to be used with the do-it-yourself (DIY) micro-PIV system previously made and compared to the classic PIV setup. This pilot study is an example of research being conducted in the Scientific fab lab (fabrication laboratory), founded at the Faculty of Mechanical Engineering, University of Belgrade. Fab labs and DIY principle are becoming more and more accepted by the scientific community and this article aims to contribute to such trend.",
publisher = "Springer Heidelberg",
journal = "Lecture Notes in Mechanical Engineering",
title = "Microfluidic chip fabrication for application in low-cost DIY microPIV",
pages = "459-451",
doi = "10.1007/978-3-319-56430-2_34"
}

Simeunović, J.P., Gadjanski, I., Janićijević, Ž., Janković, M.M., Barjaktarović, M., Janković, N.,& Čantrak, Đ.. (2017). Microfluidic chip fabrication for application in low-cost DIY microPIV. in Lecture Notes in Mechanical Engineering
Springer Heidelberg., 451-459.
https://doi.org/10.1007/978-3-319-56430-2_34

Simeunović J, Gadjanski I, Janićijević Ž, Janković M, Barjaktarović M, Janković N, Čantrak Đ. Microfluidic chip fabrication for application in low-cost DIY microPIV. in Lecture Notes in Mechanical Engineering. 2017;:451-459.
doi:10.1007/978-3-319-56430-2_34 .

Simeunović, J.P., Gadjanski, I., Janićijević, Ž., Janković, M.M., Barjaktarović, Marko, Janković, Novica, Čantrak, Đorđe, "Microfluidic chip fabrication for application in low-cost DIY microPIV" in Lecture Notes in Mechanical Engineering (2017):451-459,
https://doi.org/10.1007/978-3-319-56430-2_34 . .

TY  - CONF
AU  - Jović, A.
AU  - Janicijević, Z.
AU  - Janković, M.M.
AU  - Janković, Novica
AU  - Barjaktarović, Marko
AU  - Čantrak, Đorđe
AU  - Gadjanski, I.
PY  - 2017
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2673
AB  - This paper describes the first steps towards a union of low-cost 'Shrinky Dink' (SD) microfluidic chip fabrication with low-cost do-it-yourself (DIY) micro-PIV. The SD microfluidic chip fabrication technique enables rapid development of complex designs using inexpensive materials and reagents, while abrogating the need for a cleanroom. DIY microPIV system provides a low-cost means of accurate flow profile analysis in microchannels, comparable to high-cost, standard microPIV setups. Initially, a simple microfluidic design of a T-junction was created and several chips with the same design were fabricated by the SD technique. We used COMSOL Multiphysics Creeping Flow interface to simulate the flow profiles in the obtained channel geometry. The next step will be to experimentally verify these simulations using our DIY microPIV system, in order to confirm the potential of combined use of these two cost-effective systems, to rapidly produce and analyze microfluidic designs, thereby enabling greater accessibility to these methods in labs with limited resources. It is envisioned that the systems described here can be effectively employed for a wide array of applications in biophysics, fluid mechanics, and bioengineering.
PB  - Institute of Electrical and Electronics Engineers Inc.
C3  - Proceedings of 2017 IEEE East-West Design and Test Symposium, EWDTS 2017
T1  - Simulating fluid flow in 'Shrinky Dink' microfluidic chips - Potential for combination with low-cost DIY microPIV
DO  - 10.1109/EWDTS.2017.8110052
ER  - 

@conference{
author = "Jović, A. and Janicijević, Z. and Janković, M.M. and Janković, Novica and Barjaktarović, Marko and Čantrak, Đorđe and Gadjanski, I.",
year = "2017",
abstract = "This paper describes the first steps towards a union of low-cost 'Shrinky Dink' (SD) microfluidic chip fabrication with low-cost do-it-yourself (DIY) micro-PIV. The SD microfluidic chip fabrication technique enables rapid development of complex designs using inexpensive materials and reagents, while abrogating the need for a cleanroom. DIY microPIV system provides a low-cost means of accurate flow profile analysis in microchannels, comparable to high-cost, standard microPIV setups. Initially, a simple microfluidic design of a T-junction was created and several chips with the same design were fabricated by the SD technique. We used COMSOL Multiphysics Creeping Flow interface to simulate the flow profiles in the obtained channel geometry. The next step will be to experimentally verify these simulations using our DIY microPIV system, in order to confirm the potential of combined use of these two cost-effective systems, to rapidly produce and analyze microfluidic designs, thereby enabling greater accessibility to these methods in labs with limited resources. It is envisioned that the systems described here can be effectively employed for a wide array of applications in biophysics, fluid mechanics, and bioengineering.",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
journal = "Proceedings of 2017 IEEE East-West Design and Test Symposium, EWDTS 2017",
title = "Simulating fluid flow in 'Shrinky Dink' microfluidic chips - Potential for combination with low-cost DIY microPIV",
doi = "10.1109/EWDTS.2017.8110052"
}

Jović, A., Janicijević, Z., Janković, M.M., Janković, N., Barjaktarović, M., Čantrak, Đ.,& Gadjanski, I.. (2017). Simulating fluid flow in 'Shrinky Dink' microfluidic chips - Potential for combination with low-cost DIY microPIV. in Proceedings of 2017 IEEE East-West Design and Test Symposium, EWDTS 2017
Institute of Electrical and Electronics Engineers Inc...
https://doi.org/10.1109/EWDTS.2017.8110052

Jović A, Janicijević Z, Janković M, Janković N, Barjaktarović M, Čantrak Đ, Gadjanski I. Simulating fluid flow in 'Shrinky Dink' microfluidic chips - Potential for combination with low-cost DIY microPIV. in Proceedings of 2017 IEEE East-West Design and Test Symposium, EWDTS 2017. 2017;.
doi:10.1109/EWDTS.2017.8110052 .

Jović, A., Janicijević, Z., Janković, M.M., Janković, Novica, Barjaktarović, Marko, Čantrak, Đorđe, Gadjanski, I., "Simulating fluid flow in 'Shrinky Dink' microfluidic chips - Potential for combination with low-cost DIY microPIV" in Proceedings of 2017 IEEE East-West Design and Test Symposium, EWDTS 2017 (2017),
https://doi.org/10.1109/EWDTS.2017.8110052 . .

TY  - CONF
AU  - Janković, Novica
AU  - Barjaktarović, Marko
AU  - Janković, Milica M.
AU  - Čantrak, Đorđe
PY  - 2016
UR  - https://machinery.mas.bg.ac.rs/handle/123456789/2422
AB  - Particle image velocimetry (PIV) is an optical, laser based, measurement of fluid velocity and its 2D/3D visualisation. We have presented a new approach in low-cost PIV design using: 1) fast industrial camera, 2) laser pointer, with cylindrical lens for continual fluid flow illumination, 3) acquisition software developed in house, 4) OpenPIV analysis software. Velocity was measured in the glass jar where swirl flow was generated by magnetic stirrer. In this pilot study, results obtained by calibration device based on Laser Doppler anemometry and our PIV results are in good agreement.
PB  - IEEE, New York
C3  - 2016 24th Telecommunications Forum (Telfor)
T1  - First steps in new affordable PIV measurements
EP  - 781
SP  - 778
DO  - 10.1109/TELFOR.2016.7818896
ER  - 

@conference{
author = "Janković, Novica and Barjaktarović, Marko and Janković, Milica M. and Čantrak, Đorđe",
year = "2016",
abstract = "Particle image velocimetry (PIV) is an optical, laser based, measurement of fluid velocity and its 2D/3D visualisation. We have presented a new approach in low-cost PIV design using: 1) fast industrial camera, 2) laser pointer, with cylindrical lens for continual fluid flow illumination, 3) acquisition software developed in house, 4) OpenPIV analysis software. Velocity was measured in the glass jar where swirl flow was generated by magnetic stirrer. In this pilot study, results obtained by calibration device based on Laser Doppler anemometry and our PIV results are in good agreement.",
publisher = "IEEE, New York",
journal = "2016 24th Telecommunications Forum (Telfor)",
title = "First steps in new affordable PIV measurements",
pages = "781-778",
doi = "10.1109/TELFOR.2016.7818896"
}

Janković, N., Barjaktarović, M., Janković, M. M.,& Čantrak, Đ.. (2016). First steps in new affordable PIV measurements. in 2016 24th Telecommunications Forum (Telfor)
IEEE, New York., 778-781.
https://doi.org/10.1109/TELFOR.2016.7818896

Janković N, Barjaktarović M, Janković MM, Čantrak Đ. First steps in new affordable PIV measurements. in 2016 24th Telecommunications Forum (Telfor). 2016;:778-781.
doi:10.1109/TELFOR.2016.7818896 .

Janković, Novica, Barjaktarović, Marko, Janković, Milica M., Čantrak, Đorđe, "First steps in new affordable PIV measurements" in 2016 24th Telecommunications Forum (Telfor) (2016):778-781,
https://doi.org/10.1109/TELFOR.2016.7818896 . .