Розробка програмного забезпечення для автоматизованого визначення крайових кутів змочування.
Ключові слова:
змочування, крайові кути змочування, інтерполяція Лагранжа
Анотація
Досліджено питання автоматизації обробки цифрових графічних даних експериментів по високотемпературному змочуванню. Розроблено простий та ефективний алгоритм оцифровки профілю лежачої краплі та визначення крайового кута змочування. Отримане програмне забезпечення використано для обробки результатів експериментів.
Посилання
Xi, Lixia & Wang, Pei & K G, Prashanth & Li, Haichao & Prykhodko, H.V. & Scudino, Sergio. (2019). Effect of TiB2 particles on microstructure and crystallographic texture of Al-12Si fabricated by selective laser melting. Journal of Alloys and Compounds. 786. 10.1016/j.jallcom.2019.01.327.
Greer, A.. (2016). Overview: Application of heterogeneous nucleation in grain-refining of metals. The Journal of Chemical Physics. 145. 211704. 10.1063/1.4968846.
Drop shape analyzers [Electronic resource] : [List of laboratory equipment]. – Hamburg: KRÜSS GmbH, 2013-2015. – Access mode: https://www.kruss-scientific.com/products/high-temperature/drop-shape-analyzer-dsa-high-temperature/ (Revision Date 11.12.2019) – The title from the screen.
L. Liggieri & A. Passerone (1989) An automatic technique for measuring the surface tension of liquid metals, High Temperature Technology, 7:2, 82-86, DOI: 10.1080/02619180.1989.11753417
Levitskaya T.A. Development of a software package for processing a digital image of a sessile drop in studies of the surface properties of melts / T.A. Levitskaya // Information processing systems. - 2015. - №10. - С. 219-221
Instrumentation of Centre for high temperature studies [Electronic resource]: [List of laboratory equipment], Foundry Research Institute – https://iod.krakow.pl/wp-content/uploads/2018/10/katalog-_EN.pdf Page 38. (date of appeal 11.12.2019) – The title from the screen.
Wettability and Reactivity of liquid Gd in contact with Al2O3 Ceramics [Electronic resource]: [Contact Heating demonstration] / Foundry Research Institute // YouTube. – Access mode: https://www.youtube.com/watch?v=2c-Wj6YrmNk – The title from the screen. – Date of publication: 21.11.2017. – Revision Date: 11.12.2019.
Wettability tests of liquid AM60 alloy on steel-1H18N8T substrate (capillary purification procedure) [Electronic resource]: [Capillary Purification demonstration ] / Foundry Research Institute // YouTube. – Access mode: https://www.youtube.com/watch?v=W-7fXYTquD0 – The title from the screen. – Date of publication: 6.09.2017. – Revision Date: 11.12.2019.
Lytvyn M. Software for determination of surface tension with sessile drop method // TASK QUARTERLY vol. 21, No 1, 2017, pp. 65–76
Kiselev M.G. Determination of the wetting angle on flat surfaces / M.G. Kiselev, V.V. Savich, T.P. Pavich // Bulletin of the Belarusian National Technical University. 2006. № 1. С. 38-41.
Marchuk. I.V. Determination of surface tension and contact angle of wetting by the surface shape of axisymmetric bubbles and drops / I.V. Marchuk, V.V. Cheverda, P.A. Strizhak, O.A. Kabov // Thermophysics and Aeromechanics, 2015, Volume 22, No. 3. S.311-317
Del Río O.I., Neumann A.W. Axisymmetric drop shape analysis: computational methods for the measurement of interfacial properties from the shape and dimensions of pendant and sessile drops // J. of Colloid and Interface Sci. 1997. Vol. 196, No. 2. P. 136−147.
Zholob S.A., Makievski A.V., Miller R., Fainerman V.B. Optimisation of calculation methods for determination of surface tensions by drop profile analysis tensiometry // Advances in Colloid and Interface Science. 2007. № 134, 135. P. 322−329.
Greer, A.. (2016). Overview: Application of heterogeneous nucleation in grain-refining of metals. The Journal of Chemical Physics. 145. 211704. 10.1063/1.4968846.
Drop shape analyzers [Electronic resource] : [List of laboratory equipment]. – Hamburg: KRÜSS GmbH, 2013-2015. – Access mode: https://www.kruss-scientific.com/products/high-temperature/drop-shape-analyzer-dsa-high-temperature/ (Revision Date 11.12.2019) – The title from the screen.
L. Liggieri & A. Passerone (1989) An automatic technique for measuring the surface tension of liquid metals, High Temperature Technology, 7:2, 82-86, DOI: 10.1080/02619180.1989.11753417
Levitskaya T.A. Development of a software package for processing a digital image of a sessile drop in studies of the surface properties of melts / T.A. Levitskaya // Information processing systems. - 2015. - №10. - С. 219-221
Instrumentation of Centre for high temperature studies [Electronic resource]: [List of laboratory equipment], Foundry Research Institute – https://iod.krakow.pl/wp-content/uploads/2018/10/katalog-_EN.pdf Page 38. (date of appeal 11.12.2019) – The title from the screen.
Wettability and Reactivity of liquid Gd in contact with Al2O3 Ceramics [Electronic resource]: [Contact Heating demonstration] / Foundry Research Institute // YouTube. – Access mode: https://www.youtube.com/watch?v=2c-Wj6YrmNk – The title from the screen. – Date of publication: 21.11.2017. – Revision Date: 11.12.2019.
Wettability tests of liquid AM60 alloy on steel-1H18N8T substrate (capillary purification procedure) [Electronic resource]: [Capillary Purification demonstration ] / Foundry Research Institute // YouTube. – Access mode: https://www.youtube.com/watch?v=W-7fXYTquD0 – The title from the screen. – Date of publication: 6.09.2017. – Revision Date: 11.12.2019.
Lytvyn M. Software for determination of surface tension with sessile drop method // TASK QUARTERLY vol. 21, No 1, 2017, pp. 65–76
Kiselev M.G. Determination of the wetting angle on flat surfaces / M.G. Kiselev, V.V. Savich, T.P. Pavich // Bulletin of the Belarusian National Technical University. 2006. № 1. С. 38-41.
Marchuk. I.V. Determination of surface tension and contact angle of wetting by the surface shape of axisymmetric bubbles and drops / I.V. Marchuk, V.V. Cheverda, P.A. Strizhak, O.A. Kabov // Thermophysics and Aeromechanics, 2015, Volume 22, No. 3. S.311-317
Del Río O.I., Neumann A.W. Axisymmetric drop shape analysis: computational methods for the measurement of interfacial properties from the shape and dimensions of pendant and sessile drops // J. of Colloid and Interface Sci. 1997. Vol. 196, No. 2. P. 136−147.
Zholob S.A., Makievski A.V., Miller R., Fainerman V.B. Optimisation of calculation methods for determination of surface tensions by drop profile analysis tensiometry // Advances in Colloid and Interface Science. 2007. № 134, 135. P. 322−329.
Опубліковано
2019-12-31
Як цитувати
ПриходькоO., & Приходько, Г. (2019). Розробка програмного забезпечення для автоматизованого визначення крайових кутів змочування . КОМП’ЮТЕРНО-ІНТЕГРОВАНІ ТЕХНОЛОГІЇ: ОСВІТА, НАУКА, ВИРОБНИЦТВО, (37), 106-110. https://doi.org/10.36910/6775-2524-0560-2019-37-15
Розділ
Автоматика та управління
