Effect of Nature and Amount of Polypropylene Composite Filler on the Productivity of Extruder with the Cylinder Equipped with Grooves

Krasinskyi, Volodymyr; Moravskyi, Volodymyr; Suberlyak, Oleh; Sikora, Janusz W.; Jachowicz, Tomasz

doi:10.12913/22998624/114960

Artykuł - szczegóły

Tytuł artykułu

Effect of Nature and Amount of Polypropylene Composite Filler on the Productivity of Extruder with the Cylinder Equipped with Grooves

Autorzy

Krasinskyi Volodymyr , Moravskyi Volodymyr , Suberlyak Oleh , Sikora Janusz W. , Jachowicz Tomasz

Treść / Zawartość

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Identyfikatory

DOI

10.12913/22998624/114960

Warianty tytułu

Języki publikacji

Abstrakty

The effect of grooves number in the feed section and screw length as well as filler nature and content on the productivity of single-screw extruder has been examined. Compositions based on polypropylene with glass fibers, talc and chalk were used for research. It is established that the number of grooves in the feed section and the length of the screw differently affect the productivity of a single screw extruder depending on the nature and content of the filler. This effect is shown to be most significant for polypropylene compositions with mineral powders (talc and chalk).

Słowa kluczowe

extrusion polypropylene filler extruder screw barrel design active grooved feed section

wytłaczanie polipropylen wypełniacz wytłaczarka ślimak konstrukcja beczki aktywny rowek podający

Wydawca

Lublin University of Technology
Polish Society of Ecological Engineering (PTIE), Branch of PTIE in Lublin

Czasopismo

Advances in Science and Technology. Research Journal

Rocznik

2019

Tom

Vol. 13, no 4

Strony

264--269

Opis fizyczny

Bibliogr. 17 poz., fig., tab.

Twórcy

autor

Krasinskyi Volodymyr

Lviv Polytechnic National University, Department of Chemical Technology and Plastics Processing, Bandera 12 St., 79013 Lviv, Ukraine, e-mail: vkrasinsky82@gmail.com

autor

Moravskyi Volodymyr

Lviv Polytechnic National University, Department of Chemical Technology and Plastics Processing, Bandera 12 St., 79013 Lviv, Ukraine, e-mail: vkrasinsky82@gmail.com

autor

Suberlyak Oleh

Lviv Polytechnic National University, Department of Chemical Technology and Plastics Processing, Bandera 12 St., 79013 Lviv, Ukraine, e-mail: vkrasinsky82@gmail.com

autor

Sikora Janusz W.

Lublin University of Technology, Faculty of Mechanical Engineering, Department of Polymer Processing, Nadbystrzycka 36 St. , 20-618 Lublin, Poland

autor

Jachowicz Tomasz

t.jachowicz@pollub.pl

Lublin University of Technology, Faculty of Mechanical Engineering, Department of Polymer Processing, Nadbystrzycka 36 St. , 20-618 Lublin, Poland

Bibliografia

1. Alfaro J.A.A., Grünschloß E., Epple S., Bonten C. Analysis of a Single Screw Extruder with a Grooved Plasticating Barrel – Part I: The Melting Model. International Polymer Processing, 2015, 30 (2), 284–296.
2. Donovan R.C. A theoretical melting model for plasticating extruders. Polymer Engineering and Science, 1971, 11 (3), 247–257.
3. Gaspar-Cunha A., Covas J.A. The plasticating sequence in barrier extrusion screws part I: Modeling. Polymer Engineering & Science, 2013, 54 (8), 1791–1803.
4. Gaspar-Cunha A., Covas J.A. The Plasticating Sequence in Barrier Extrusion Screws Part II: Experimental Assessment. Polymer-Plastics Technology and Engineering, 2014, 53 (14), 1456–1466.
5. Głogowska K., Sikora J.W., .Majewski Ł. New concepts for the active grooved-feed section extruder. Industry 4.0, 2019, 4 (5), 237–240.
6. Gramann P.J., Rauwendaal C., Osswald T.A. and Tellez G. Kinematics of Flow in Single Screw Extruders. International Polymer Processing, 1999, 8 (4), 327–333.
7. Lafleur P.G. and Vergnes B. Single-Screw Extrusion in Polymer Extrusion, 2014, 37–108.
8. Long P., Minguin J., Ping X., Zhiming J. The solids conveying mechanism for helically grooved single-screw extruders. Journal of Wuhan University of Technology-Mater. Sci. Ed., 2013, 28 (4), 693–700.
9. Mikulionok I.O. Screw extruder mixing and dispersing units. Chemical and Petroleum Engineering, 2013, 49 (1-2), 103–109.
10. Noriega M.P., Osswald T.A. and Ferrier N.J. In-Line Measurement of the Polymer Melting Behavior in Single Screw Extruders. Journal of Polymer Engineering, 2004, 24 (6), 557–578.
11. Osswald T.A., Noriega M.D., Gramann P.J. and Davis B.A. Grooved Feed Single Screw Extruders. Polymer Engineering & Science, 1998, 38 (7), 1199–1204.
12. Peng F., Vogt B.D. and Cakmak M. Complex flow and temperature history during melt extrusion in material extrusion additive manufacturing. Additive Manufacturing, 2018, 22, 197–206.
13. Rautenbach R, Peiffer H. Model Calculation for the Design of the Grooved Feed Section of Single-screw Extruders. Kunststoffe-German plastics, 1982, 72 (3), 6–11.
14. Rauwendaal C., Sikora J. The Adjustable Grooved Feed Extruder. Plastics Additives & Compounding, 2000, 2 (6), 26–30.
15. Rauwendaal C. Polymer extrusion. Munich: Carl Hanser Verlag, 2014, 950.
16. Sikora J.W., Samujlo B., Stasiek A, Tor-Świątek A. The Mechanical Properties of Plasticized PVC Processed in an Extruder with a Modified Feed Zone. International Polymer Processing, 2015, 30 (3), 359–365.
17. Wilczyński K., Nastaj A., Wilczyński K.J. Melting Model for Starve Fed Single Screw Extrusion of Thermoplastics. International Polymer Processing, 2013, 28 (1), 34–42.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-144456da-e256-48fe-a795-1564d224ed39