Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2019, , 674 - 678, 31.12.2019
https://doi.org/10.35229/jaes.655237

Öz

Proje Numarası

TOVAG 1130254

Kaynakça

  • Arvanitoyannis, I., Biliaderis, C.G., Ogawab, H., Kawasaki, N. (1998). “Biodegradable films made from low-density polyethylene (LDPE), rice starch and potato starch for food packaging applications: Part 1”. Carbohydrate Polymers, 36, 89- 104.
  • Averous, L., Pollet, E. (2012). “Biodegradable polymers”, Environmental Slicate Nano-Biocomposites, eds: Averous, L. and Pollet, E., Springer-Verlag London.
  • Inman, H. (2010). “Who said “Potato”?”, Starch-Based Thermoplastics, 66,4, 42-44.
  • Hanna, M.A., XU, Y. (2009). “Starch-Fiber Composites”, Biodegradable Polymer Blends and Composites from Renewable Resources, ed:Yu, L., Wiley, Hoboken-New Jersey.
  • Davis, G., Song, J.H. (2006). “Biodegradable packaging based on raw materials from crops and their impact on waste management”, Industrial Crops and Products, 23, 147–161.
  • Gorrasi, G., Pantani, R. (2013). “Effect of PLA grades and morphologies on hydrolytic degradation at composting temperature: assessment of structural modification and kinetic parameters”, Polymer Degradation and Stability, DOI: 10.1016/j. polymdegradstab.
  • Kolybaba, M. , Tabil, L.G., Panigrahi, S., Crerar, W.J., Powell, T., Wang, B. (2003). “Biodegradable Polymers: Past, Present, and Future”, CSAE/ASAE Annual Intersectional Meeting Sponsored by the Red River Section of ASAE Quality Inn & Suites 301 3rd Avenue North Fargo, North Dakota, USA October 3-4.
  • Laohakunjit, N., Noomhorm, A. (2004). “Effects of plasticizers on mechanical and barrier properties of rice starch film”. Starch/Staerke, 56, 348-356.
  • Leja, K., Lewandowicz, G.(2010). “Polymer Biodegradation and Biodegradable Polymers – a Review”, Polish J. of Environ. Stud., 19,2, 255-266.
  • Van de velde, K., Kiekens, P. (2002). “Biopolymers: overwiev of several properties and consequences on their applications”. Polymer Testing. 21 (4), 433–442.
  • Viera, A.C., Viera, J.C. Ferra, J.M., Magalhaes, F.D., Guedes, R.M., Marques, A.T. (2011). “Mechanical Study of PLA-PCL Fibers during In Vitro Degradation”, J. Mech Behay Biomed Mater, 4, 3, 451-460.
  • Walenta, E., Fink, H.P., Weigel, P., Ganster, J. (2001). “Structure-Property Relationships in Extruded Starch, 1 Supermolecular Structure of Pea Amylose and Extruded Pea Amylose”. Macromol Mater. Eng., 286, 456-461.
  • Walenta, E., Fink, H.P., Weigel, P., Ganster, J. (2001). “Structure-Property Relationships in Extruded Starch, 2 Extrusion Products from Native Starch”, Macromol. Mater. Eng., 286, 462-471.
  • Yu, L., Chen, L., (2009). “Polymeric materials from renewable resources”, Biodegradable polymer blends and composites from renewable resources, ed: Yu, L., Wiley Hoboken, New Jersey.
  • Zhang, Y., Han, J.H. (2006). “Mechanical and thermal characteristics of pea starch films plasticized with monosaccharide and polyols”. J. Food Sci, 71, 2, E109-118.

Gel Permeative Chromatography (GPC) Analysis of Polycaprolactone (PCL) Based Biodegradable Composites through Laboratory Soil Test

Yıl 2019, , 674 - 678, 31.12.2019
https://doi.org/10.35229/jaes.655237

Öz

Biodegradability is an important asset for a polymer for their acceptance by the society due to the increased environmental awareness people over the years. In this study, Polycaprolactone (PCL) based biocomposites were produced using PCL, polyvinyl alcohol (PVA)/Starch mixture and polyethylene (PE) as a polymeric matrix and Turkish Red Pine Pruning waste flours (RPWF) a lignocellulosic filler. Biocomposites were manufactured through combination of extruder and injection molding processes. Forest soil was collected from arid regions of Konya and transferred to Laboratory. During 18 Months of soil test, degradation of PCL was monitored using Gel Permeative Chromatography (GPC) . Results showed major factor on GPC results were RPWF and degradation time. Especially at higher level of lignocellulosic filler use, there is a linear relation between filler and degradation time.

Destekleyen Kurum

TUBİTAK

Proje Numarası

TOVAG 1130254

Teşekkür

This research was supported by The Scientific & Technological Research Council of Turkey (Project # TOVAG 113O254).

Kaynakça

  • Arvanitoyannis, I., Biliaderis, C.G., Ogawab, H., Kawasaki, N. (1998). “Biodegradable films made from low-density polyethylene (LDPE), rice starch and potato starch for food packaging applications: Part 1”. Carbohydrate Polymers, 36, 89- 104.
  • Averous, L., Pollet, E. (2012). “Biodegradable polymers”, Environmental Slicate Nano-Biocomposites, eds: Averous, L. and Pollet, E., Springer-Verlag London.
  • Inman, H. (2010). “Who said “Potato”?”, Starch-Based Thermoplastics, 66,4, 42-44.
  • Hanna, M.A., XU, Y. (2009). “Starch-Fiber Composites”, Biodegradable Polymer Blends and Composites from Renewable Resources, ed:Yu, L., Wiley, Hoboken-New Jersey.
  • Davis, G., Song, J.H. (2006). “Biodegradable packaging based on raw materials from crops and their impact on waste management”, Industrial Crops and Products, 23, 147–161.
  • Gorrasi, G., Pantani, R. (2013). “Effect of PLA grades and morphologies on hydrolytic degradation at composting temperature: assessment of structural modification and kinetic parameters”, Polymer Degradation and Stability, DOI: 10.1016/j. polymdegradstab.
  • Kolybaba, M. , Tabil, L.G., Panigrahi, S., Crerar, W.J., Powell, T., Wang, B. (2003). “Biodegradable Polymers: Past, Present, and Future”, CSAE/ASAE Annual Intersectional Meeting Sponsored by the Red River Section of ASAE Quality Inn & Suites 301 3rd Avenue North Fargo, North Dakota, USA October 3-4.
  • Laohakunjit, N., Noomhorm, A. (2004). “Effects of plasticizers on mechanical and barrier properties of rice starch film”. Starch/Staerke, 56, 348-356.
  • Leja, K., Lewandowicz, G.(2010). “Polymer Biodegradation and Biodegradable Polymers – a Review”, Polish J. of Environ. Stud., 19,2, 255-266.
  • Van de velde, K., Kiekens, P. (2002). “Biopolymers: overwiev of several properties and consequences on their applications”. Polymer Testing. 21 (4), 433–442.
  • Viera, A.C., Viera, J.C. Ferra, J.M., Magalhaes, F.D., Guedes, R.M., Marques, A.T. (2011). “Mechanical Study of PLA-PCL Fibers during In Vitro Degradation”, J. Mech Behay Biomed Mater, 4, 3, 451-460.
  • Walenta, E., Fink, H.P., Weigel, P., Ganster, J. (2001). “Structure-Property Relationships in Extruded Starch, 1 Supermolecular Structure of Pea Amylose and Extruded Pea Amylose”. Macromol Mater. Eng., 286, 456-461.
  • Walenta, E., Fink, H.P., Weigel, P., Ganster, J. (2001). “Structure-Property Relationships in Extruded Starch, 2 Extrusion Products from Native Starch”, Macromol. Mater. Eng., 286, 462-471.
  • Yu, L., Chen, L., (2009). “Polymeric materials from renewable resources”, Biodegradable polymer blends and composites from renewable resources, ed: Yu, L., Wiley Hoboken, New Jersey.
  • Zhang, Y., Han, J.H. (2006). “Mechanical and thermal characteristics of pea starch films plasticized with monosaccharide and polyols”. J. Food Sci, 71, 2, E109-118.
Toplam 15 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Makaleler
Yazarlar

Fatih Mengeloğlu 0000-0002-2614-3662

Engin Derya Gezer 0000-0001-9657-7290

Kadir Karakus 0000-0001-7088-4364

İlkay Atar 0000-0001-9527-1791

Halil İbrahim Başboğa 0000-0002-3272-7269

Fatma Bozkurt 0000-0001-9323-6095

Proje Numarası TOVAG 1130254
Yayımlanma Tarihi 31 Aralık 2019
Gönderilme Tarihi 5 Aralık 2019
Kabul Tarihi 23 Aralık 2019
Yayımlandığı Sayı Yıl 2019

Kaynak Göster

APA Mengeloğlu, F., Gezer, E. D., Karakus, K., Atar, İ., vd. (2019). Gel Permeative Chromatography (GPC) Analysis of Polycaprolactone (PCL) Based Biodegradable Composites through Laboratory Soil Test. Journal of Anatolian Environmental and Animal Sciences, 4(4), 674-678. https://doi.org/10.35229/jaes.655237


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