Preparation and characterization of potato crust-based polyurethane foam-I

Tülay Gürsoy; M. Alma; Ertuğrul Altuntaş; Eyyüp Karaoğul

doi:10.32571/ijct.1368742

Araştırma Makalesi

Preparation and characterization of potato crust-based polyurethane foam-I

Yıl 2023, Cilt: 7 Sayı: 2, 204 - 214, 31.12.2023

Tülay Gürsoy M. Alma Ertuğrul Altuntaş Eyyüp Karaoğul

https://doi.org/10.32571/ijct.1368742

Öz

Polyurethanes (PUs) are polymers obtained by reacting diisocyanates with a group of polyols. The first synthesized PU compounds were prepared using petroleum subproduct compounds. In this research study, biomass-containing polyols, which have been studied by other scientists, were prepared using potato crust and polymerized with diisocyanates to produce PU foam. Polyol reactions were carried out using the microwave heating method. Synthesis reactions and structural properties of polyols have been studied in many aspects. The most available polyol was used for PU synthesis. Different formulations were tried for PU synthesis and as a result, PU foam containing nearly 25% starch-polyol was synthesized. The chemical structure of PU polymer was identified by ATR-FTIR spectroscopy and crystallographic properties by WA-XRD analysis. The physical and mechanical properties of PU foam, which is used as a large number of building and construction materials, including thermal insulation materials, were evaluated by comparing them with a commercial PU foam.
According to the results of our research, it was detected that the incorporation of biomass into the structure of PU polymer improved its density, heat conduction coefficient, pressure based mechanical properties. PU foam derived from potato waste has a WA XRD-ray diffraction peak between 13.1-28.5o. This data is between 12.5-23o in synthetic commercial foam and has been positively improved in the product we synthesized as a result of combining biomass into the structure. The synthesized biomass-based PU foam can be used as thermal insulation material. Biomass-based PU foam has been synthesized with features that can be used as a thermal insulation material.

Anahtar Kelimeler

Biomass, polyol, polyurethane foam, characterization

Etik Beyan

I declare that there is no a conflict of interest with any person, institute, company etc.

Destekleyen Kurum

Van Yüzüncü Yıl University Scientific Search Project Department

Proje Numarası

2013- FBE-D060

Teşekkür

We are grateful for the financial support provided for this research by Van Yüzüncü Yıl University Scientific Search Project Department (2013- FBE-D060).

Kaynakça

1. http://pagev.org/poliuretanlar/ (accessed September 12, 2023)
2.http://emagen.gov.tr/poliuretan-nedir/ (accessed September 12, 2023)
3.Hu, S.; Li, Y.; Industrial Crops and Products. 2014, 57, 188-194.
4.Philips, L. N., and Parker, D. B. V. (1965). Polyurethanes Chemistry, Technology and Properties. Ilife Books Ltd., London.
5.Ferrigno, T.H. Rigid Plastics Foams. Second Edition. Reinhold Publishing Corp./ Chapman-Reinhold. Newyork, NY, 1967; p.146.
6.Zheng, Z.; Pan, H.; Huang, Y.; Chung, Y. H.; Zhang, X.; Feng, H. The Open Materials Science Journal 2011, 5, 1-8.
7.Guelcher, S. A.; Patel, V.; Gallagher, K. M.; Connolly, S.; Didier, J. E.; Doctor, J. S. 2006. Tissue Eng. 2006, 12(5): 1247-1259.
8.Rai, M.; Yadav, A.; Gade, A. Biotechnol. Adv. 2009, 27(1):76-83.
9.Lemos, V.A.; Santos, M.S.; Santos, E.S.; Santos, M.J.S.; dos Santos, W.N.L. Spectrochimica Acta Part B, 2007, 62, 4-12.
10.http://kimpur.com/tr/poliuretan-nedir/ (accessed September 12, 2023)
11.Luo, X.; Hu, S.; Zhang, X.; Li, Y. Bioresource Technology. 2013, 139(2013): 323-329.
12.Serrano, L.; Rincon, E.; Rodriguez, J.; Briones, R. Polymers. 2020, 12, 1-13.
13.Zhang, Q.; Lin, X.; Chen, W.; Zhang, H.; Han, D. Polymers. 2020, 12(107):1-10.
14. Furtwengler, P.; Averous, L. Polymer Chemistry. 2018, 32, 4253-4318.
15.Ma, Y.; Xiao, Y.; Zhao, Y.; Bei, Y.; Hu, L.; Zhou, Y.; Jia, P. Reactive and Functional Polymers, 2022, 175, 105285.
16.Briones, R.; Serrano, L.; Labidi, J. J. Chem. Technol. Biotechnol. 2012, 87, 244-249.
17.Lee, S.H.; Yoshioka, M.; Shiraishi, N. J.Appl. Polym. Sci. 2000, 78, 319-325.
18.Ge, J.; Zhang, W.; Li, W.; Sakai, K. Journal of Applied Polymer Science, 2000, 77, 2575-2580.
19.Zlatic, A.; Lava, C.; Zhang, W.; Petrovic, Z.S. J.Polym. Sci. Polym. Phys. 2004, 42, 809-819.
20.Walfson, A.; Litvak, G.; Dlugy, C.; Shotland, Y.; Tavor, D. Int. Crop. Prod. 2009, 30, 80-81
21.http://www.ozcankimya.com/detay.phd?id=71 (accessed September 12, 2023)
22.Alma, M. H.; Baştürk M. A.; Dıgrak, M. Journal of Materials Letters. 2003, 22, 1225-1228.
23.Yamada, T. Mokuzai Gakkaishi, 1996, 42: 1098-1104.
24.Ugarte, L.; Saralegi, A.; Fernandez, R.; Martin, L.; Corcuera, M.A.; Eceiza, A. Industrial Crops and Products, 2014, 62: 545-551.
25.Goheen, M.S.; Wool, R.P. J. Appl. Polym. Sci. 1991, 42(10): 2691-2701.
26.Pan, H.; Zheng, Z.; Chung, Y. H. Eur. J. Wood and Wood Prod. 2011, 70(4), 461-470.
27. Pu, S.; Shiraishi N. Journal -Japan Wood Research Society, 1993, 39, 446-452.
28.Fidan, M.S., and Ertaş, M., Bioresorces, 2020, 15(3), 6061-6079.
29.Pu, S., and Shiraishi N. Journal of the Japan Wood Research Society, 1994, 40.8: 824-829.
30.Yao, Y.; Yoshioka, M.; Shiraishi, N. J. Appl Polym Sci 1996, 60(11), 1939-1949.
31.Pu, S., and Shiraishi N. Journal of the Japan Wood Research Society, 1994, 40.8: 824-829.
32.Wang, M.; Zhang, X.; Zhang W.; Tian, D.; Lu, C. Journal of applied polymer science, 2013, 128.6: 3555-3563.
33.Chen, Fangeng, and Zhuomin Lu. Journal of Applied Polymer Science, 2009, 111.1: 508-516.
34. Xie, J.; Zhai, X.; Hse, C. Y.; Shupe, T. F.; Pan, H. Materials, 2015, 8.12: 8496-8509. 35. Hakim A.A.A., Nassar M., Emam A., Sultan M. Material Chemistry and Physics, 2011, 129.1-1: 301-307.
36.Huang, X. Y.; Qi, J. Q.; Hoop, C. F.; Xie, J. L.; Chen, Y. Z. Bioresources, 2017a, 12(4): 8160-8179.
37.Huang, X. Y.; Li, F.; Xie, J. L.; Hoop, C. F.; Hse, C. Y.; Qi, J. Q.; Xiao, H. Bioresources, 2017b, 12(1), 1968-1981.
38.Wang,T.P.; Pang, H.; Zhang, L.; Chen, X.D.; Mao, Z.H. Chemical Engineering Research and Design, 2008, 86.4: 416-421.
39.Wang, Y.; Tian H.; Zhang, L. Carbohydrate Polymers, 2010, 80.3: 665-671.
40.Trovati, G.; Sanches, E.A.; Neto, S.C. Journal of Applied Polymer Science, 2010, 115.1: 263-268.
41.Zou, J.; Zhang, F.; Huang, J.; Chang, P.R.; Su, Z.; Yu, J. Carbohydrate Polymers, 2011, 85.4: 824-831.
42.Savelyev, Y.; Veselov, V.; Markovskaya, L.; Savelyeva, O.; Akhranovich, E.; Galatenko, N.; Robota, L.; Travinskaya, T. Materials Science and Engineering: C, 2014, 45: 127-135.
43.Zhang, Y.; Leng, Y.; Zhu, M.; Fan, B.; Yan, R.; Wu, Q. Carbohydrate polymers, 2012, 88.4: 1208-1213.2012.
44.Gürsoy, T., WA-XRD Analyzes of Different Kinds of Composite Filling Materials. in Fundamental Aspects of Engineering Sciences; Unal F., Akan A.E., Eds., Chapter 4, Iksad Publishing House: Ankara, 2019 pp. 79-101.

Yıl 2023, Cilt: 7 Sayı: 2, 204 - 214, 31.12.2023

Tülay Gürsoy M. Alma Ertuğrul Altuntaş Eyyüp Karaoğul

https://doi.org/10.32571/ijct.1368742

Öz

Proje Numarası

2013- FBE-D060

Kaynakça

1. http://pagev.org/poliuretanlar/ (accessed September 12, 2023)
2.http://emagen.gov.tr/poliuretan-nedir/ (accessed September 12, 2023)
3.Hu, S.; Li, Y.; Industrial Crops and Products. 2014, 57, 188-194.
4.Philips, L. N., and Parker, D. B. V. (1965). Polyurethanes Chemistry, Technology and Properties. Ilife Books Ltd., London.
5.Ferrigno, T.H. Rigid Plastics Foams. Second Edition. Reinhold Publishing Corp./ Chapman-Reinhold. Newyork, NY, 1967; p.146.
6.Zheng, Z.; Pan, H.; Huang, Y.; Chung, Y. H.; Zhang, X.; Feng, H. The Open Materials Science Journal 2011, 5, 1-8.
7.Guelcher, S. A.; Patel, V.; Gallagher, K. M.; Connolly, S.; Didier, J. E.; Doctor, J. S. 2006. Tissue Eng. 2006, 12(5): 1247-1259.
8.Rai, M.; Yadav, A.; Gade, A. Biotechnol. Adv. 2009, 27(1):76-83.
9.Lemos, V.A.; Santos, M.S.; Santos, E.S.; Santos, M.J.S.; dos Santos, W.N.L. Spectrochimica Acta Part B, 2007, 62, 4-12.
10.http://kimpur.com/tr/poliuretan-nedir/ (accessed September 12, 2023)
11.Luo, X.; Hu, S.; Zhang, X.; Li, Y. Bioresource Technology. 2013, 139(2013): 323-329.
12.Serrano, L.; Rincon, E.; Rodriguez, J.; Briones, R. Polymers. 2020, 12, 1-13.
13.Zhang, Q.; Lin, X.; Chen, W.; Zhang, H.; Han, D. Polymers. 2020, 12(107):1-10.
14. Furtwengler, P.; Averous, L. Polymer Chemistry. 2018, 32, 4253-4318.
15.Ma, Y.; Xiao, Y.; Zhao, Y.; Bei, Y.; Hu, L.; Zhou, Y.; Jia, P. Reactive and Functional Polymers, 2022, 175, 105285.
16.Briones, R.; Serrano, L.; Labidi, J. J. Chem. Technol. Biotechnol. 2012, 87, 244-249.
17.Lee, S.H.; Yoshioka, M.; Shiraishi, N. J.Appl. Polym. Sci. 2000, 78, 319-325.
18.Ge, J.; Zhang, W.; Li, W.; Sakai, K. Journal of Applied Polymer Science, 2000, 77, 2575-2580.
19.Zlatic, A.; Lava, C.; Zhang, W.; Petrovic, Z.S. J.Polym. Sci. Polym. Phys. 2004, 42, 809-819.
20.Walfson, A.; Litvak, G.; Dlugy, C.; Shotland, Y.; Tavor, D. Int. Crop. Prod. 2009, 30, 80-81
21.http://www.ozcankimya.com/detay.phd?id=71 (accessed September 12, 2023)
22.Alma, M. H.; Baştürk M. A.; Dıgrak, M. Journal of Materials Letters. 2003, 22, 1225-1228.
23.Yamada, T. Mokuzai Gakkaishi, 1996, 42: 1098-1104.
24.Ugarte, L.; Saralegi, A.; Fernandez, R.; Martin, L.; Corcuera, M.A.; Eceiza, A. Industrial Crops and Products, 2014, 62: 545-551.
25.Goheen, M.S.; Wool, R.P. J. Appl. Polym. Sci. 1991, 42(10): 2691-2701.
26.Pan, H.; Zheng, Z.; Chung, Y. H. Eur. J. Wood and Wood Prod. 2011, 70(4), 461-470.
27. Pu, S.; Shiraishi N. Journal -Japan Wood Research Society, 1993, 39, 446-452.
28.Fidan, M.S., and Ertaş, M., Bioresorces, 2020, 15(3), 6061-6079.
29.Pu, S., and Shiraishi N. Journal of the Japan Wood Research Society, 1994, 40.8: 824-829.
30.Yao, Y.; Yoshioka, M.; Shiraishi, N. J. Appl Polym Sci 1996, 60(11), 1939-1949.
31.Pu, S., and Shiraishi N. Journal of the Japan Wood Research Society, 1994, 40.8: 824-829.
32.Wang, M.; Zhang, X.; Zhang W.; Tian, D.; Lu, C. Journal of applied polymer science, 2013, 128.6: 3555-3563.
33.Chen, Fangeng, and Zhuomin Lu. Journal of Applied Polymer Science, 2009, 111.1: 508-516.
34. Xie, J.; Zhai, X.; Hse, C. Y.; Shupe, T. F.; Pan, H. Materials, 2015, 8.12: 8496-8509. 35. Hakim A.A.A., Nassar M., Emam A., Sultan M. Material Chemistry and Physics, 2011, 129.1-1: 301-307.
36.Huang, X. Y.; Qi, J. Q.; Hoop, C. F.; Xie, J. L.; Chen, Y. Z. Bioresources, 2017a, 12(4): 8160-8179.
37.Huang, X. Y.; Li, F.; Xie, J. L.; Hoop, C. F.; Hse, C. Y.; Qi, J. Q.; Xiao, H. Bioresources, 2017b, 12(1), 1968-1981.
38.Wang,T.P.; Pang, H.; Zhang, L.; Chen, X.D.; Mao, Z.H. Chemical Engineering Research and Design, 2008, 86.4: 416-421.
39.Wang, Y.; Tian H.; Zhang, L. Carbohydrate Polymers, 2010, 80.3: 665-671.
40.Trovati, G.; Sanches, E.A.; Neto, S.C. Journal of Applied Polymer Science, 2010, 115.1: 263-268.
41.Zou, J.; Zhang, F.; Huang, J.; Chang, P.R.; Su, Z.; Yu, J. Carbohydrate Polymers, 2011, 85.4: 824-831.
42.Savelyev, Y.; Veselov, V.; Markovskaya, L.; Savelyeva, O.; Akhranovich, E.; Galatenko, N.; Robota, L.; Travinskaya, T. Materials Science and Engineering: C, 2014, 45: 127-135.
43.Zhang, Y.; Leng, Y.; Zhu, M.; Fan, B.; Yan, R.; Wu, Q. Carbohydrate polymers, 2012, 88.4: 1208-1213.2012.
44.Gürsoy, T., WA-XRD Analyzes of Different Kinds of Composite Filling Materials. in Fundamental Aspects of Engineering Sciences; Unal F., Akan A.E., Eds., Chapter 4, Iksad Publishing House: Ankara, 2019 pp. 79-101.

Toplam 43 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Kimya Mühendisliği (Diğer)
Bölüm	Makale
Yazarlar	Tülay Gürsoy 0000-0001-6166-6875 M. Alma 0000-0001-6323-7230 Ertuğrul Altuntaş 0000-0003-2840-0703 Eyyüp Karaoğul 0000-0001-8162-6838
Proje Numarası	2013- FBE-D060
Erken Görünüm Tarihi	28 Kasım 2023
Yayımlanma Tarihi	31 Aralık 2023
Yayımlandığı Sayı	Yıl 2023 Cilt: 7 Sayı: 2

Kaynak Göster

APA	Gürsoy, T., Alma, M., Altuntaş, E., Karaoğul, E. (2023). Preparation and characterization of potato crust-based polyurethane foam-I. International Journal of Chemistry and Technology, 7(2), 204-214. https://doi.org/10.32571/ijct.1368742
AMA	Gürsoy T, Alma M, Altuntaş E, Karaoğul E. Preparation and characterization of potato crust-based polyurethane foam-I. Int. J. Chem. Technol. Aralık 2023;7(2):204-214. doi:10.32571/ijct.1368742
Chicago	Gürsoy, Tülay, M. Alma, Ertuğrul Altuntaş, ve Eyyüp Karaoğul. “Preparation and Characterization of Potato Crust-Based Polyurethane Foam-I”. International Journal of Chemistry and Technology 7, sy. 2 (Aralık 2023): 204-14. https://doi.org/10.32571/ijct.1368742.
EndNote	Gürsoy T, Alma M, Altuntaş E, Karaoğul E (01 Aralık 2023) Preparation and characterization of potato crust-based polyurethane foam-I. International Journal of Chemistry and Technology 7 2 204–214.
IEEE	T. Gürsoy, M. Alma, E. Altuntaş, ve E. Karaoğul, “Preparation and characterization of potato crust-based polyurethane foam-I”, Int. J. Chem. Technol., c. 7, sy. 2, ss. 204–214, 2023, doi: 10.32571/ijct.1368742.
ISNAD	Gürsoy, Tülay vd. “Preparation and Characterization of Potato Crust-Based Polyurethane Foam-I”. International Journal of Chemistry and Technology 7/2 (Aralık 2023), 204-214. https://doi.org/10.32571/ijct.1368742.
JAMA	Gürsoy T, Alma M, Altuntaş E, Karaoğul E. Preparation and characterization of potato crust-based polyurethane foam-I. Int. J. Chem. Technol. 2023;7:204–214.
MLA	Gürsoy, Tülay vd. “Preparation and Characterization of Potato Crust-Based Polyurethane Foam-I”. International Journal of Chemistry and Technology, c. 7, sy. 2, 2023, ss. 204-1, doi:10.32571/ijct.1368742.
Vancouver	Gürsoy T, Alma M, Altuntaş E, Karaoğul E. Preparation and characterization of potato crust-based polyurethane foam-I. Int. J. Chem. Technol. 2023;7(2):204-1.

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