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Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre

Year 2013, Volume: 26 Issue: 4, 611 - 618, 02.01.2014

Abstract

In this work, a polymer of polyurethane (PU) was electrospun for 1 hour to create a scaffold under different conditions. A 3x3 general full factorial in a completely randomised design using three levels of two factors: power (W= 20, 22 and 25 Watts) and feeding rate (V=1.00, 1.25 and 1.50 ml/h) was used to assess the response pattern and to determine the combined effect of independent variables. The main effects for power (W) and feeding rate (V) and the power (W)*feeding rate (V) interaction were statistically significant.

 

 

 

Key words: Electrospinning, Polyurethane, Nanofibre, Statistical Analysis.

 

 

References

  • Yoo, H.S., Kim, T.G., Park, T.G., “Surface- functionalized electrospun nanofibers for tissue engineering and drug delivery”, Adv Drug Deliv Rev, 61: 1033–1042, (2009).
  • Schreuder-Gibson, H.L., Gibson, P., Seneca, K., Sennett, M., Walker, J., Yeomans, W., et al., “Protective textile materials based on electrospun nanofibers”, J Adv Mat, 34(3): 44–55, (2002).
  • Wang, X.Y., Lee, S.H., Drew. C., Senecal, K.J., Kumar, J., Samuelson, L.A., “Highly sensitive optical sensors using electrospun polymeric nanofibrous membranes”, Mat Res Soc Symp Pro, 708:397– 402, (2002).
  • Ondarcuhu, T. and Joachim, C., “Drawing a single nanofibre over hundreds of microns”, Europhys Lett, 42(2): 215–220, (1998).
  • Ma, P.X. and Zhang, R., “Synthetic nano-scale fibrous extracellular matrix”, J Biomed Mat Res, 46 : 60–72, (1999).
  • Deitzel, J.M., Kleinmeyer, J., Hirvonen, J.K., Beck, T.N.C., electrospun poly(ethylene oxide) fibers”, Polymer, 42: 8163–8170, (2001a). deposition of
  • Bhardwaj, N. and Kundu, S.C., “Electrospinning: A Biotechnology Advances, 28: 325–347, (2010). technique”,
  • Ramanathan, K., Bangar, M.A., Yun, M., Chen, W., Myung, N.V., Mulchandani, A., “Bioaffinity sensing conducting-polymer nanowire” J Am Chem Soc, 127: 496–507, (2005). functionalized
  • Ramakrishna, S., Fujihara, K., Teo, W.E., Yong, T., Ma, Z., Ramaseshan, R., “Electrospun nanofibers: solving global issues”, Mater Today , 9: 40–50, (2006).
  • Figeys, D. and Pinto, D., “Lab-on-a-chip: a revolution in biological and medical sciences—a look at some of the basic concepts and novel components used to construct prototype devices”, Anal Chem., 72: 330A–335A, (2000).
  • Friess, W., “Collagen biomaterial for drug delivery”, Eur J Pharm Biopharm, 45: 113–136, (1998).
  • Li, W.J., Laurencin CT, Caterson EJ, Tuan RS, Ko FK., “Electrospun nanofibrous structure: a novel scaffold for tissue engineering”, J Biomed Mater Res, 60: 613–621, (2002).
  • He, W., Horn, S.W., Hussain, M.D., “Improved bioavailability of orally administered mifepristone from PLGA nanoparticles”, Int J Pharm, 334: 173–178, (2007).
  • Liang, D., Hsiao, B.S., Chu, B., “Functional electrospun nanofibrous scaffolds for biomedical applications”, Adv Drug Deliv Rev, 59: 1392– 1412, (2007). Po wer (W ) 2 0 2 2 2 5

Nanofibre

Year 2013, Volume: 26 Issue: 4, 611 - 618, 02.01.2014

Abstract

References

  • Yoo, H.S., Kim, T.G., Park, T.G., “Surface- functionalized electrospun nanofibers for tissue engineering and drug delivery”, Adv Drug Deliv Rev, 61: 1033–1042, (2009).
  • Schreuder-Gibson, H.L., Gibson, P., Seneca, K., Sennett, M., Walker, J., Yeomans, W., et al., “Protective textile materials based on electrospun nanofibers”, J Adv Mat, 34(3): 44–55, (2002).
  • Wang, X.Y., Lee, S.H., Drew. C., Senecal, K.J., Kumar, J., Samuelson, L.A., “Highly sensitive optical sensors using electrospun polymeric nanofibrous membranes”, Mat Res Soc Symp Pro, 708:397– 402, (2002).
  • Ondarcuhu, T. and Joachim, C., “Drawing a single nanofibre over hundreds of microns”, Europhys Lett, 42(2): 215–220, (1998).
  • Ma, P.X. and Zhang, R., “Synthetic nano-scale fibrous extracellular matrix”, J Biomed Mat Res, 46 : 60–72, (1999).
  • Deitzel, J.M., Kleinmeyer, J., Hirvonen, J.K., Beck, T.N.C., electrospun poly(ethylene oxide) fibers”, Polymer, 42: 8163–8170, (2001a). deposition of
  • Bhardwaj, N. and Kundu, S.C., “Electrospinning: A Biotechnology Advances, 28: 325–347, (2010). technique”,
  • Ramanathan, K., Bangar, M.A., Yun, M., Chen, W., Myung, N.V., Mulchandani, A., “Bioaffinity sensing conducting-polymer nanowire” J Am Chem Soc, 127: 496–507, (2005). functionalized
  • Ramakrishna, S., Fujihara, K., Teo, W.E., Yong, T., Ma, Z., Ramaseshan, R., “Electrospun nanofibers: solving global issues”, Mater Today , 9: 40–50, (2006).
  • Figeys, D. and Pinto, D., “Lab-on-a-chip: a revolution in biological and medical sciences—a look at some of the basic concepts and novel components used to construct prototype devices”, Anal Chem., 72: 330A–335A, (2000).
  • Friess, W., “Collagen biomaterial for drug delivery”, Eur J Pharm Biopharm, 45: 113–136, (1998).
  • Li, W.J., Laurencin CT, Caterson EJ, Tuan RS, Ko FK., “Electrospun nanofibrous structure: a novel scaffold for tissue engineering”, J Biomed Mater Res, 60: 613–621, (2002).
  • He, W., Horn, S.W., Hussain, M.D., “Improved bioavailability of orally administered mifepristone from PLGA nanoparticles”, Int J Pharm, 334: 173–178, (2007).
  • Liang, D., Hsiao, B.S., Chu, B., “Functional electrospun nanofibrous scaffolds for biomedical applications”, Adv Drug Deliv Rev, 59: 1392– 1412, (2007). Po wer (W ) 2 0 2 2 2 5
There are 14 citations in total.

Details

Primary Language English
Journal Section Chemical Engineering
Authors

Mustafa Oteyaka This is me

E. Ozel This is me

M. Yıldırım This is me

Publication Date January 2, 2014
Published in Issue Year 2013 Volume: 26 Issue: 4

Cite

APA Oteyaka, M., Ozel, E., & Yıldırım, M. (2014). Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre. Gazi University Journal of Science, 26(4), 611-618.
AMA Oteyaka M, Ozel E, Yıldırım M. Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre. Gazi University Journal of Science. January 2014;26(4):611-618.
Chicago Oteyaka, Mustafa, E. Ozel, and M. Yıldırım. “Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre”. Gazi University Journal of Science 26, no. 4 (January 2014): 611-18.
EndNote Oteyaka M, Ozel E, Yıldırım M (January 1, 2014) Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre. Gazi University Journal of Science 26 4 611–618.
IEEE M. Oteyaka, E. Ozel, and M. Yıldırım, “Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre”, Gazi University Journal of Science, vol. 26, no. 4, pp. 611–618, 2014.
ISNAD Oteyaka, Mustafa et al. “Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre”. Gazi University Journal of Science 26/4 (January 2014), 611-618.
JAMA Oteyaka M, Ozel E, Yıldırım M. Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre. Gazi University Journal of Science. 2014;26:611–618.
MLA Oteyaka, Mustafa et al. “Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre”. Gazi University Journal of Science, vol. 26, no. 4, 2014, pp. 611-8.
Vancouver Oteyaka M, Ozel E, Yıldırım M. Experimental Study on Relationship of Applied Power And Feeding Rate on Production of Polyurethane Nanofibre. Gazi University Journal of Science. 2014;26(4):611-8.