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Mineral dolgu maddelerinin fındıkkabuğu/polimetilmetakrilat kompozitlerin ses yutma katsayısına etkileri

Year 2022, Volume: 23 Issue: 1, 160 - 168, 16.05.2022
https://doi.org/10.17474/artvinofd.1088771

Abstract

Bu çalışmada, farklı partikül boyutuna sahip (max.150, 250, 425 mikron) fındıkkabuğu/ polimetilmetakrilat kompozitlere ilave edilen, mineral dolgu maddelerinin ses yutma katsayısına etkileri araştırılmıştır. Kullanılan dolgu maddeleri; camküre, wollastonit, ve mika’dır. Farklı partikül büyüklüğüne sahip fındıkkabuğu polimetilmetakrilat kompozitler % 15 oranında fındıkkabuğu içermektedir. Bu kompozitler içerisine % 2.5, 5 ve 10 oranında dolgu maddeleri ilave edilerek ses yutma testlerinde kullanılacak kompozit numuneler hazırlanmıştır. Mineral dolgulu fındıkkabuğu/polimetilmetakrilat kompozitlerin ses yutma (α) katsayısı, çift mikrofonlu empedans tüpü yöntemiyle belirlenmiştir. Ayrıca kompozitlerin yoğunlukları Arşimed prensibine göre tayin edilip, içerdiği boş hacim yüzde oranları hesaplanmıştır. Numune morfolojisini değerlendirmek amacı ile, deney yapılan numunelerden kırık parçalar elde edilmiştir. Kırık yüzeylerin görüntüleri taramalı elektron mikroskobu ile görüntülenip, içyapı bu görüntüler çerçevesinde değerlendirilmiştir. Çalışmanın sonuçlarına göre, kompozite ilave edilen cam küre ve mikanın oranları ile birlikte, fındıkkabuğu partikül boyutunun da artması ses yutma katsayısını artmıştır. Bu değişimin sade fındıkkabuğu kompozitlere göre maksimum % 247 oranda olduğu belirlenmiştir.

References

  • Referans1 ASTM. (1998) Standard test method for ımpedance and absorption of acoustical materials using a tube, two microphones and a digital frequency analysis system.
  • Referans2 Borrell JMG, Sanchis EJ, Alcaraz JS, Belda IM, (2020) Sustainable sound absorbers from fruit stones waste. Applied Acoustics,161:107174
  • Referans3 Brebbia CA, De Wilde WP (2002) The development of sound absorbing materials using natural bamboo fibers, High Performance Structures and Composites”, WIT Press, Ashurst Lodge, Southampton, SO40 7AA, UK
  • Referans4 Callister Jr WD (2007)Materials Science and Engineering An Introduction, seventh ed., John Wiley & Sons, Inc., Appendix B
  • Referans5 Chun-Won Kang CW, Oh SW, Lee TB, Kang W, Matsumura J, (2012) Sound absorption capability and mechanical properties of a composite rice hull and sawdust board. J. Wood Sci 58:273–278
  • Referans6 Doost-hoseini K, Taghiyari HR, Elyasi A, (2014) Correlation between sound absorption coefficients with physical andmechanical properties of insulation boards made from sugar canebagasse, Composites: Part B, 58:10–15
  • Referans7 Dungani R, Karina M, Sulaeman SA, Hermawan D, Hadiyane A (2016) Agricultural waste fibers towards sustainability and advanced utilization, A Review Asian Journal of Plant Sciences. 15: 42-55
  • Referans8 Echeverria CA, Pahlevani F, Handoko W, Jiang C, Doolan C, Sahajwalla V (2018) Engineered hybrid fibre reinforced composites for sound absorption building applications. Resources Conservation and Recycling. 143:1-142019
  • Referans9 Fei Y, Fang W, Zhong M, Jin J, Fan P,Yang J, Fei Z, ID , Chen F, Kuang T, ( 2018) Morphological structure, rheological behavior, mechanical properties and sound ınsulation performance of thermoplastic rubber composites reinforced by different ınorganic fillers. Polymers, 10: 276
  • Referans10 Garcia-Garcia D, Quiles-Carrillo L, Montanes N, Fombuena V, Balart R (2018) manufacturing and characterization of composite fibreboards with posidonia oceanica wastes with an environmentally-friendly binder from epoxy resin. Materials,11: 35
  • Referans11 https://www.omya.com/Türkiye(bağlantı tarihi Aralık 2021) Referans12 Iannace G (2017)The acoustic characterization of green materials”, Building Acoustics, 24(2): 101–113
  • Referans13 Jonoobi MJ, Harun P, Tahir L, Zaini S, Saiflu A, Makinejad M (2010) Characteristics of nanofibers extracted from kenaf core. Bio- Resources 5 (4): 2556–2566 Roncero MB, Torres AL, Colom JF, T. Vidal T (2005) The effect of xylanase on lignocellulosic components during the bleaching of wood pulps”, Bioresource Technology. 96: 21–30
  • Referans14 Joseph OO, Babaremu KO (2019) Agricultural waste as a reinforcement particulate for aluminum metal matrix composite. A Review. Fibers, 7:33
  • Referans15 Kang CW, Oh SW, Lee TB (2012) Sound absorption capability and mechanical properties of a composite rice hull and sawdust board. J. Wood Sci 58: 273–278
  • Referans16 Lapčík L, Vašina M, Lapčíková B, Hui D, Otyepková E, Greenwood RW, Waters KE, Vlček J (2019) Materials characterization of advanced fillers for composites engineering application. Nanotechnol Rev., 8:503–512
  • Referans17 Naderzadeh M, Ghasemi I, Monazzam MR, Arabalibeik H, (2018) An Investigation on Transparency and Mechano-Acoustic Properties of Poly Methyl Methacrylate/ Polycarbonate Based Nanocomposites”, Journal of Polymers and the Environment, 26:2640–2649
  • Referans18 Pampuro N, Preti C, Cavallo E (2018) Recycling pig slurry solid fraction compostas a sound absorber. Sustainability, 10: 277 Referans19 Segal L, Creely JJ, Martin E,Conrad CM, (1959) An empirical method for estimating the degree of crystallinity of native cellulose using the x-ray diffractometer. Textile Research Journal, 29:10-786
  • Referans20 Segal JE, Yuan XW, Jones MI (2011)Voıds Characterısatıon In Carbon Fıbre/Epoxy Composıte Lamınates”, 18th Internatıonal Conference On Composıte Materıals, Icc Jeju Korea August 21-26.
  • Referans21 Tiuc AE, Nemeş O, Vermeşan H, Toma AC (2018) New sound absorbent composite materials based on sawdust and polyurethane foam. Composites Part B: Engineering, 165:120-130
  • Referans22 Qui H, Enhui Y (2018) Effect of thıckness, densıty and cavıty depth on the sound absorptıon propertıes of wool boards, Autex Research Journal,18: 2
  • Referans23 Xiaofei Z, Zhi S, Xiaozhi H, (2014)Low temperature fracture toughness of PMMA and crack-tipconditions under flat-tipped cylindrical indenter”,Polymer Testing, 38: 57-63
Year 2022, Volume: 23 Issue: 1, 160 - 168, 16.05.2022
https://doi.org/10.17474/artvinofd.1088771

Abstract

References

  • Referans1 ASTM. (1998) Standard test method for ımpedance and absorption of acoustical materials using a tube, two microphones and a digital frequency analysis system.
  • Referans2 Borrell JMG, Sanchis EJ, Alcaraz JS, Belda IM, (2020) Sustainable sound absorbers from fruit stones waste. Applied Acoustics,161:107174
  • Referans3 Brebbia CA, De Wilde WP (2002) The development of sound absorbing materials using natural bamboo fibers, High Performance Structures and Composites”, WIT Press, Ashurst Lodge, Southampton, SO40 7AA, UK
  • Referans4 Callister Jr WD (2007)Materials Science and Engineering An Introduction, seventh ed., John Wiley & Sons, Inc., Appendix B
  • Referans5 Chun-Won Kang CW, Oh SW, Lee TB, Kang W, Matsumura J, (2012) Sound absorption capability and mechanical properties of a composite rice hull and sawdust board. J. Wood Sci 58:273–278
  • Referans6 Doost-hoseini K, Taghiyari HR, Elyasi A, (2014) Correlation between sound absorption coefficients with physical andmechanical properties of insulation boards made from sugar canebagasse, Composites: Part B, 58:10–15
  • Referans7 Dungani R, Karina M, Sulaeman SA, Hermawan D, Hadiyane A (2016) Agricultural waste fibers towards sustainability and advanced utilization, A Review Asian Journal of Plant Sciences. 15: 42-55
  • Referans8 Echeverria CA, Pahlevani F, Handoko W, Jiang C, Doolan C, Sahajwalla V (2018) Engineered hybrid fibre reinforced composites for sound absorption building applications. Resources Conservation and Recycling. 143:1-142019
  • Referans9 Fei Y, Fang W, Zhong M, Jin J, Fan P,Yang J, Fei Z, ID , Chen F, Kuang T, ( 2018) Morphological structure, rheological behavior, mechanical properties and sound ınsulation performance of thermoplastic rubber composites reinforced by different ınorganic fillers. Polymers, 10: 276
  • Referans10 Garcia-Garcia D, Quiles-Carrillo L, Montanes N, Fombuena V, Balart R (2018) manufacturing and characterization of composite fibreboards with posidonia oceanica wastes with an environmentally-friendly binder from epoxy resin. Materials,11: 35
  • Referans11 https://www.omya.com/Türkiye(bağlantı tarihi Aralık 2021) Referans12 Iannace G (2017)The acoustic characterization of green materials”, Building Acoustics, 24(2): 101–113
  • Referans13 Jonoobi MJ, Harun P, Tahir L, Zaini S, Saiflu A, Makinejad M (2010) Characteristics of nanofibers extracted from kenaf core. Bio- Resources 5 (4): 2556–2566 Roncero MB, Torres AL, Colom JF, T. Vidal T (2005) The effect of xylanase on lignocellulosic components during the bleaching of wood pulps”, Bioresource Technology. 96: 21–30
  • Referans14 Joseph OO, Babaremu KO (2019) Agricultural waste as a reinforcement particulate for aluminum metal matrix composite. A Review. Fibers, 7:33
  • Referans15 Kang CW, Oh SW, Lee TB (2012) Sound absorption capability and mechanical properties of a composite rice hull and sawdust board. J. Wood Sci 58: 273–278
  • Referans16 Lapčík L, Vašina M, Lapčíková B, Hui D, Otyepková E, Greenwood RW, Waters KE, Vlček J (2019) Materials characterization of advanced fillers for composites engineering application. Nanotechnol Rev., 8:503–512
  • Referans17 Naderzadeh M, Ghasemi I, Monazzam MR, Arabalibeik H, (2018) An Investigation on Transparency and Mechano-Acoustic Properties of Poly Methyl Methacrylate/ Polycarbonate Based Nanocomposites”, Journal of Polymers and the Environment, 26:2640–2649
  • Referans18 Pampuro N, Preti C, Cavallo E (2018) Recycling pig slurry solid fraction compostas a sound absorber. Sustainability, 10: 277 Referans19 Segal L, Creely JJ, Martin E,Conrad CM, (1959) An empirical method for estimating the degree of crystallinity of native cellulose using the x-ray diffractometer. Textile Research Journal, 29:10-786
  • Referans20 Segal JE, Yuan XW, Jones MI (2011)Voıds Characterısatıon In Carbon Fıbre/Epoxy Composıte Lamınates”, 18th Internatıonal Conference On Composıte Materıals, Icc Jeju Korea August 21-26.
  • Referans21 Tiuc AE, Nemeş O, Vermeşan H, Toma AC (2018) New sound absorbent composite materials based on sawdust and polyurethane foam. Composites Part B: Engineering, 165:120-130
  • Referans22 Qui H, Enhui Y (2018) Effect of thıckness, densıty and cavıty depth on the sound absorptıon propertıes of wool boards, Autex Research Journal,18: 2
  • Referans23 Xiaofei Z, Zhi S, Xiaozhi H, (2014)Low temperature fracture toughness of PMMA and crack-tipconditions under flat-tipped cylindrical indenter”,Polymer Testing, 38: 57-63
There are 21 citations in total.

Details

Primary Language Turkish
Subjects Environmental Sciences
Journal Section Research Article
Authors

Kenan Büyükkaya 0000-0002-8263-0756

Publication Date May 16, 2022
Acceptance Date May 5, 2022
Published in Issue Year 2022Volume: 23 Issue: 1

Cite

APA Büyükkaya, K. (2022). Mineral dolgu maddelerinin fındıkkabuğu/polimetilmetakrilat kompozitlerin ses yutma katsayısına etkileri. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi, 23(1), 160-168. https://doi.org/10.17474/artvinofd.1088771
AMA Büyükkaya K. Mineral dolgu maddelerinin fındıkkabuğu/polimetilmetakrilat kompozitlerin ses yutma katsayısına etkileri. ACUJFF. May 2022;23(1):160-168. doi:10.17474/artvinofd.1088771
Chicago Büyükkaya, Kenan. “Mineral Dolgu Maddelerinin fındıkkabuğu/Polimetilmetakrilat Kompozitlerin Ses Yutma katsayısına Etkileri”. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi 23, no. 1 (May 2022): 160-68. https://doi.org/10.17474/artvinofd.1088771.
EndNote Büyükkaya K (May 1, 2022) Mineral dolgu maddelerinin fındıkkabuğu/polimetilmetakrilat kompozitlerin ses yutma katsayısına etkileri. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi 23 1 160–168.
IEEE K. Büyükkaya, “Mineral dolgu maddelerinin fındıkkabuğu/polimetilmetakrilat kompozitlerin ses yutma katsayısına etkileri”, ACUJFF, vol. 23, no. 1, pp. 160–168, 2022, doi: 10.17474/artvinofd.1088771.
ISNAD Büyükkaya, Kenan. “Mineral Dolgu Maddelerinin fındıkkabuğu/Polimetilmetakrilat Kompozitlerin Ses Yutma katsayısına Etkileri”. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi 23/1 (May 2022), 160-168. https://doi.org/10.17474/artvinofd.1088771.
JAMA Büyükkaya K. Mineral dolgu maddelerinin fındıkkabuğu/polimetilmetakrilat kompozitlerin ses yutma katsayısına etkileri. ACUJFF. 2022;23:160–168.
MLA Büyükkaya, Kenan. “Mineral Dolgu Maddelerinin fındıkkabuğu/Polimetilmetakrilat Kompozitlerin Ses Yutma katsayısına Etkileri”. Artvin Çoruh Üniversitesi Orman Fakültesi Dergisi, vol. 23, no. 1, 2022, pp. 160-8, doi:10.17474/artvinofd.1088771.
Vancouver Büyükkaya K. Mineral dolgu maddelerinin fındıkkabuğu/polimetilmetakrilat kompozitlerin ses yutma katsayısına etkileri. ACUJFF. 2022;23(1):160-8.
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