International E-publication: Publish Projects, Dissertation, Theses, Books, Souvenir, Conference Proceeding with ISBN.  International E-Bulletin: Information/News regarding: Academics and Research

Synthesis and Characterization of the Composite Based on MgSO4 and Paper Waste for Noise Abatement

Author Affiliations

  • 1Department of Physics, Faculty of Mathematics and Natural Sciences, University of Indonesia, Depok 16424, West Java, INDONESIA
  • 2 Research Center of Materials Science, Department of Physics, University of Indonesia, Jl. Salemba Raya No.4 Jakarta, INDONESIA

Res. J. Material Sci., Volume 2, Issue (4), Pages 7-13, August,16 (2014)

Abstract

Several manuscripts reveal that magnesium sulfate (MgSO) is the primary substance that causes the absorption of sound in sea water. The purpose of the investigation is synthesizing an acoustical composite based on magnesium sulfate and office Paper Waste as building material component for noise abatement. The method was conducted by synthesizing and characterizing the sample to know its chemical and physical properties by using FTIR, SEM andTwo Acoustic Rooms each containing noise source and receiver. The results show that the produced composite has positif transmission loss value above STC contour standard at the frequency range between 800 Hz to 4000 Hz.

References

  1. Kalpa S., Health IT in Indian Healthcare System: A New Initiative, Research J. of Recent Sci.,1(6), 83-86, (2012)
  2. Pramila S., Fulekar M.H. and Bhawana P., E-Waste-A Challenge for Tomorrow, Research J. of Recent Sci., 1(3), 86-93, (2012)
  3. Tufts J.B., Chen S. and Marshall L., Attenuation as a function of the canal length of custom molded ear plug : a pilot study, J. Acoust. Soc. Am, 133(6), (2013)
  4. Balaguru I., Sendhilkumar S. and Sridhar K., Investigation on Stealth Strategies in Coir Fiber Reinforced Polymer Composites, Research J. of Mat. Sci., 1(1), 6-10, (2013)
  5. Safaa A.M., Asaad H.M. and Ali A.I., Using Ultrasonic Sensor for Blind and Deaf persons Combines Voice Alert and Vibration Properties, Research J. of Recent Sci., 1(11), 50-52, (2012)
  6. Hemmati F., Influence of Internal Waves on Underwater Acoustic Propagation, Research Journal of Recent Sciences, 1(1), 73-76, (2012)
  7. Pradeep K., Bhupendra S., Rajmani C. and Anil K., Propagation and Dissipation of Slow Magneto-Acoustic Waves in Coronal Loops, Research J. of Recent Sci., 1(2), 34-41, (2013)
  8. Robinson P., Patynen J. and Lokki T., The effect of diffuse reflections on spatial discrimination in a simulated concert hall, J. Acoust. Soc. Am, 133(5), (2013)
  9. Ashari E.E., Calculating Free and Forced Vibrations of multi-story Shear Building by Modular method, Research J. of Recent Sci., 3(1), 83-90, (2014)
  10. Manguriu G.N., et al., Properties of Pumice Weight light Aggregate, Civil and Environmental Research, 2(10), (2012)
  11. Akkurt I., et al, The Effect of Pumice Rate on the Gamma Absorption Parameters of Concrete, Acta Physica Polonica A, .1(121), (2012)
  12. Huali Liu, Ruijuan Yang, Yinghui Wang, Shiquan Liu, Influence of alumina additions on the physical and chemical properties of lithium-iron - phosphate glasses, Physics Procedia, 48, 17-22, (2013)
  13. Bottiglieri S., The Effect of Microstructure in Aluminium Oxyde Ceramics on Acoustic Loss Mechanism, Dissertation, Graduate School New Brunswick Rutgers, The State University of New Jersey, (2012)
  14. Farzad R.H., Hasan A., Jawaid M. and Piah M.A.M., Mechanical Properties of Alumina Trihydrate Filled Polypropylene/Ethylene Propylene Diene Monomer Composites for Cable Applications, Sains Malaysiana, 42(6), 801-810, (2013)
  15. Zielinski T.G., Potoczek M., Sliwa R.E. and Nowak L.J., Acoustic absorption of a new class of alumina foams with various high porosity level, Archieves of acoustics, 38(4), 495-502, (2013)
  16. Stanciu M.D., Curtu I., Cosereanu C., Lica D. and Nastac S. , Research regarding acoustical properties of recycled composites, th International DAAM Baltic Conference “Industrial Engineering”, Tallinn, (2012)
  17. Devi K.B.R. and Madivanane R., Normal coordinate analysis of polyvinyl acetate, IRACST- Engineering Science and Technology (ESTIJ),2(4), 795-799, (2012)
  18. Jiezhou Bhaskar A., Xin Zhang, Sound Transmission through a double panel construction lined with poroelastic material in the presence of mean flow, Journal of Sound and Vibration, 332, 3724–3734, (2013)
  19. McGrory M., Sound absorption coefficient measurement : re-examining the relationship between impedance tube and reverberant room methods, Proceeding of Acoustics, Fremantle (2012)
  20. Maduruelo R., Morillas J.M.B., Castizo M.M., Escobar V.G. and Gozalo G.R., Acoustical performance of porous absorber made from recycled rubberand polyurethane resin, Latin American Journal of Solids and Structures, 10, 585-600, (20013)
  21. Alagoz S. and Alagoz B.B., Sonic crystal acoustic switch device, J. Acoust. Soc. Am., 133(6), (2013)
  22. Tabhane P.,Chimankar. O.P. and Tabhane V.A., Phase separation studies in polyvinyl chloride-polyvinyl acetate blend by ultrasonic technique, Journal of Chemical and Pharmaceutical Research 2012, 4(6), 3051-3056, (2012)
  23. Erbe C., and Cauley R.M., under water noise from offshore oil production vessels, J. Acoust. Soc. Am., 133(6), (2013)
  24. Tian B., Liu Y., Niu K., Li S., Xie J. and Li X., Reduction of tire pavement noise by porous concrete pavement, J. Mater. Civ. Eng., 26(2), 233-239, (2014)
  25. Shojaeefard M.H., Talebetooti R., Molla M.A.R. and Ahmadi R., Noise Transmission with Porous Insulator Using Statistical Energy Analysis, International Journal of Automotive Engineering, 2(1),8–20, (2012)
  26. Xiaodong Zhu, Birme June Kim, Qingwen Wang and Qinglin Wu, Recent Advances in the Sound Insulation Properties of Bio-based Materials, J. Bio Resources, 9(1), 1764–1786, (2014)