Physical and Sound Absorption Properties of Spent Tea Leaf Fiber Filled Polyurethane Foam Composite

Qumrul Ahsan; Chia Pooi Ching; Mohd Yuhazri bin Yaakob

doi:10.4028/www.scientific.net/AMM.660.541

Paper Titles

The Effect Carbon Fiber Pole on Hand-Arm Vibration of Palm Fruit Motorised Cutter
p.521

Adjustable Acoustical Performance Based on Deformable Origamic Shapes: A Preliminary Experimental Investigation
p.526

Vibration Exposure Analysis of the Polysiloxane Reinforced with Rice Husk Silica
p.531

Vibration Response on MiNT-SRC Building due to Ground Borne Vibrations from Humans Using Finite Element Modeling
p.536

Physical and Sound Absorption Properties of Spent Tea Leaf Fiber Filled Polyurethane Foam Composite
p.541

Computer Simulation of Fracture Process in Compressive Failure of Cross-Ply Laminate of Composite Materials
p.549

Prediction of Energy Absorption of Al-Based FGM Crash Box under Quasi-Static and Dynamic Loading
p.557

Measurement of Mechanical Properties of St 37 Material at High Strain Rates Using a Split Hopkinson Pressure Bar
p.562

Stress Analysis of the Impactor Assembly of the Dropped Weight Impact Testing Machine
p.567

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 660Physical and Sound Absorption Properties of Spent...

Physical and Sound Absorption Properties of Spent Tea Leaf Fiber Filled Polyurethane Foam Composite

Abstract:

Spent tea leaves (STL) from tea producing factories can be considered as new resources for sound absorbing polyurethane (PU) matrix composite materials because STL are rich in polyphenols (tannins) which cause high durability, high resistance to fungal and termites, and high resistance to fire. The research aims to study the physical characteristics of STL and the effect of dispersion morphology of STL on the sound absorption properties of polyurethane foam composites by varying filler loading. Three grades of STL fibers either as received or granulated are used in this study, namely BM-FAE and SWBHE derived from the stalk while FIBER-FAE derived from the leaves of the tea plant. The PU/STL composites are fabricated through open molding method with a fiber loading of 16 wt. %. The fabricated composites are then subjected to physical and sound absorption testing as well as microscopic observations to analyze the distribution of filler in composite. The study shows that as-received FIBER-FAE spent tea leaves provide the best sound absorption coefficient and for composites using granulated fibers from any grade have lower sound absorption coefficient. These results show that a novel kind of sound absorption materials with the recycling of waste materials can be obtained for the solution of noise and environmental pollution.

You might also be interested in these eBooks

Advances in Mechanical, Materials and Manufacturing Engineering

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volume 660)

Pages:

541-546

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.660.541

Citation:

Cite this paper

Online since:

October 2014

Authors:

Qumrul Ahsan*, Chia Pooi Ching, Mohd Yuhazri bin Yaakob

Keywords:

Composite Material, Polyurethane Foam, Sound Absorption Coefficient, Spent Tea Leaf

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

* - Corresponding Author

References

[1] F. Jacobsen, T. Poulsen, J. H. Rindel, A. C. Gade, M. Ohlrich, Fundamentals of Acoustics and Noise Control (2007). Information on http: /www. scribd. com/doc/55146117/72.