Commenced in January 2007
Frequency: Monthly
Edition: International
Paper Count: 33122
The Determination of Cellulose Spiral Angle by Small-Angle X-Ray Scattering from Structurally Characterized Acacia mangium Cell Wall
Authors: Tamer A. Tabet, Fauziah Abdul Aziz, Shahidan Radiman
Abstract:
The spiral angle of the elementary cellulose fibril in the wood cell wall, often called microfibril angle, (MFA). Microfibril angle in hardwood is one of the key determinants of solid timber performance due to its strong influence on the stiffness, strength, shrinkage, swelling, thermal-dynamics mechanical properties and dimensional stability of wood. Variation of MFA (degree) in the S2 layer of the cell walls among Acacia mangium trees was determined using small-angle X-ray scattering (SAXS). The length and orientation of the microfibrils of the cell walls in the irradiated volume of the thin samples are measured using SAXS and optical microscope for 3D surface measurement. The undetermined parameters in the analysis are the MFA, (M) and the standard deviation (σФ) of the intensity distribution arising from the wandering of the fibril orientation about the mean value. Nine separate pairs of values are determined for nine different values of the angle of the incidence of the X-ray beam relative to the normal to the radial direction in the sample. The results show good agreement. The curve distribution of scattered intensity for the real cell wall structure is compared with that calculated with that assembly of rectangular cells with the same ratio of transverse to radial cell wall length. It is demonstrated that for β = 45°, the peaks in the curve intensity distribution for the real and the rectangular cells coincide. If this peak position is Ф45, then the MFA can be determined from the relation M = tan-1 (tan Ф45 / cos 45°), which is precise for rectangular cells. It was found that 92.93% of the variation of MFA can be attributed to the distance from pith to bark. Here we shall present our results of the MFA in the cell wall with respect to its shape, structure and the distance from pith to park as an important fast check and yet accurate towards the quality of wood, its uses and application.Keywords: Small-Angle X-Ray Scattering, Microfibril Angle, MFA, rectangular cell wall and real cell wall, Acacia mangium.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1328556
Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 1810References:
[1] A.D. Andersson: A study of Nanostructure of the Cell Wall of the Tracheids of Conifer Xylem by X-Ray Scattering. University of Helsinki, Report Series in Physics (2006), HU-P-D, pp. 135:18-25.
[2] K.M. Entwistle, S.J. Eichhorn and N. Navaranjan: The derivation of the cellulose microfibril angle by small-angle X-ray scattering from structurally characterized softwood cell-wall populations. Journal of Applied Crystallography (Jun, 2005), Vol. 38. (part 3) pp. 505-511.
[3] P. Matti, Saren and Ritva Serimaa: Determination of Microfibril Angle Distribution by X-Ray Diffraction. (2006), Vol. 40:445-460.
[4] V.A. Bonham and J.R. Barnett: Fibre Length and Microfibril Angle in Silver Brich (Betula Pendula Roth), Holzforschung, Vol. 55 (2004), pp.159-162.
[5] A. Tamer Tabe, Fauziah Abdul Aziz and Shahidan Radiman: Influence of Microfibril Angle on Thermal and Dynamic-Mechanical Properties of Acacia mangium Wood Using X-Ray Diffraction and Dynamic- Mechanical Test. Proceeding of the World Congress on Engineering 2010. WCE 2010, June 30 - July 2, 2010, London , UK.
[6] B.O. Zhang Bo, Fei Ben-Hua, Yu Yan and Zhao Rong-Jun: Microfibril angle variability in Masson Pine (Pinus massoniana Lamb) Using X-Ray Diffraction. Forest Studies China Journal. (2007), Vol. 9(1) pp.:33-38.
[7] P. Prasad Rayirath, Stavros Avramidis and D. Shawn Mansfield: The Effect of Wood drying on Crystallinity and Microfibril Angle in Black Spruce (picea mariana): Journal of Wood Chemistry and Technology. (2008), Vol. 28: pp.167-179.
[8] A. Tamer Tabet, Fauziah Abdul Aziz and Shahidan Radiman: A study of Fracture Surface of Fibres in Acacia mangium Wood Using Small-Angle X-Ray Scattering. Journal Fizik Malaysia. (2008). Vol. 29, No. 1& 2, pp. 35-40.
[9] Kent Person. ÔÇ×Micromechanical Modelling of Wood and Fibre Properties". Doctoral thesis. Department of Mechanics and Materials, Structural Mechanics. Ludn University. Printed by KFS i Lund AB, Lund, Sweden, October 2000. pp. 94-95.