Evaluation of Selected Mechanical Properties of Blighia sapida K. Koenig Wood

Authors

  • Olayanu Clement Mobolaji Department of Forest Production and Products, University of Ibadan, Nigeria.
  • Segun M. Adeyemo Forestry Department, Mississippi State University, USA
  • Adelodun R. Majekobaje School of Renewable Natural Resources, Louisiana State University, USA
  • Areo O. Olusola Department of Forest Product Development and Utilization, Forestry Research Institute of Nigeria, Nigeria
  • Ayodeji O. Omole Department of Forest Production and Products, University of Ibadan, Nigeria
  • Abiodun T. Oyelere Department of Forest Production and Products, University of Ibadan, Nigeria
  • Olanrewaju R. Alagbada Department of Forestry Technology, Federal College of Forest Resources Management, Nigeria
  • James O. Oluborode Department of Forest Production and Products, University of Ibadan, Nigeria

DOI:

https://doi.org/10.24203/ajas.v10i3.6977

Keywords:

Lesser used species, Blighia sapida, mechanical properties, wood products

Abstract

Over exploitation of economic tree species in the forest due to their high demand has made wood loggers shift their attention to Lesser Used Species such as Blighia sapida as alternative source of wood in Nigeria. The knowledge on the quality of the wood would to a long extent enhance the utilization of the wood. However, little information is provided on the mechanical properties of the wood species and the general belief among most wood users is that it is not a good timber species and that it cannot be utilized for any wood-based products that require strength. Therefore, investigating the mechanical properties of the timber species for better acceptability in the timber market becomes necessary.

Three standing trees of Blighia sapida were purposively felled in the University of Ibadan community, Ibadan, Nigeria. 500 mm billets were gotten from wood dics at the top, middle, and base of the tree and each partitioned into three, the outerrwood, middlewood and the innerwood, in line with specified standard for each selected mechanical property test (Modulus of Elasticity, Modulus of Rupture, Impact bending strength, and Compressive strength parallel to grain) were all evaluated.

Modulus of rupture with mean value 118.47 ± 1.96 N/mm2, ranged from 103.67 ± 3.42 to 144.26 ± 3.68 N/mm2. Modulus of Elasticity with mean value 10649.99 ± 167.51 N/mm2, ranged from 9237.14 ± 399.22 to 12877.35 ± 284.61 N/mm2. Compressive strength parallel to grain with the average value 52.86 ± 0.81 N/mm2, ranged from 42.88 ± 1.32 to 62.62 ± 1.65 N/mm2. Mean impact bending strength was 28.05 ± 0.58 N/mm2, ranged from 24.56 ± 0.86 to 35.09 ± 1.71 N/mm2.

The average Modulus of Rupture and Modulus of Elasticity of Blighia sapida wood indicated that the wood falls within the category of medium construction strength timbers. The maximum compressive strength value for Blighia sapida wood revealed that it compared well with other economic tree species that are widely known for various structural applications. Therefore, the general belief among wood users that it is not a good timber species and that it cannot be utilized for any wood-based product that requires strength is far from the truth. It can therefore be concluded that the timber can be used for some building constructions, sheeting and lining, furniture, carpentry, veneer wood production, cabinet work, and so on.

References

Adedipe OE, Machining and mechanical properties of plantation grown Gmelina arborea wood. MSc Thesis, Federal University of Technology, Akure. pp 81, 2004.

Adejoba OR, Evaluation of Ficus Mucuso`s (Welw.Ex Ficalho) Wood Properties And Their Variations. Ph.D. Thesis, University of Ibadan, 197pp., 2008.

Adejoba OR, Onilude MA, “Axial and Radial variations in Mechanical property of Ficus Mucuso” Journal of Agricultural technology and Rural Development, Vol. 1, no. 1, pp. 32, 2009.

Aguma Q, Ogunsanwo OY, “Variations pattern in selected mechanical properties of stem and branch woods of khaya grandifoliola (welw.)” Journal of Research in Forestry, Wildlife & Environment, vol. 11, no. 1, pp. 101, 2019.

Aguda LO, Adejoba OR, Areghan SE, Adejoba AL, Areo AS, “Mechanical Properties of Chrysophyllum albidum: A Lesser Used Species”, International Journal of Applied Research and Technology, vol. 1, no. 8, pp. 87 –92, 2012.

Aguda L, Ajayi B, Areghan S, Olayiwola Y, Kehinde A, Idowu A, Aguda Y, “Mechanical properties of Ficus vallis-choudae (Delile): A Lesser Utilized Species in Nigeria”, Bioresource, vol. 15, no. 3, pp. 6550-6560, 2020.

Ajala OO, Ogunsanwo OY, “Specific gravity and mechanical properties of Aningeria robusta wood from Nigeria”, Journal of tropical forest science, vol. 23, no. 4, pp. 389–395, 2011.

Aleru KK, David-Sarogoro N, “Mechanical strength properties of mangifera indica in axial direction at different moisture regimes”, International Journal of Advanced Research vol. 4, no. 11, pp. 1520-1526, 2016.

Appiah-Kubi E, Kankam CK, Adom-Asamoah MA, Bending and Modulus Of Elasticity Properties Of 10 Lesser-Used Timber Species In Ghana, CSIR-Forestry Research Institute of Ghana, pp.23, 2012

Areo OS, Adejoba OR Omole OA, “Influence of Mechanical Properties on Utilisation Potential of Mangifera indica L. Wood for Furniture Industries Forestry Research Institute of Nigeria”, Elixir Environ. & Forestry vol. 86, 2015

Areo OS, Omole OA, Adejoba AL, “Evaluation of Selected Physical Properties of Breadfruit Wood (Artocarpus altilis, Parkinson ex. F.A. Zorn) Fosberg Grown in the South-western, Nigeria” Trends in Applied Sciences Research, vol. 15, no. 1, pp. 226-234, 2020.

Areo OS, Wood properties and natural durability of Artocarpus altili (PARKINSON EX F.A. ZONE) FOSBERG. Phd Thesis, University of Ibadan, Nigeria, pp. 1-160, 2021.

British Standard B.S., Methods of testing small clear specimens of Timber. British Standard Institute, London, pp. 32, 1999

Desch HE, Dinwoodie JM, Timber: Its structure, properties and Utilization. Macmilliam Education, pp. 410, 1996.

Fuwape JA, Fabiyi JS, “Variation in strength properties of plantation grown Nauclea diderichii wood”, Journal of Tropical Forest Products, vol. 9, no. 1&2, pp. 45-53, 2003.

Green DW, Winandy JE, Krestchmann DE, Mechanical properties of wood. Wood handbook: wood as an engineering material. Madison, WI: USDA Forest service, Forest Products Laboratory General technical report FPL; GTR-113: pp. 1-4, 1999.

Harte A, Introduction to timber as an engineering material. ICE Manual of Construction Materials 2009 Institution of Civil Engineers. www.icemanuals.com, pp. 5, 2009.

Haygreen JG, and Bowyer JL, Forest Products and Wood Science, An Introduction. Third Edition. IOWA State University Press. AMEES pp. 232, 1996.

Izekor DN, Fuwape JA, Oluyege AO, “Effects of density on variations in the mechanical properties of plantation grown Tectona grandis wood”, Archives of Applied Science Research, vol. 2, no. 6, pp. 113-120, 2010.

Jamala GY, Olubunmi SO, Mada DA, Abraham P, “Physical and Mechanical Properties of Selected Wood Species in Tropical Rainforest Ecosystem, Ondo State, Nigeria”. IOSR Journal of Agriculture and Veterinary Science (IOSR-JAVS), vol. 5, no. 3, pp. 29, 2013.

Kayumba I, Selected wood properties of two lesser known and lesser utilized indigenous agroforestry species from Kilosa District, Tanzania, MSc. Thesis, Sokoine University of Agriculture. Morogoro, Tanzania. pp. 13, 2015.

Kityo PW, Plumptre RA, The Uganda timber user’s handbook. A guide to better timber use. Commonwealth Secretariat, London, 1997.

Majekobaje AR, Potentials of Chromolaena odorata Linn. extract as wood preservative against fungal attack, MSc Thesis, University of Ibadan, Nigeria. pp. 27, 2018.

Ogunsanwo OY, “Wood processing and Utilization in Nigeria”, The Nigeria Journal of Forestry, vol. 2, no. 3, pp. 55, 2000.

Ogunsanwo OY, Akinlade AS, “Effects of Age and Sampling Position on Wood Property Variations in Nigerian Grown Gmelina arborea”, Journal of Agriculture and Social Research (JASR), vol. 11, no. 2, pp.104-105, 2011.

Olaoye KO, Ariwoola OS, Ibiyeye D.E. “Selected Physico-Mechanical Properties of Aningeria robusta (A.Chev) Wood for the Manufacture of Talking Drum”, Journal of Agriculture and Veterinary Science (IOSR-JAVS), vol. 9, no. 2, pp. 58, 2016.

Olayanu CM, Omole AO, Adeyemo SM, Majekobaje AR, Areo OS, “Evaluation of selected physical properties of Blighia sapida K. Koenig wood”, European Journal of Agriculture and Food Sciences, vol. 4, no. 2, pp. 58-66, 2022.

Oyelere AT, Riki JTB, Adeyemo SM, Majekobaje AR, Oluwadare AO, “Radial and axial variation in ring width of Caribbean pine (Pinus caribaea Morelet) in Afaka Plantation, Kaduna State, Nigeria”, Journal of Research in Forestry, Wildlife and Environment, vol. 11, no. 3, pp. 81-89, 2019.

Panshin AJ, de Zeeuw C. Textbook of Wood Technology. 4th Edition MacGraw-Hill Book Company, pp. 722, 1980.

Riki JTB, Adeyemo SM, Majekobaje AR, Oyelere AT, Oluwadare AO, “Density variation in axial and radial positions of Caribbean pine (Pinus caribaea Morelet) grown in Afaka, Nigeria”, Journal of Agriculture and Environment, vol. 15, no. 2, pp. 163-171, 2019.

Winandy JE, Wood properties, USDA-Forest Service, Forest Products Laboratory, Wisconsin Arntzen, Charles J., ed. Encyclopedia of Agricultural Science. Orlando, FL: Academic Press, vol. 4, 1994.

Yeomans D. Strength Grading Historic Timbers. Cathedral Communications Limited, (http://www.buildingconservation.com/articles/gradingtimbers/gradingtimbers.ht), 2003.

Zobel BJ, Van Buijtenen JP. Wood variation its causes and control, Springer-Verlag, Berlin, Germany, 354-358, 1989.

Downloads

Published

2022-07-09

Issue

Section

Articles

How to Cite

Evaluation of Selected Mechanical Properties of Blighia sapida K. Koenig Wood. (2022). Asian Journal of Applied Sciences, 10(3). https://doi.org/10.24203/ajas.v10i3.6977

Similar Articles

21-30 of 229

You may also start an advanced similarity search for this article.