[[1] Bednarek, Z. (2008). Influence of Strength Reduction of Timber in Fire on Structural Resistance. Research Gate.]Search in Google Scholar
[[2] Apu, S.S., (2003). Wood Structure and Construction Method for Low-cost Housing. International seminar / workshop on building materials for Low-cost housing, September 7-28, Indonesia.]Search in Google Scholar
[[3] Kuklik, P., (2008). Handbook 1 Timber Structure. Leonardo da Vinci Pilot Project. Educational Materials for Designing and Testing of Timber Structures 1: pp.1-13.]Search in Google Scholar
[[4] Breyer, D.E., Fridley, K.J., and Cobeen, K.E., (1999). Design of wood structures. 4th edition. McGraw-Hill, New York, U.S.A.]Search in Google Scholar
[[5] Alade, G. A. & Lucas, E. B., (1982). Timber Connector: A Major Contributor to Structural Failure in Wooden Components in Nigeria. Paper presented at the 36th annual meeting of the Forest Products Research Society, mechanical fastening session, New Orleans, U.S.A. pp. 22.]Search in Google Scholar
[[6] Lucas, E. B. & Olorunnisola, A. O., (2002). Wood Processing and Utilization in Nigeria: The Present Situation and Future Prospects in Agricultural Engineering in Nigeria: 30 Years of University of Ibadan Experience. Department of Agricultural Engineering, University of Ibadan, Nigeria, pp. 98-109.]Search in Google Scholar
[[7] Bednarek, Z., (1996). Determination of the Temperature of Uncovered Steel Constructions Using Numerical Methods. Statyba, 4(8): 6-10.]Search in Google Scholar
[[8] Bednarek Z., Kaliszuk-Wietecka A., and Wiśniewski Т., (2002). Research on the Influence of Fire Protection Impregnation Carried out by the Vacuum -and-Pressure Method on Wood Dynamic Strength. Building Review (Przegląd Budowlany), 10: 12−14.]Search in Google Scholar
[[9] Addis Tsehaye, A.H., Buchanan, A.H., and Walker, J.C.F., (1995). A Comparison of Density and Stiffness for Predicting Wood Quality. Journal of the Institute of Wood Science 13(6): 539-543.]Search in Google Scholar
[[10] Walker, J.C.F., and Butterfield, B.G. (1996). The Importance of the Microfibril Angle for the processing industries. New Zealand Forestry, 34-40.]Search in Google Scholar
[[11] Cown, D.J. (1992). Corewood (Juvenile Wood) in Pinusradiata- Should we be Concerned? New Zealand Journal of Forestry Science. 22(1): 87-95.]Search in Google Scholar
[[12] Schniewind, A.P. (1989). Concise Encyclopaedia of Wood and Wood-based Materials. Pergamon Press. pp. 248.]Search in Google Scholar
[[13] Christoforo, A.L., Rocco, F.A.L., Morales, E.A.M., and Panzera, T.H. (2012). Influence of Displacements of Calculus of Longitudinal Modulus of Elasticity of Pinus Caribaea Structural Round Timber Beams. International Journal of Agriculture and Forestry, 2: 157-160.]Search in Google Scholar
[[14] ASTM D 143-94. (2006). Standard Methods of Testing Small Clear Specimen of Timber. American Society for Testing and Materials, USA.]Search in Google Scholar
[[15] British Standards (BS) 373. (1957). Methods of Testing Small Clear Specimens of Timber.]Search in Google Scholar
[[16] Adetayo, O.A. and Dahunsi, B.I.O., (2018). Charring Rate Characteristics of some Selected Southern Nigeria Structural Wood Species Based on their Fire Resistance. ACTA Technica Corviniensis – Bulletin of Engineering Tome XI. 3, 91 – 96.]Search in Google Scholar
