1 |
Sulaiman, O., N. Salim, R. Hashim, L. H. M. Yusof, W. Razak, N. Y. M. Yunus, W. S. Hashim, and M. H. Azmy. 2009. Evaluation on the suitability of some adhesive for laminated veneer lumber. Materials and Design 30: 3572-3580.
DOI
ScienceOn
|
2 |
Forest Products Lab. 1999. Woodhandbook. USDA Forest Serv., Forest Products Lab., Madison, WI.
|
3 |
Williamson, T. G. 2002. APA Engineered wood handbook. Mcgrow Hill Co.
|
4 |
American Society for Testing and Materials. 1999. Standard specification for evaluation of staructural composite lumber products. ASTM D 5456. PA.
|
5 |
Bodig, J. and B. A. Jayne. 1982. Mechanics of wood and wood composites. Van Norstrand Reinhold Co.
|
6 |
Burdurlu, E., M. Kilic, A. C. Ilce, and O. Uzunkavak. 2007. The effects of ply organization and loading direction on bending strength and modulus of elasticity in laminated veneer lumber (LVL) obtained from beech (Fagus orientalis L.) and lombardy poplar (Populus nigra L.). Construction and Building Materials 21(2007): 1720-1725.
DOI
ScienceOn
|
7 |
International Standard Organization. 2010. Timber structures - Laminated veneer lumber - Structural properties. ISO/FDIS 22390, ISO.
|
8 |
Japan Agricultural Standard. 2008. Standard specification of structural laminated veneer lumber. JAS 701.
|
9 |
Korean Agency for Technology and Standard. 2008. Determination of resistance to soaking delamination for adhesive-bonded wood products. KS F 2160.
|
10 |
Korean Agency for Technology and Standard. 2005. Nonstructural laminated veneer lumber. KS F 3119.
|
11 |
Rijsdijk, J. F. and P. B. Laming. 1994. Physical and related properties of 145 timbers. Kluer Academic Publishers. Dordrecht, Netherlands.
|