Abstract
It is very frequent that solid wood beams need to be connected one to another to obtain a longer beam. In this study, the behavior of solid wood beams connections using plywood sheets as connecting elements and staples as mechanical fasteners were studied experimentally. The experimental results were compared with elastic analyses. Both beam and plywood were made of meranti (shorea). The staple type was MAX 1022J. This study was conducted on two specimens. The first specimen had two rows of staples on the front and back sides of the specimen. Each row consisted of ten staples making a total of 40 staples. The second one had three rows of staples on the front and back sides of the specimen. Each row consisted of ten staples making a total of 60 staples. From the tests, it can be concluded that each material in the connection, namely wood beam, plywood, and staples, failed. Failure mode of the wood beam was in the form of crack and tear. Failure mode of the plywood was the damage of the plywood directly contacted with the crown of the staples. Failure modes of the staples were flexural yielding. The differences between connection strength obtained from tests and elastic analyses were 8.18% for the first specimen and 0.65% for the second specimen, with the test results were higher than the elastic analyses results. It can be concluded that elastic analysis is quite accurate and conservative to estimate the strength of this type of connection, provided that the lateral resistance of connection with a staple is known.
Highlights
The use of staples in wood connections has more advantage compared to other types of mechanical fasteners such as nails, screws, lag screws and bolts
There are many factors that affect the lateral strength of stapled wood connections, namely material density, staple dimensions, arrangement of staples, number of staples, and many others
Further research on in-plane moment resistances of Lshaped joints connected with two gusset plates stapled on one side of joint members in oriented strand board (OSB)
Summary
The use of staples in wood connections has more advantage compared to other types of mechanical fasteners such as nails, screws, lag screws and bolts. It is because power-driven staples need shorter time to assembly compared to other types of mechanical fasteners. There are many factors that affect the lateral strength of stapled wood connections, namely material density, staple dimensions, arrangement of staples, number of staples, and many others. In the moment resisting stapled wood connection, the load carrying capacity is affected significantly by material density and the number of staples [4]. Further research on in-plane moment resistances of Lshaped joints connected with two gusset plates stapled on one side of joint members in oriented strand board (OSB)
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