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Structural Engineering and Mechanics Volume 9, Number 5, May 2000 , pages 417-432 DOI: https://doi.org/10.12989/sem.2000.9.5.417 |
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Analysis and design of metal-plate-connected joints subjected to buckling loads |
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Hussein R
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Abstract | ||
A comprehensive analytic study has been conducted to investigate the instability problems of metal-plate-connected (MPC) joints in light frame trusses. The primary objective in this study is to determine the governing factors that constitute the buckling of the metal connectors and their effects on the structural response of joints. Another objective is to recommend design curves for the daily structural design of these joints. The numeric data presented in this paper has emerged from a broad base that was founded on over 350 advanced computer simulations, and was supported by available experimental results obtained by others. This basic-to-applied research includes practical engineering parameters such as size of gaps, shear lengths, gauge (plate thickness) of connectors, size of un-braced areas, failure modes, and progressive disintegration of joints. Square-end members have been emphasized though the results cover the custom-made fitted joints. The results indicate that chord shears cause and dominate the buckling of MPC joints, and the shear length has a more pronounced effect than the size of gaps. Further, large gauges and small un-braced areas improve the buckling response. Several practical recommendations have been suggested throughout the paper such as keeping the ratio of gap/shear length below 3/4 for improving the buckling strength. The study reveals that multi-area joints should not be simplified as single web-to-chord MPC joints such as keeping the ratio of gap/shear length below 3/4 for improving the buckling strength, even where one web is in tension and the other in compression. Finally, the results obtained from this study favorably agree with experimental data by others, and the classic buckling theories for other structural components. | ||
Key Words | ||
buckling, compression, connections, connectors, critical loads, finite elements, gauge, joints, light frame, metal plate, MPC joints, shear, stability, standards, trusses, wood | ||
Address | ||
Hussein R, POB 744, Syracuse, NY 13210 USA | ||