A new method for estimating stiffness and strength in bolted timber-to-timber joints and its verification by experiments (II): bolted cross-lapped beam to column joints

Bolted cross-lapped joints (BCLJs) are one of the basic jointing methods used in Japan and European countries. There are, however, some problems in the design of BCLJs. With increasing use of large-scale wooden frame structures in Japan, it is necessary to establish proper estimating methods for predicting actual characteristics. A new approach was developed, using Saint Venant torsion theory, to estimate the performance of bolted timber joints in a more practical manner than using computer simulations. The calculated values were compared with the experimental results, indicating that the rotational stiffness and yield moment of BCLJs would be precisely predicted using the proposed theory. It was also found that the rotational stiffness calculated using the design method rooted on Coulomb’s torsion theory is about two times higher than the experimental results in the case of a rectangular arrangement of bolts.

Authors and Affiliations

1. Research Institute for Sustainable Humanosphere, Kyoto University, Uji, 611-0011, Japan

   Masahiro Noguchi & Kohei Komatsu

Corresponding author

Correspondence to Masahiro Noguchi.

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