Abstract Timber is an isotropic natural construction material with ductile and brittle behaviour in compression and tension, respectively. It is one of the most economical solutions for low-rise residential buildings,… Click to show full abstract
Abstract Timber is an isotropic natural construction material with ductile and brittle behaviour in compression and tension, respectively. It is one of the most economical solutions for low-rise residential buildings, in many countries including Australia. Yet, its relatively lower load bearing capacity in compression perpendicular to the grain, and some consequences such as long-term and short-term shortening have resulted in limited applications of light timber framed system in multi-story buildings. In order to take the most advantage of this efficient and light-weight building material specifically light, applying some timber framed reinforcement solutions and better use of materials can improve the performance of timber framed structures. This study presents the results of a series of full scale experimental investigations on light timber framed walls under compression, whose results can be used for the design of mid-rise light timber framed buildings. First, with regard to the compression perpendicular to the grain, full scale walls connected through a stud-to-plate system and made of four different timber plate species (machine graded pine (MGP10), pine cypress, ash silver top, and cross laminated timber (CLT)) are tested. Then the effects of a reinforcement solution on enhancing the load bearing capacity is investigated. At the next stage, for studying the compression parallel to the grain, the performance of common stud-to-stud connections as well as a notched connecting system with machine graded pine (MGP10) and laminated veneer lumber (LVL) studs is considered. A comparison between the load bearing capacity of the tested systems is made, and the results are used in a case study on the design of a multi-story timber framed building. The results indicate that the solutions suggested for improving the compression bearing capacity can be applied to mid-rise light timber frame buildings.
               
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