Open AccessRECENT DEVELOPMENT IN CLT CONNECTIONS PART I: IN-PLANE SHEAR CONNECTION FOR CLT BRACING ELEMENTS UNDER STATIC LOADS
Author(s) -
Tobias Schmidt,
Hans Joachim Blaß
Publication year - 2018
Publication title -
wood and fiber science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.354
H-Index - 46
ISSN - 0735-6161
DOI - 10.22382/wfs-2018-039
Subject(s) - cross laminated timber , bracing , structural engineering , stiffness , shear (geology) , connection (principal bundle) , engineering , prefabrication , plane (geometry) , mathematics , materials science , composite material , geometry , brace
Because of their high shear strength and stiffness, cross-laminated timber (CLT) members are especially suited for in-plane loads. However, the ductility and energy dissipation capacity of a CLT structure is mainly determined by properties of the mechanical connections such as dowel-type fasteners. Unfortunately, the load-slip behavior of these typical timber-to-timber connections shows pinched hysteresis loops and impairment of strength. For seismic loads, highly dissipative connections with stable dissipation properties are desirable. A new type of connection was developed avoiding the pinching of hysteresis loops while showing high energy dissipation. An experimental investigation and a design proposal of a highly dissipative steel plate connection for CLT shear walls is presented as a result of the work.
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