Abstract
Cross laminated timber (CLT), as a structural plate-like timber product, has been established as a load bearing product for walls, floor and roof elements. In a bending situation due to the transverse shear flexibility of the crossing layers, the warping of the cross section follows a zigzag pattern which should be considered in the calculation model. The Refined Zigzag Theory (RZT) can fulfill this requirement in a very simple and efficient way. The RZT, founded in 2007 by A. Tessler (NASA Langley Research Center), M. Di Sciuva and M. Gherlone (Politecnico Torino) is a very robust and accurate analysis tool, which can handle the typical zigag warping of the cross section by introducing only one additional kinematic degree of freedom in case of plane beams and two more in case of biaxial bending of plates. Thus, the RZT-kinematics is able to reflect the specific and local stress behaviour near concentrated loads in combination with a warping constraint, while most other theories do not. A comparison is made with different methods of calculation, as the modified Gamma-method, the Shear Analogy method (SA) and the First Order Shear Deformation Theory (FSDT). For a test example of a two-span continuous beam, an error estimation concerning the maximum bending stress is presented depending on the slenderness L/h and the width of contact area at the intermediate support. A stability investigation shows that FSDT provides sufficiently accurate results if the ratio of bending and shear stiffness is in a range as stated in the test example. It is shown that by a simple modification in the determination of the zigzag function, the scope can be extended to beams with arbitrary non-rectangular cross section. This generalization step considerably improves the possibilities for the application of RZT. Furthermore, beam structures with interlayer slip can easily be treated. So the RZT is very well suited to analyze all kinds, of shear-elastic structural element like CLT-plate, timber-concrete composite structure or doweled beam in an accurate and unified way.
Highlights
Cross laminated timber (CLT), as a structural plate-like timber product, has been established as a load bearing product for walls, floor and roof elements and is in operation since about 30 years
European Journal of Wood and Wood Products (2020) 78:1125–1135 properties and the arrangement of the wooden boards. This is due to the flexibility of discrete shear connectors. It is the explicit aim of this paper to show that Refined Zigzag Theory (RZT) is a suitable and reliable means to analyze such structural elements in a uniform manner, which is demonstrated by examples given in Sect. 3 and 4
Well-known procedures are the Gamma-method (EN 1995-1-1 2015), originally used for composite beams with interlayer slip by Möhler (1956), which can be modified to apply to CLT and the Shear Analogy (SA) method introduced by Kreuzinger (1999) and worked out by Scholz (2002, 2004)
Summary
Cross laminated timber (CLT), as a structural plate-like timber product, has been established as a load bearing product for walls, floor and roof elements and is in operation since about 30 years. European Journal of Wood and Wood Products (2020) 78:1125–1135 properties and the arrangement of the wooden boards. In other cases, this is due to the flexibility of discrete shear connectors. This is due to the flexibility of discrete shear connectors It is the explicit aim of this paper to show that RZT is a suitable and reliable means to analyze such structural elements in a uniform manner, which is demonstrated by examples given in Sect. It is the explicit aim of this paper to show that RZT is a suitable and reliable means to analyze such structural elements in a uniform manner, which is demonstrated by examples given in Sect. 3 and 4
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