Application of Variability Response Function to Cross Laminated Timber

Variation in material properties leads to variation in stiffness, or displacement response, of structural systems. This paper presents an efficient method to calculate the variability in stiffness of a three-layer Cross Laminated Timber (CLT) panel as a result of heterogeneous elastic properties in...

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Bibliographic Details
Published in:Probabilistic engineering mechanics 2022-01, Vol.67, p.103177, Article 103177
Main Authors: O’Donnell, F.A., Arwade, S.R., Clouston, P.L.
Format: Article
Language:English
Subjects:
Complex systems
Cross Laminated Timber
Cross laminating
Elastic properties
Fields (mathematics)
Material properties
Materials elasticity
Mechanical properties
Response functions
Response variability
Stiffness
Stochastic models
Stochastic processes
Stochastic systems
Timber
Timber (structural)
Variability
Variability Response Function
Wood laminates
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Summary:Variation in material properties leads to variation in stiffness, or displacement response, of structural systems. This paper presents an efficient method to calculate the variability in stiffness of a three-layer Cross Laminated Timber (CLT) panel as a result of heterogeneous elastic properties in the constituent lumber. Typically, problems involving stochastic material properties are solved by Monte Carlo simulations, which is computationally expensive for complex systems. The Variability Response Function is a well-established concept for efficient evaluation of the variance of stochastic systems where properties are modeled by random fields. A new method to study the variation in CLT panel stiffness is developed by applying the Variability Response Function to CLT geometry. Using this method, novel CLT panel layups can be efficiently studied, increasing opportunities for traditionally low-value species to be used in CLT panels. Three case studies are provided to demonstrate the application and utility of the developed method.
ISSN:0266-8920
1878-4275
DOI:10.1016/j.probengmech.2021.103177