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2022 ◽  
Vol 150 ◽  
pp. 106878
Author(s):  
Mengkun Yue ◽  
Jinyang Wang ◽  
Jinsong Zhang ◽  
Yao Zhang ◽  
Yunlong Tang ◽  
...  

2022 ◽  
Vol 169 ◽  
pp. 108771
Author(s):  
Xing Wang ◽  
Michal Szydlowski ◽  
Jie Yuan ◽  
Christoph Schwingshackl
Keyword(s):  

2022 ◽  
Vol 166 ◽  
pp. 108401
Author(s):  
Wei Chen ◽  
Debasish Jana ◽  
Aryan Singh ◽  
Mengshi Jin ◽  
Mattia Cenedese ◽  
...  

2022 ◽  
Vol 164 ◽  
pp. 108287
Author(s):  
Klemen Zaletelj ◽  
Janko Slavič ◽  
Miha Boltežar

2022 ◽  
Vol 164 ◽  
pp. 108215
Author(s):  
Erwan Meteyer ◽  
Felix Foucart ◽  
Mathieu Secail-Geraud ◽  
Pascal Picart ◽  
Charles Pezerat

Materials ◽  
2022 ◽  
Vol 15 (2) ◽  
pp. 625
Author(s):  
João Henriques ◽  
José Xavier ◽  
António Andrade-Campos

This work aims to determine the orthotropic linear elastic constitutive parameters of Pinus pinaster Ait. wood from a single uniaxial compressive experimental test, under quasi-static loading conditions, based on two different specimen configurations: (a) on-axis rectangular specimens oriented on the radial-tangential plane, (b) off-axis specimens with a grain angle of about 60(radial-tangential plane). Using digital image correlation (DIC), full-field displacement and strain maps are obtained and used to identify the four orthotropic elastic parameters using the finite element model updating (FEMU) technique. Based on the FE data, a synthetic image reconstruction approach is proposed by coupling the inverse identification method with synthetically deformed images, which are then processed by DIC and compared with the experimental results. The proposed methodology is first validated by employing a DIC-levelled FEA reference in the identification procedure. The impact of the DIC setting parameters on the identification results is systematically investigated. This influence appears to be stronger when the parameter is less sensitive to the experimental setup used. When using on-axis specimen configuration, three orthotropic parameters of Pinus pinaster (ER, ET and νRT) are correctly identified, while the shear modulus (GRT) is robustly identified when using off-axis specimen configuration.


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