I. Lomhlt, Stadthaus london: Murray grove building, 2015.

J. Mairs, Anders berensson proposes wooden skyscraper with decorative facade for stockholm, 2016.

M. French, Vienna plans world's tallest wooden skyscraper, p.785, 2015.

K. Medlock, Construction of world's tallest building is underway in vancouver, 2016.

C. European, Committee for Standardisation, Eurocode 5-design of timber structures, 1993.

C. Stora-enso, Document technique d'application 3/13-750 : 790 Panneaux bois à usage structurel, 2014.

H. Kreuzinger, . Platten, and . Und-schalen, Ein berechnungsmodell für gängige statikprogramme, bauen mit holz 1, pp.34-39, 1999.

K. Sab and A. Lebée, Homogenization of heterogeneous thin and thick plates, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01266702

L. Franzoni, A. Lebée, F. Lyon, and G. Forêt, Influence of orientation and number of layers on the elastic response and failure modes on CLT floors: modeling and parameter studies, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01306593

O. Perret, A. Lebée, C. Douthe, and K. Sab, The bending-gradient theory for the linear buckling of thick plates: Application to cross laminated timber panels, International Journal of Solids and Structures, vol.87, pp.139-152, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01712204

L. Franzoni, A. Lebée, F. Lyon, and G. Forêt, Elastic behavior of cross laminated timber and timber panels with regular gaps: Thick-plate modeling and experimental validation, Engineering Structures, vol.141, pp.402-416, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01691125

A. Thiel and G. Schickhofer, CLTdesigner-a software tool for de810 signing cross-laminated-timber elements: 1d-plate-design

D. I. Jouravskii, Remarques sur la résistance d'un corps prismatique et d'une pièce composée en bois ou en tôle de fer à une force perpendiculaire à leur longueur, Annales des Ponts et Chaussées, vol.815, pp.328-351, 1856.

O. Perret, A. Lebée, C. Douthe, and K. Sab, Equivalent layer stiffness of CLT: Closed-form bounds and numerical validation, 2017.

K. B. Dahl and K. Malo, Linear shear properties of spruce softwood, 825 Wood science and technology, vol.43, pp.499-525, 2009.

F. F. Kollman and W. A. Côté, Principles of wood science and technology: solid wood, 1968.

D. Astm, Standard methods of testing small clear specimens of timber, 1981.

R. Youngs, The perpendicular-to-grain mechanical properties of red oak related to temperature, moisture content and time, 1957.

J. Y. Liu, D. D. Flach, R. J. Ross, and G. J. Lichtenberg, An improved 835 shear test fixture using the losipescu specimen, ASME APPLIED MECHANICS DIVISION-PUBLICATIONS-AMD, vol.231, pp.139-148, 1998.

D. M. Moses and H. G. Prion, Anisotropic plasticity and the notched wood shear block, Forest products journal, vol.52, p.43, 2002.

T. Ehrhart, R. Brandner, G. Schickhofer, and A. Frangi, Rolling shear properties of some european timber species with focus on cross laminated timber (CLT): Test configuration and parameter study, Proceedings of the 2nd International Network on Timber Engineering Research meeting, vol.48, pp.61-78

N. Iosipescu, New accurate procedure for single shear testing of metals, J MATER, vol.2, pp.537-566, 1967.

J. Dumail, K. Olofsson, and L. Salmén, An analysis of rolling shear of spruce wood by the iosipescu method, Holzforschung, vol.54, pp.420-426, 2000.

M. Arcan, Z. Hashin, and A. Voloshin, A method to produce uniform plane-stress states with applications to fiber-reinforced materials, Experimental mechanics, vol.18, pp.141-146, 1978.

K. B. Dahl and K. Malo, Nonlinear shear properties of spruce softwood: experimental results, vol.855, p.539, 2009.

U. Müller, A. Ringhofer, R. Brandner, and G. Schickhofer, Homogeneous shear stress field of wood in an Arcan shear test configuration measured by means of electronic speckle pattern interferometry : description of the test setup, Wood science and technology, vol.860, pp.1123-1136, 2015.

D. Keunecke, W. Sonderegger, K. Pereteanu, T. Lüthi, and P. Niemz, Determination of young's and shear moduli of common yew and norway spruce by means of ultrasonic waves, Wood science and technology, vol.41, pp.309-327, 2007.

R. Longo, D. Laux, S. Pagano, T. Delaunay, E. L. Clézio et al., Elastic characterization of wood by Resonant Ultrasound Spectroscopy (RUS): a comprehensive study, Wood Science and Technology, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01674610

A. Jakobs, Zur Berechnung von Brettlagenholz mit star870 rem und nachgiebigem Verbund unter plattenartiger Belastung mit besonderer Berücksichtigung des Rollschubes und der Drillweichheit, 2005.

A. , Standard test method for structural panels in planar 875 shear, 2003.

R. Görlacher, Ein verfahren zur ermittlung des rollschubmoduls von holz, European Journal of Wood and Wood Products, vol.60, pp.317-322, 2002.

G. Schickhofer, R. Brandner, and H. Bauer, Introduction to CLT, 880 product properties, strength classes, of COST Actions FP1402

, & FP1404 KTH Building Materials, 10.3. 2016 Cross Laminated Timber-A competitive wood product for visionary and fire safe buildings, p.9, 2016.

P. Mestek, Schubbemessung unter Berücksichtigung von Schubverstärkungen, na, vol.885, 2011.

Q. Zhou, M. Gong, Y. H. Chui, and M. Mohammad,

H. Yoshihara and T. Furushima, Shear strengths of wood measured by various short beam shear test methods, Wood science and technology, vol.37, pp.189-197, 2003.
DOI : 10.1007/s00226-003-0180-x

R. Brandner, E. Gehri, T. Bogensperger, and G. Schickhofer, Determination of modulus of shear and elasticity of glued laminated 905 timber and related examinations, Cib, vol.18, pp.40-52, 2007.

R. Brandner, B. Freytag, and G. Schickhofer, Determination of shear modulus by means of standardized four-point bending tests, Cib, vol.18, pp.41-62, 2008.

E. Gehri, Shear Problems in Timber Engineering-Analysis and 910

. Solutions, 11th World Conference on Timber EngineeringWorld Conference in Timber Engineering

K. Viverge, C. Boutin, and F. Sallet, International Journal of Solids and Structures Model of highly contrasted plates versus experiments on laminated glass, International Journal of Solids, vol.915, pp.238-258, 2016.

A. Lebée and K. Sab, Homogenization of cellular sandwich panels, Comptes Rendus Mécanique, vol.340, pp.320-337, 2012.

H. G. Allen, Analysis and Design of Structural Sandwich Panels: The Commonwealth and International Library: Structures and 920 Solid Body Mechanics Division, 2013.

K. Hibbett and . Sorensen, User's Manual, Part IV : Elements, vol.1, 1998.

R. Jöbstl and G. Schickhofer, Comparative examination of creep of 925

G. and C. Inbending, International Council for Research and Innovation in builduing and construction

C. Pirvu and E. Karacabeyli, Time-dependent behaviour of CLT, World Conference on Timber Engineering

F. Colling, Creep behavior of cross laminated timber in service 930 class 2, 2014.

Y. Li, Duration-of-load and size effects on the rolling shear strength of cross laminated timber, 2015.