Climate-induced damage in historical cabinet doors

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

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Climate-induced visual cracks or dimensional changes in historical art objects are aesthetically undesired. A thorough analysis of these aspects is essential for the development of adequate preservation strategies. For this purpose, in the present work full-scale experiments on mock-ups of historical cabinet doors were performed, and a numerical model was developed that can accurately simulate climate-induced damage development in oak wood. In contrast to what observation studies on historical museum objects indicate, the mock-ups showed no visible damage in terms of shrinkage cracks; a possible reason for this is that the local tensile strength of historical oak wood may be considerably lower than that of the new oak wood used for constructing the mock-ups. In the numerical model, the thermal and hygral responses were described by extended versions of Fourier's law of heat conduction and Fick's law of moisture diffusion. Discrete fracture is simulated by surrounding the continuum elements in a finite element model with interface elements equipped with a damage model. Preliminary numerical simulations give a good agreement with the solution of an analytical benchmark problem, and further show a realistic moisture hysteresis effect and damage pattern in the modelled sample.

Originele taal-2Engels
TitelWorld Conference on Timber Engineering 2018
Pagina's1-2
Aantal pagina's2
StatusGepubliceerd - 1 jan 2018
EvenementWorld Conference on Timber Engineering WCTE 2018 - Seoul, Zuid-Korea
Duur: 20 aug 201823 aug 2018

Congres

CongresWorld Conference on Timber Engineering WCTE 2018
LandZuid-Korea
StadSeoul
Periode20/08/1823/08/18

Vingerafdruk

climate
Quercus
damage
crack
moisture
heat
hysteresis
arts
tensile strength
shrinkage
art
museum
simulation
oak
experiment
sampling
effect
analysis

Citeer dit

Luimes, R. A., Suiker, A. S. J., Jorissen, A. J. M., Schellen, H. L., & van Duin, P. H. J. C. (2018). Climate-induced damage in historical cabinet doors. In World Conference on Timber Engineering 2018 (blz. 1-2)
Luimes, R.A. ; Suiker, A.S.J. ; Jorissen, A.J.M. ; Schellen, H.L. ; van Duin, P.H.J.C. / Climate-induced damage in historical cabinet doors. World Conference on Timber Engineering 2018. 2018. blz. 1-2
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title = "Climate-induced damage in historical cabinet doors",
abstract = "Climate-induced visual cracks or dimensional changes in historical art objects are aesthetically undesired. A thorough analysis of these aspects is essential for the development of adequate preservation strategies. For this purpose, in the present work full-scale experiments on mock-ups of historical cabinet doors were performed, and a numerical model was developed that can accurately simulate climate-induced damage development in oak wood. In contrast to what observation studies on historical museum objects indicate, the mock-ups showed no visible damage in terms of shrinkage cracks; a possible reason for this is that the local tensile strength of historical oak wood may be considerably lower than that of the new oak wood used for constructing the mock-ups. In the numerical model, the thermal and hygral responses were described by extended versions of Fourier's law of heat conduction and Fick's law of moisture diffusion. Discrete fracture is simulated by surrounding the continuum elements in a finite element model with interface elements equipped with a damage model. Preliminary numerical simulations give a good agreement with the solution of an analytical benchmark problem, and further show a realistic moisture hysteresis effect and damage pattern in the modelled sample.",
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Luimes, RA, Suiker, ASJ, Jorissen, AJM, Schellen, HL & van Duin, PHJC 2018, Climate-induced damage in historical cabinet doors. in World Conference on Timber Engineering 2018. blz. 1-2, World Conference on Timber Engineering WCTE 2018, Seoul, Zuid-Korea, 20/08/18.

Climate-induced damage in historical cabinet doors. / Luimes, R.A.; Suiker, A.S.J.; Jorissen, A.J.M.; Schellen, H.L.; van Duin, P.H.J.C.

World Conference on Timber Engineering 2018. 2018. blz. 1-2.

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

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AU - van Duin, P.H.J.C.

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N2 - Climate-induced visual cracks or dimensional changes in historical art objects are aesthetically undesired. A thorough analysis of these aspects is essential for the development of adequate preservation strategies. For this purpose, in the present work full-scale experiments on mock-ups of historical cabinet doors were performed, and a numerical model was developed that can accurately simulate climate-induced damage development in oak wood. In contrast to what observation studies on historical museum objects indicate, the mock-ups showed no visible damage in terms of shrinkage cracks; a possible reason for this is that the local tensile strength of historical oak wood may be considerably lower than that of the new oak wood used for constructing the mock-ups. In the numerical model, the thermal and hygral responses were described by extended versions of Fourier's law of heat conduction and Fick's law of moisture diffusion. Discrete fracture is simulated by surrounding the continuum elements in a finite element model with interface elements equipped with a damage model. Preliminary numerical simulations give a good agreement with the solution of an analytical benchmark problem, and further show a realistic moisture hysteresis effect and damage pattern in the modelled sample.

AB - Climate-induced visual cracks or dimensional changes in historical art objects are aesthetically undesired. A thorough analysis of these aspects is essential for the development of adequate preservation strategies. For this purpose, in the present work full-scale experiments on mock-ups of historical cabinet doors were performed, and a numerical model was developed that can accurately simulate climate-induced damage development in oak wood. In contrast to what observation studies on historical museum objects indicate, the mock-ups showed no visible damage in terms of shrinkage cracks; a possible reason for this is that the local tensile strength of historical oak wood may be considerably lower than that of the new oak wood used for constructing the mock-ups. In the numerical model, the thermal and hygral responses were described by extended versions of Fourier's law of heat conduction and Fick's law of moisture diffusion. Discrete fracture is simulated by surrounding the continuum elements in a finite element model with interface elements equipped with a damage model. Preliminary numerical simulations give a good agreement with the solution of an analytical benchmark problem, and further show a realistic moisture hysteresis effect and damage pattern in the modelled sample.

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Luimes RA, Suiker ASJ, Jorissen AJM, Schellen HL, van Duin PHJC. Climate-induced damage in historical cabinet doors. In World Conference on Timber Engineering 2018. 2018. blz. 1-2