Your search keyword '"aged wood"' showing total 9 results

1. Research on the Fire Performance of Aged and Modern Wood

Author

Jing, Cong, Renner, Juliana Sally, Xu, Qiang, Makovická Osvaldová, Linda, editor, Hasburgh, Laura E., editor, and Das, Oisik, editor

Published

2024

2. Selected Physical and Mechanical Properties of Subfossil Oak (Quercus spp.) Compared to Aged Oak and Recent Oak.

Author

Nedelcu, Ruxandra, Timar, Maria Cristina, Porojan, Mihaela, and Beldean, Emanuela Carmen

Subjects

FURNITURE design, MATERIALS testing, GRAIN yields, RIPARIAN areas, OAK

Abstract

Subfossil oak (SO) wood material, originating from three different buried trunks discovered in recent years by excavations in riverbanks on Romanian territory, was analysed in this research. Aged oak recovered from constructions (AO_C) and recent/new oak wood material (NO) were also investigated to provide comparative data for the SO. The oven-dry density and the basic density, the total volumetric and linear swelling and shrinkage coefficients and the compression strength parallel to the grain were the selected physical and mechanical properties considered. The experimental results showed a lower density of SO compared to NO and AO_C tested by up to about 19–20%, alongside a trend of increased dimensional instability, with variability among the tested assortments. The compression strength parallel to the grain was reduced by 19–31% compared to NO. The properties of AO-C were closer to those of NO, but differences between wood materials from different sources and of different ages were registered. A positive linear correlation was found between compression strength parallel to grain and the basic density for all types of material and assortments tested. These comparative results have to be considered by designers and engineers in the valorisation of SO in furniture design and other applications. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effects of natural weathering on aged wood from historic wooden building: diagnosis of the oxidative degradation

Author

Xiaochen Mi, Yingqi Li, Xiaochao Qin, and Jie Li

Subjects

Historic wooden building, Aged wood, Oxidative degradation, Natural weathering, Chemical analysis, Fine Arts, Analytical chemistry, QD71-142

Abstract

Abstract Historic wooden buildings located outdoors are exposed to natural weathering conditions for extended periods of time, causing deterioration of wood properties by sunlight, oxygen, and other environmental factors. Current diagnostic procedures are limited to macroscopic inspection. In this interdisciplinary study, several aged samples from Yingxian Wooden Pagoda (ca. 1056 AD) were analyzed. Their micro-morphology and changes in chemical composition were investigated using less invasive multi-chemical techniques. The aim is to elucidate the oxidative degradation and its deterioration mechanism of the wood, which is essential in identifying the key factors responsible for natural weathering and devising strategies to counteract the surface deterioration. All aged wood samples had varying degrees of decay and lignin content was decreased in most of them. The high ratio of oxygen/carbon elements evidenced the occurrence of chemical reactions. In particular, the increasing ratio of oxygenated carbon/unoxygenated carbon indicates potential oxidation reactions. Overall, for the aged wood of historic wood building under warm-dry natural conditions, their deterioration occurred through the oxidative degradation of lignin. These unique results are useful in developing effective repair and restoration measures to conserve wooden components in historic buildings.

Published

2023

4. Effects of natural weathering on aged wood from historic wooden building: diagnosis of the oxidative degradation.

Author

Mi, Xiaochen, Li, Yingqi, Qin, Xiaochao, and Li, Jie

Subjects

WOODEN building, WOOD, WOOD decay, HISTORIC buildings, PRESERVATION of architecture, WOODEN-frame buildings, WOODEN beams, SOFTWOOD

Abstract

Historic wooden buildings located outdoors are exposed to natural weathering conditions for extended periods of time, causing deterioration of wood properties by sunlight, oxygen, and other environmental factors. Current diagnostic procedures are limited to macroscopic inspection. In this interdisciplinary study, several aged samples from Yingxian Wooden Pagoda (ca. 1056 AD) were analyzed. Their micro-morphology and changes in chemical composition were investigated using less invasive multi-chemical techniques. The aim is to elucidate the oxidative degradation and its deterioration mechanism of the wood, which is essential in identifying the key factors responsible for natural weathering and devising strategies to counteract the surface deterioration. All aged wood samples had varying degrees of decay and lignin content was decreased in most of them. The high ratio of oxygen/carbon elements evidenced the occurrence of chemical reactions. In particular, the increasing ratio of oxygenated carbon/unoxygenated carbon indicates potential oxidation reactions. Overall, for the aged wood of historic wood building under warm-dry natural conditions, their deterioration occurred through the oxidative degradation of lignin. These unique results are useful in developing effective repair and restoration measures to conserve wooden components in historic buildings. [ABSTRACT FROM AUTHOR]

Published

2023

5. Selected Physical and Mechanical Properties of Subfossil Oak (Quercus spp.) Compared to Aged Oak and Recent Oak

Author

Ruxandra Nedelcu, Maria Cristina Timar, Mihaela Porojan, and Emanuela Carmen Beldean

Subjects

oak, subfossil wood, aged wood, recent wood, density, swelling, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Subfossil oak (SO) wood material, originating from three different buried trunks discovered in recent years by excavations in riverbanks on Romanian territory, was analysed in this research. Aged oak recovered from constructions (AO_C) and recent/new oak wood material (NO) were also investigated to provide comparative data for the SO. The oven-dry density and the basic density, the total volumetric and linear swelling and shrinkage coefficients and the compression strength parallel to the grain were the selected physical and mechanical properties considered. The experimental results showed a lower density of SO compared to NO and AO_C tested by up to about 19–20%, alongside a trend of increased dimensional instability, with variability among the tested assortments. The compression strength parallel to the grain was reduced by 19–31% compared to NO. The properties of AO-C were closer to those of NO, but differences between wood materials from different sources and of different ages were registered. A positive linear correlation was found between compression strength parallel to grain and the basic density for all types of material and assortments tested. These comparative results have to be considered by designers and engineers in the valorisation of SO in furniture design and other applications.

Published

2024

6. Synchrotron X-ray measurements of cellulose in the cell wall of aged wood under uniaxial loading.

Author

Kojima, Erina, Yamasaki, Mariko, Lee, Chang-Goo, and Sasaki, Yasutoshi

Subjects

*WOOD, *HEMICELLULOSE, *CELLULOSE, *AMORPHOUS substances, *SYNCHROTRONS, *COMPRESSION loads, *STRAIN rate

Abstract

The purpose of this study is to examine the effect of wood aging on the mechanical behavior at the cell-wall level. Synchrotron X-ray diffraction (XRD) measurements were performed to investigate the mechanical behavior of cellulose in the S2 layer of aged wood from a 250-year-old attic cabin beam. XRD measurements under uniaxial loading were performed on the cellulose (004) plane; the results were compared with those of recent wood. The cellulose in aged wood exhibited a delayed response to both tensile and compressive loading compared with recent wood. Under compressive loading, cellulose showed an increase in maximum strain and a significant increase in the variation of cellulose orientation angle, indicating that it may exhibit buckling-like meandering behavior. These results could be explained based on the decrease in hemicellulose content in the cell wall due to wood aging. In other words, the results suggested that an amorphous material in the cell wall affected the mechanical behavior of wood at the cell-wall level. [ABSTRACT FROM AUTHOR]

Published

2023

7. Influence of Natural Aging on the Moisture Sorption Behaviour of Wooden Structural Components.

Author

Han, Liuyang, Xi, Guanglan, Dai, Wei, Zhou, Qun, Sun, Suqin, Han, Xiangna, and Guo, Hong

Subjects

*STRUCTURAL components, *CALCIUM oxalate, *DISTRIBUTION isotherms (Chromatography), *MOISTURE, *INFRARED spectroscopy, *SORPTION, *LIGNIN structure, *IMMUNOCOMPUTERS

Abstract

A greater understanding of moisture sorption behaviour of aged wooden structural components, which has a close relationship with dimensional stability, is required to effectively evaluate and preserve historical artefacts. This study focused on the effects of aging on Baotou beam samples from a Chinese historical wooden building. An analysis of the sorption isotherms and hysteresis loops of a naturally aged, decayed sample (AOS), an aged sound sample (AIS), and a reference sample (RS), using classical sorption isotherm models revealed that the moisture sorption behaviour of samples from the same growth ring in a Baotou beam can differ significantly. AOS showed higher hygroscopicity than AIS, and both these samples were more hygroscopic than RS. Furthermore, the mono/multilayer moisture contents of AOS were always higher than those of AIS and RS. In addition, Fourier transform infrared, second-derivative infrared, and two-dimensional correlation infrared spectroscopy were used to investigate chemical changes in the samples. The relative hemicellulose and lignin contents of the samples changed significantly with wood aging. Furthermore, AOS exhibited the highest calcium oxalate content, which may be associated with fungal infections. Overall, these results provide valuable insights into the effects of aging on wood samples and the dimensional stability of timber structures, which could inform future research on methods for the preservation or restoration of aging timber structures. [ABSTRACT FROM AUTHOR]

Published

2023

8. Energetic Investigation of Aging Effect on Mechanical Behavior in Wood by Means of XRD Measurement.

Author

Imaeda, Koki, Yamasaki, Mariko, Kojima, Erina, Lee, Chang-Goo, Sugimoto, Takanori, and Sasaki, Yasutoshi

Subjects

STRAIN energy, WOOD, MICROFIBRILS, SOFTWOOD, CELLULOSE, SYNCHROTRON radiation

Abstract

In this study, it is aimed to consider whether the strain energy could evaluate the mechanical durability of wood. To investigate the aging effects on the mechanical properties of bulk wood and cellulose microfibrils in the cell walls of wood, XRD measurements were taken under tensile loading. Specimens were recent wood and wood used for 250 years (aged wood). Thermal modifications were further applied for additionally aging treatment of both specimens. The standardized strain energy of the bulk wood and cellulose microfibrils was exponentially reduced with increasing mass loss of specimens. The reduction degree of aged wood was smaller than that of recent wood. Using this phenomenon, it was proposed that the aging effect can be quantitatively evaluated. [ABSTRACT FROM AUTHOR]

Published

2022

9. Synchrotron X-ray measurements of cellulose in the cell wall of aged wood under uniaxial loading

Author

Kojima Erina, Yamasaki Mariko, Lee Chang-Goo, Sasaki Yasutoshi, Kojima Erina, Yamasaki Mariko, Lee Chang-Goo, and Sasaki Yasutoshi

Published

2023