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1.
Identification of anisotropic vibrational properties of Padauk wood with interlocked grain 总被引:1,自引:0,他引:1
Iris Brémaud Pierre Cabrolier Joseph Gril Bruno Clair Jean Gérard Kazuya Minato Bernard Thibaut 《Wood Science and Technology》2010,44(3):355-367
Grain deviations and high extractives content are common features of many tropical woods. This study aimed at clarifying their
respective impact on vibrational properties, referring to African Padauk (Pterocarpus soyauxii Taub.), a species selected for its interlocked grain, high extractives content and uses in xylophones. Specimens were cut
parallel to the trunk axis (L), and local variations in grain angle (GA), microfibril angle (MFA), specific Young’s modulus
(E′
L
/ρ, where ρ stands for the density) and damping coefficient (tanδL) were measured. GA dependence was analysed by a mechanical model which allowed to identify the specific Young’s modulus (E′3/ρ) and shear modulus (G′/ρ) along the grain (3) as well as their corresponding damping coefficients (tanδ3, tanδG). This analysis was done for native and then for extracted wood. Interlocked grain resulted in 0–25° GA and in variations
of a factor 2 in E′L/ρ and tanδL. Along the grain, Padauk wood was characterized, when compared to typical hardwoods, by a somewhat lower E′3/ρ and elastic anisotropy (E′/G′), due to a wide microfibril angle plus a small weight effect of extracts, and a very low tanδ3 and moderate damping anisotropy (tanδG/tanδ3). Extraction affected mechanical parameters in the order: tanδ3 ≈ tanδG > G′/ρ > > E′3/ρ. That is, extractives’ effects were nearly isotropic on damping but clearly anisotropic on storage moduli. 相似文献
2.
Iris Brémaud Nadine Amusant Kazuya Minato Joseph Gril Bernard Thibaut 《Wood Science and Technology》2011,45(3):461-472
Extractives can affect the vibrational properties tanδ (damping coefficient) and E′/ρ (specific Young’s modulus), but this
is highly dependent on species, compounds, and cellular locations. This paper investigates such effects for African Padauk
(Pterocarpus soyauxii Taub.), a tropical hardwood with high extractives content and a preferred material for xylophones. Five groups of 26 heartwood
specimens with large, yet comparable, ranges in vibrational properties were extracted in different solvents. Changes in vibrational
properties were set against yields of extracts and evaluation of their cellular location. Methanol (ME) reached most of the
compounds (13%), located about half in lumen and half in cell-wall. Water solubility was extremely low. tanδ and E′/ρ were
very strongly related (R
2 ≥ 0.93), but native wood had abnormally low values of tanδ, while extraction shifted this relation towards higher tanδ values.
ME extracted heartwood became in agreement with the average of many species, and close to sapwood. Extractions increased tanδ
as much as 60%, irrespective of minute moisture changes or initial properties. Apparent E′/ρ was barely changed (+2% to −4%)
but, after correcting the mass contribution of extracts, it was in fact slightly reduced (down to −10% for high E′/ρ), and
increasingly so for specimens with low initial values of E′/ρ. 相似文献
3.
Anisotropy of wood vibrational properties: dependence on grain angle and review of literature data 总被引:1,自引:1,他引:0
The anisotropy of vibrational properties influences the acoustic behaviour of wooden pieces and their dependence on grain
angle (GA). As most pieces of wood include some GA, either for technological reasons or due to grain deviations inside trunks,
predicting its repercussions would be useful. This paper aims at evaluating the variability in the anisotropy of wood vibrational
properties and analysing resulting trends as a function of orientation. GA dependence is described by a model based on transformation
formulas applied to complex compliances, and literature data on anisotropic vibrational properties are reviewed. Ranges of
variability, as well as representative sets of viscoelastic anisotropic parameters, are defined for mean hardwoods and softwoods
and for contrasted wood types. GA-dependence calculations are in close agreement with published experimental results and allow
comparing the sensitivity of different woods to GA. Calculated trends in damping coefficient (tanδ) and in specific modulus
of elasticity (E′/ρ) allow reconstructing the general tanδ-E′/ρ statistical relationships previously reported. Trends for woods with different mechanical parameters merge into a single
curve if anisotropic ratios (both elastic and of damping) are correlated between them, and with axial properties, as is indicated
by the collected data. On the other hand, varying damping coefficient independently results in parallel curves, which coincide
with observations on chemically modified woods, either “artificially”, or by natural extractives. 相似文献
4.
To analyze the effects of lignin on the destabilization of wood due to quenching, we examined the dielectric properties of
untreated and delignified wood before and after quenching at 20°C from 50 Hz to 100 MHz. For untreated wood, the inflection
points of log ε′ and log σ vs log f and the peak of log(tan δ) vs log f were attributed to interfacial polarization before quenching, and the location of the inflection point shifted to a higher
frequency with increasing moisture content because of changes in the water cluster. After quenching, the inflection points
of log ε′ and log σ and the peak of log(tan δ ) shifted to higher frequency; however, the values of log ε′, log σ recovered to those before quenching with the passage of time. For delignified wood, dielectric relaxation was observed at
a higher frequency than for untreated wood irrespective of quenching. It was inferred that the mobility of water molecules
was influenced by the cluster surroundings because of increased number of adsorption sites in hemicellulose. Moreover, after
quenching, the recovery process did not change greatly over time; it was shown that the matrix structure was affected more
by quenching with the loss of lignin. 相似文献
5.
The radial compression behaviors of acetylated cedar wood were measured in various liquids. The compressive Young’s modulus
(E) of acetylated wood was reduced by soaking in water, toluene, and acetone, but it was always greater than that of water-swollen
unmodified wood at the same swelling level. The behaviors of acetone-swollen unmodified wood were similar to those of acetylated
wood rather than those of water-swollen unmodified wood. These results indicated that the swelling of hydrophobic wood components
had a lesser influence on the E of wood than the water-swelling of unmodified hydrophilic components. After large compression (ε > 45%), a part of the strain
remained unrecovered because of irreversible mechanical deformation. Since the remaining strain was smaller in the wood specimens
indicating greater stress relaxation, it was assumed that the viscoelastic deformation of amorphous matrix components is important
for lesser irreversible deformation and effective shape recovery of wood. In contrast with water-swollen unmodified wood,
the acetylated wood and acetone-swollen unmodified wood exhibited greater shape recovery despite their relatively higher E. This suggested that the swelling of hydrophobic wood components reduced the viscosity of the matrix rather than its elasticity,
resulting in more effective shape recovery with lesser softening. 相似文献
6.
Aida Se Golpayegani Iris Brémaud Joseph Gril Marie-France Thevenon Olivier Arnould Kambiz Pourtahmasi 《Journal of Wood Science》2012,58(2):153-162
Vibrational properties of wood are affected by several parameters, of which extractives can be one of the most important ones.
Wood for European musical instruments has been often studied, but traditional Middle Eastern ones had been left unnoticed.
In this study white mulberry (Morus alba L.), the main material for long-necked lutes in Iran, was extracted by five solvents of various polarities (water included).
Free-free bar forced vibrations were used to measure longitudinal (L) loss tangent (tanδ), storage (elastic) modulus (E′) and specific modulus (E′/γ) in the acoustic range. Their anisotropy between the 3 axes of orthotropy was determined by dynamic mechanical analysis.
Native wood had a quite low E
L′/γ but its tanδ was smaller than expected, and the anisotropy of tanδ and E′/γ was very low. Removal of extractives caused tanδ to increase and moduli to decrease. Acetone, the most effective solvent on damping despite a moderate extraction yield, increased
tanδ
L by at least 20% but did not modify E′/γ as much. When used successively, its effects masked those of solvents used afterwards. Anisotropy of E′/γ was nearly unchanged after extraction in methanol or hot water, while tanδ was much more increased in R than in T direction. Results suggest that in white mulberry, damping is governed more by nature
and localization of extractives rather than by their crud abundance. 相似文献
7.
Tian Zhang Shu-Lin Bai Sandrine Bardet Tancrède Alméras Bernard Thibaut Jacques Beauchêne 《Journal of Wood Science》2011,57(5):377-386
The radial trends of vibrational properties, represented by the specific dynamic modulus (E′/ρ) and damping coefficient (tan δ), were investigated for three tropical rainforest hardwood species (Simarouba amara, Carapa procera, and Symphonia globulifera) using free-free flexural vibration tests. The microfibril angle (MFA) was estimated using X-ray diffraction. Consistent
patterns of radial variations were observed for all studied properties. E′/ρ was found to decrease from pith to bark, which was strongly related to the increasing pith-bark trend of MFA. The variation
of tan δ along the radius could be partly explained by MFA and partly by the gradient of extractives due to heartwood formation. The
coupling effect of MFA and extractives could be separated through analysis of the log(tan δ) versus log(E′/ρ) diagram. For the species studied, the extractive content putatively associated with heartwood formation generally tends
to decrease the wood damping coefficient. However, this weakening effect of extractives was not observed for the inner part
of the heartwood, suggesting that the mechanical action of extractives was reduced during their chemical ageing. 相似文献
8.
Five wood species were acetylated with acetic anhydride (AA) solution of glucose pentaacetate (GPA) at 120°C for 8h, and the effect of GPA on the dimensional stability of the acetylated wood was investigated. Some GPA was introduced into the wood cell wall during acetylation. The GPA remaining in the cell lumen penetrated the cell wall effectively after heating to more than 140°C for 10min. The bulking effects of GPA resulted in a 10%–30% increase in the anti-swelling efficiency of the acetylated wood with 20% GPA/AA solution in place of AA. Hydrophobic GPA did not deliquesce under highly humid conditions and it remained in the cell wall after boiling in water.Part of this paper was presented at the 51st Annual Meeting of the Japan Wood Research Society, Tokyo, April 1988 相似文献
9.
Delignified hinoki wood and cellulose as well as hinoki and lauan woods were carbonized at 590°C for 1 h. The dielectric properties
of these specimens were measured at 20°C in a frequency range of 20 Hz to 1 MHz. Inflection points in the dielectric constant
(ε′) versus the logarithm of frequency (log f) curves as well as in the logarithm of the electric conductivity (log σ) versus log f curves for all specimens prepared were recognized. Peaks in the dielectric loss and the imaginary part of the complex conductivity
versus the log f curves were detected in the frequency location corresponding to the inflection point in the ε′ and log σ versus log f curves. It was considered that this relaxation was responsible for the interfacial polarization observed in heterogeneous
materials because no permanent dipoles existed in the specimens carbonized above 500°C. The Cole–Cole circular arc law was
applied to account for this relaxation. Similar average relaxation times were obtained for all specimens. These results suggested
that the observed relaxation was ascribed to interfacial polarization at microscopic levels in the cell walls. 相似文献
10.
Bakary Traoré Loïc Brancheriau Patrick Perré Tatjana Stevanovic Papa Diouf 《Annals of Forest Science》2010,67(8):815-815
– |
• Vène wood (Pterocarpus erinaceus Poir.) is currently the favorite wood for manufacture of xylophone in Mali. A dynamic analysis method with free boundary
conditions, known as BING, was used to determine the main acoustic properties: specific dynamic modulus (E
L
/ρ), damping coefficient or internal friction (tan δ), sound radiation coefficient (SRC) and peak response (PR). 相似文献
11.
To investigate the influence of heating and drying history on the microstructure of dry wood, in addition to the dynamic viscoelastic
properties, CO2 adsorption onto dry wood at ice.water temperature (273 K) was measured, and the micropore size distribution was obtained
using the Horvath-Kawazoe (HK) method. Micropores smaller than 0.6 nm exist in the microstructures of dry wood, and they decreased
with elevating out-gassing temperature and increased again after rewetting and drying. Dry wood subjected to higher temperatures
showed larger dynamic elastic modulus (E′) and smaller loss modulus (E″). This is interpreted as the result of the modification at higher temperature of the instability caused by drying. Drying
history influenced the number of micropores smaller than 0.6 nm in dry wood not subjected to high temperature, although the
difference in the number of micropores resulting from the drying history decreased with increasing out-gassing temperature.
A larger number of micropores smaller than 0.6 nm exist in the microstructure of dry wood in more unstable states, corresponding
to smaller E′ and larger E″ than in the stable state. Consequently, unstable states are considered to result from the existence of temporary micropores
in the microstructures of dry wood, probably in lignin.
Part of this report was presented at the 55th Annual Meeting of the Japan Wood Research Society, Kyoto, March 2005, and at
the 56th Annual Meeting of the Japan Wood Research Society, Akita, August 2006 相似文献
12.
Iris Brémaud Kazuya Minato Patrick Langbour Bernard Thibaut 《Annals of Forest Science》2010,67(7):707-707
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