Reversible and irreversible effects of mild thermal treatment on the properties of wood used for making musical instruments: comparing mulberry to spruce

IF 1.5 4区农林科学 Q2 FORESTRY

Iforest - Biogeosciences and Forestry Pub Date : 2022-08-31 DOI:10.3832/ifor4074-015

E. Karami, I. Brémaud, S. Bardet, T. Alméras, D. Guibal, P. Langbour, K. Pourtahmasi, J. Gril

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引用次数: 0

Abstract

Thermal treatments can be considered as an accelerated ageing, bringing partly similar changes in properties as naturally aged wood. Thermal treatment was applied on white mulberry ( Morus alba L.), a dominant species for making musical instruments from middle-East to Far-East, to investigate the effects on the vibro-mechanical and physical properties of this wood, and the results compared to previously published data on spruce ( Picea abies Karst.) as a reference for the soundboard of Western string instruments. Thermal treatment (TT) at 150 °C and 0% of relative humidity was applied to five anal-ogous groups of specimens with five different durations (2.5, 8, 24, 72, 261 hours). Humidity re-conditioning of specimens was done to explore the reversibility of TT effects. Physical and vibrational properties such as specific gravity ( γ ), equilibrium moisture content (EMC), CIELab colorimetric values, specific modulus of elasticity ( E ’/ γ ) and damping coefficient (tan δ ) in longitudinal (L) and radial (R) directions, have been measured after stabilisation of samples in standard conditions (20 °C, 65% RH), before and after TT and then after re-conditioning. Untreated mulberry had a low EMC, very low L/R anisotropy and low E ’ L / γ , and relatively low tan δ . Weight loss (WL) and CIELab values evolved similarly during TT for mulberry and for previous results on spruce, however, their EMC and vibrational properties were affected differently. This could be explained in part by the low anisotropy of mulberry, and in part by its particular extractives. The parts of irreversible effects, linked to chemical modification or degradation, and of reversible effects, linked to physical con-figuration, were different between mulberry and spruce. The applied treatments did not bring permanent “improvements” in vibrational properties of mulberry, yet its colour appearance was enhanced.

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温和热处理对乐器用木材性能的可逆和不可逆影响:桑树和云杉的比较

热处理可以被认为是加速老化，带来与自然老化的木材部分相似的性能变化。本研究对中东至远东地区主要乐器制造树种白桑树(Morus alba L.)进行热处理，研究热处理对其振动力学和物理性能的影响，并将热处理结果与先前发表的云杉(Picea abies Karst.)的数据进行比较，以作为西方弦乐器音板的参考。在150°C和0%的相对湿度下对五组类似的样品进行热处理(TT)，并进行五种不同的持续时间(2.5、8、24、72、261小时)。对试件进行湿度再调节，探讨TT效应的可逆性。在标准条件下(20°C, 65% RH)、TT前后和重新调节后，测量了样品在纵向(L)和径向(R)方向上的物理和振动特性，如比重(γ)、平衡水分含量(EMC)、CIELab比色值、比弹性模量(E′/ γ)和阻尼系数(tan δ)。未经处理的桑树具有较低的EMC、极低的L/R各向异性、较低的E′L/ γ和较低的tan δ。桑树和云杉的失重(WL)和CIELab值在TT期间的变化相似，但它们的EMC和振动特性受到的影响不同。这可以部分解释为桑树的低各向异性，部分是由于其特殊的提取物。与化学修饰或降解有关的不可逆效应部分和与物理形态有关的可逆效应部分在桑树和云杉之间有所不同。施用的处理没有带来永久的“改善”桑树的振动特性，但它的颜色外观增强。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Iforest - Biogeosciences and Forestry FORESTRY-

CiteScore

3.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： The journal encompasses a broad range of research aspects concerning forest science: forest ecology, biodiversity/genetics and ecophysiology, silviculture, forest inventory and planning, forest protection and monitoring, forest harvesting, landscape ecology, forest history, wood technology.