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1.
简单介绍我国民族乐器的主要研究方向,重点对民族乐器共鸣用材的振动性能、选材与加工2个方面的研究进展进行总结与分析,同时也简要介绍以钢琴为代表的西洋乐器用材声学性能的研究内容与评价方法.通过分析我国民族乐器用木材声学品质研究中存在的不足及实际生产中存在的问题,探讨未来的发展趋势,即今后应着重开展以下几个方面的研究:研究民族乐器共鸣构件用木材的声振动性能与乐器音色、品质的内在联系,建立选材的客观评价方法;开展乐器共鸣构件用木材的选材-共鸣用木质构件-乐器成品中的共鸣用木质构件-乐器声学品质的系统化研究,构建共鸣木质构件的声学振动模型;探索民族乐器共鸣用木材的声学性能改良方法,以改善木材的振动性能.  相似文献   

2.
【目的】探究抽提处理对乐器用泡桐木材声学振动性能的影响,为木材声学品质改良提供理论依据,促进我国乐器产品声学品质提高,缓解乐器共鸣板用优质木材资源日益匮乏的局面。【方法】采用苯甲醇、去离子水、二氯甲烷和无水乙醇4种溶剂对泡桐木材进行15天的抽提处理,基于两端自由的弯曲振动方法,测定并分析抽提处理对木材弹性模量E、剪切模量G、比动弹性模量E/ρ、对数衰减系数σ、声阻抗ω、声辐射品质常数R、E/G、传声速度υ、传输参数υ/σ、声转换效率υ/(σ·ρ)等声学振动性能参数的影响规律,并通过微观结构观察、红外光谱(FTIR)和X射线衍射(XRD)的变化,分析抽提处理对木材声学振动性能的影响机理。【结果】经去离子水、二氯甲烷、苯甲醇和无水乙醇抽提处理后,泡桐木材声学振动性能参数均发生变化。比动弹性模量E/ρ、声辐射品质常数R和传声速度υ平均增加7.67%、11.36%和3.75%,其中经二氯甲烷抽提处理的改善效果最佳,增幅分别为13.99%和17.28%和6.77%;声阻抗ω和对数衰减系数σ平均降低3.23%和19.42%,经去离子水抽提处理后其下降程度最大,降幅分别为-5.03%和-23.45%...  相似文献   

3.
结合乐器用木材的宏观和微观构造、物理力学性能要求及评价指标,总结乐器用木材声学振动性能的影响因素及参数要求,归纳化学、物理、生物等处理方法在木材声学振动性能改良方面的应用研究及进展,分析各改良方法存在的问题,为木材声学振动特性功能改良的进一步研究提供思路。  相似文献   

4.
对不同针、阔叶材树种木材进行吸湿循环处理,通过对声学振动性能进行跟踪测试,研究吸湿循环处理对声学振动性能的改良效果,并探讨木材解剖构造的特异性对其声学振动性能改良效果的影响。以4种常用乐器用材泡桐、梓木、杉木和西加云杉为研究对象,制成标准试样250 mm(纵向)×50 mm(径向)×15 mm(弦向),经60℃干燥48 h后,置于25℃、相对湿度60%的环境中平衡,此为1次循环,共循环4次。测量并计算处理前、不同次数循环处理后4种木材声学振动参数的变化,并结合解剖构造进行分析。木材的纤维/管胞长度从大到小依次为西加云杉杉木泡桐梓木。吸湿循环处理后,4种木材比动弹性模量和声辐射阻尼系数均呈增长趋势,其中泡桐的增长率最大,分别为27.95%和44.37%;西加云杉最小分别为3.84%和7.90%。木材的声阻抗变化率,梓木最大为-15.54%,西加云杉最小为-5.75%。试验结果表明:吸湿循环处理前后,梓木的声学振动性能均为最差;吸湿循环处理改善了木材声学振动性能,阔叶材声学振动性能的改善效果优于针叶材,其中泡桐的改善效果最好;吸湿循环处理2次后,木材比动弹性模量和声辐射阻尼系数、声阻抗均达到稳定,继续2次吸湿循环处理后基本保持不变。  相似文献   

5.
【目的】分析弦乐器指板常用热带硬阔叶木材的声学振动性能,归纳总结指板用木材的声学振动性能要求,为寻找可替代树种或对人工林木材进行功能改良以替代传统指板用木材提供科学依据。【方法】采用X-射线剖面密度测试仪表征木材一个生长轮内早晚材的密度差异及沿径向密度分布的均匀性;利用超声波微秒计测试木材声传播速度;运用模态分析法测试木材的共振频率和扭转频率,根据矩形截面Euler-Bernoulli方程计算木材声学振动参数。【结果】乌木绝干密度为1 180 kg·m~(-3),阔叶黄檀绝干密度为810 kg·m~(-3),东非黑黄檀绝干密度为1 320 kg·m~(-3);弦乐器共鸣板用硬槭木绝干密度为660 kg·m~(-3),非乐器用木材辐射松绝干密度为480 kg·m~(-3)。乐器用木材一个生长轮内早晚材及相邻生长轮之间密度差异较小,材质均匀。指板用木材轴向和径向声传播速度均低于硬槭木和辐射松。硬槭木顺纹与横纹的声传播速度比为3.2,声学各向异性较优。乌木、东非黑黄檀和阔叶黄檀的动态弹性模量(E')分别为18.2、16.8和14.8 GPa,指板用木材的E'均大于14.0 GPa。指板用木材的比动态弹性模量(E_(sp))均小于18.0 GPa,硬槭木和辐射松的E_(sp)分别为24.5和26.8 GPa,均高于指板用木材。乌木、阔叶黄檀和东非黑黄檀的声辐射品质常数(R)分别为3.21、5.08和2.58 m~3·Pa~(-1)s~(-3),硬槭木和辐射松的R分别为7.17和9.41 m~3·Pa~(-1)s~(-3)。指板用木材的声阻抗(ω)、对数衰减系数(λ)和损耗角正切值(tanδ)均高于硬槭木和辐射松。指板用木材的声学转化率(ACE)和E'/G'均低于硬槭木。乌木、阔叶黄檀、东非黑黄檀、硬槭木和辐射松的动态剪切模量(G')分别为1.97、1.72、2.58、1.21和1.09 GPa,指板用木材的G'均大于硬槭木和辐射松。【结论】指板用木材绝干密度均大于800 kg·m~(-3)。木材密度与其声学振动性能存在一定函数关系,选材时密度和声学振动性能需共同考虑。与共鸣板相比,指板选材对木材声学振动性能的要求远低于共鸣板。在声学振动性能方面,木材的E'和G'是指板选材的主要评估指标,要求尽量选择E'和G'大的木材,E'越大,指板抵抗不同弦张力所引起的弯曲变形能力越强; G'越大,指板抑制不同弦张力所引起的扭转变形能力越强。木材的E_(sp)、R、ACE、E'/G'、λ、tanδ、ω等声学振动参数可不作为指板选材的主要评估指标。  相似文献   

6.
云杉材是制作钢琴音板的主要用材,以4种云杉属木材为研究对象,采用快速傅里叶变换分析法测试其共振频率,并计算其声学振动性能参数,分析木材纹理角度对云杉材声学振动性能具有的影响。结果表明:随着纹理角的增大,云杉材的动弹性模量、比动弹性模量增大,损耗角正切减小。当纹理角为90°时,云杉材的振动效率最高、声能损耗最少,声学性能最优。通过综合加权法评定,纹理角90°的麦吊云杉具有最优振动性能。  相似文献   

7.
为探究木质-碳纤维复合材料声学振动性能的影响因素及其用作乐器用木材替代材料的可行性,从复合材料层数结构和碳纤维铺设方向两个角度出发,对木质-碳纤维复合材料试件的声学振动性能参数(比动弹性模量、E/G、声阻抗等)进行对比分析,并以常用作乐器音板材料的美国西加云杉作为参照。结果表明,碳纤维方向对复合材料的声学振动性能影响显著,当碳纤维铺设方向从0°到45°,90°时,其声学振动参数比动弹性模量和E/G值都出现不同程度的下降;层数结构对复合材料的音色品质影响较大,当层数从5层增加到7层后,音色品质明显下降。采用层数较少的5层结构(单板/碳纤维布/单板/碳纤维布/单板)和碳纤维方向为0°的铺层设计能获得综合表现较好的声学振动性能,其比动弹性模量为25.55 GPa·cm~3/g,比美国西加云杉比动弹性模量25.98GPa·cm~3/g仅低1.66%,而其E/G值(27.89)甚至比美国西加云杉E/G值(20.14)高38.48%,具有媲美美国西加云杉的音色表现。  相似文献   

8.
电声乐器中木材声学振动性能对音响特性的影响   总被引:1,自引:0,他引:1  
电声乐器是现代科学技术的产物,在现代音乐中占有很重要的地位。电声弦乐器与传统弦乐器相比少了共鸣板(共鸣箱),而琴体部分多由实木构成。因这类乐器的发声原理特异而导致对使用的材料以及结构上的要求也有所变化。以电吉他为研究对象,通过对木材的振动声学性质以及电磁拾音器输出信号的音响特性进行研究,初步分析了在打击音法和拾音器集音的2种方式下对数衰减率和比动弹性模量之间的关系。结果表明,赤桦木最适合做为琴体材料;琴体在横向振动方式下的比动弹性模量约为纵向振动方式的24倍;拾音器所输出的泛音成分在3和5倍区域趋于集中。此外,进一步评价了琴体木材和琴弦振动对拾音器的影响,为继续深入探讨木材在电声乐器中的应用提供参考。  相似文献   

9.
针对音板木材振动信号分析不深入的问题,本研究基于小波包分析方法对木材振动信号进行分析,建立一种木材声学振动评价的新方法。利用多通道FFT分析仪获取泡桐木材的振动信号,基于Daubechies小波基函数对振动信号进行3层小波包分解与重构,得到了振动信号的特征值,将小波包变换后木材振动信号的特征值与传统方法测定的声学振动性能参数进行比较分析。研究结果表明:木材的振动信号能量主要集中在0~1 000 Hz,在传播的过程中能量衰减迅速;对振动信号进行时域分析时得出,木材的动态弹性模量随着峭度因子的增大而减小,随着峰值因子的增大而增大;基于Daubechies小波基的分析方法得到的振动信号特征值与声学振动参数之间具有显著的相关性,其中木材信号的特征能量率与木材声学振动参数动态弹性模量、声辐射品质常数以及声传播速度之间存在显著的正相关关系,与声阻抗以及对数衰减率的相关性及变化趋势之间有显著的负相关关系。研究表明,可以应用Daubechies小波对木材振动信号进行分析与评价,此方法为木材声学振动性能的客观评价提供了新思路。  相似文献   

10.
为了探究炭化处理对木材板材声学振动性能的影响和规律,本文对45块白杨试件进行不同炭化温度(170、190、210℃)和不同保温时间(2、3、4 h)的炭化处理。采用了傅立叶变换频振动频谱分析仪(fast Fourier transform,FFT)测定炭化处理前后的杨木密度、比动弹性模量、声辐射品质常数、声阻抗及弹性模量与剪切模量比值的变化规律。结果表明:炭化处理工艺对不同的声学振动参数有不同的影响规律,当处理温度为210℃、保温时间为3 h时,可以较为显著的提高木材综合声学振动性能。  相似文献   

11.
近红外光谱技术具有快速、无损、样品易于准备、适合实际生产在线检测等优点,在木材科学研究领域的应用越来越广泛。文中阐述近红外光谱技术在木材纤维素、木质素和抽提物等化学属性预测,生长特性及物理力学特征等物理属性预测,以及在木质复合材料生产中应用的研究进展,分析了其在木材材性分析及木质复合材料生产中的研究趋势。  相似文献   

12.
The vibrational performance of wood materials critical affects the acoustic quality of a lute. The purpose of this research was to apply a multiple choice model to predict the quality of musical instruments based on data on lute soundboard vibrational properties of Paulownia wood.In the lute production, lute material selection mainly depends on the subjective evaluation of technicians, which is not only inefficient, but inaccurate. In this study, nine lutes were fabricated. Using the multiple selection model,the lute tone quality was predicted by the soundboard wood vibration data. Compared with the actual value, the dependent value predicted by the count of observations with the maximum probability had 22 erroneous judgments. The model precision is 87.78%. The results confirmed that the prediction model can be used as a guideline for the selection of the soundboard wood in musical instrument plants.  相似文献   

13.
As an important material of making instrument resonant component, paulownia has a significant influence on instrument acoustic quality. Using the method of support vector machine (SVM), an evaluation model for predicting the Yueqin acoustic quality was developed based on the wood vibration performance. Generally, the wood selection in the Yueqin manufacture mainly depends on observance weighting by hands, knocking and listening by an instrument technician. The defect in scientific theory impedes the improvement of Yueqin quality. In this study, nine Yueqin were fabricated. Based on the information of their raw materials and Yueqin acoustic quality evaluation, a prediction model was proposed. In the total 180 groups of data, 60 groups of data were randomly selected for the training, 30 groups of data were randomly selected from the unused data for the verification. The radial basis function is used to establish the Yueqin soundboard wood acoustic quality evaluation model and simulate the prediction. The results revealed that the prediction of Yueqin acoustic quality could be achieved based on the soundboard wood vibration performance using the MATLAB simulation. The classification accuracy was 90.00%, indicating that the predicted values were highly consistent with the experimental values. The models are able to be used to precisely predict the Yueqin acoustic quality based on the vibration performance of soundboards.  相似文献   

14.
木材声学振动特性科学机理与评价方法的研究正逐渐兴起,而针对竹材声学振动特性的相关研究则少有报道。文中重点围绕木竹材声学振动特性,从声振动效率、音色和发音效果稳定性3个方面介绍了木竹材声学振动特性的定量评价方法;从不同尺度(宏观—微观)、不同层次(化学组分—物理性质)和不同方式(选材—加工)系统阐述其主要影响因素;在此基础上,总结了木竹材声学特性功能性改良的主要方法,并提出今后科学研究的具体建议。  相似文献   

15.
Plantations of tropical species are becoming an increasingly important source of wood.However, it is important that research trials focus not only on tree growth performance, but also on wood quality.The aims of this study were to assess the growth performance of six commercially and ecologically important tree species from separate plantation trials in Indonesia and to determine the relationships between tree growth and wood quality in terms of the dynamic modulus of elasticity(MOE) and wood density.Forty-eight 7-year Maesopsis eminii Engl.and thirty-five 9-year specimens(7 each of 5 Shorea spp.)were selected from two trials.The MOE, based on acoustic velocity, was indirectly measured to evaluate wood stiffness.Tree-growth performance was evaluated, and correlations between growth traits and acoustic velocity as well as density and wood stiffness properties were estimated.The growth performance of M.eminii in terms of tree volume was significantly different in three different categories of growth(i.e.fast, medium, slow).Of the five Shorea spp.studied, Shorea leprosula Miq.had the highest growth rate, as expected since it is known to be a fastgrowing Shorea species.Indirect measurement of wood quality by means of non-destructive ultrasonic methods showed a weak negative correlation between tree volume and acoustic velocity and dynamic MOE.Although each fast-growing tree could reach a merchantable size faster than other varieties or species, wood traits of various species tested were not significantly different based on tree growth rate performance.The findings from this study could be used to improve selection criteria in future breeding trials; indirect measurements of the dynamic modulus of elasticity can be used in mass pre-selection of genetic materials, to choose the most-promising material for in-depth evaluation.  相似文献   

16.
以钢琴音板用西加云杉锯材试件为研究对象,依据梁的纵向、横向弯曲原理及其动力学理论,采用振动频率法和声学频率法,测量该批试材在自由支承状态下的基频值,得到杨氏弹性模量值,并对其性能进行评价。  相似文献   

17.
The vibrational properties of a harp soundboard were investigated with respect to its multi-layered structure. The surfaces of harp soundboards are usually reinforced with veneer; however, this reduces the specific dynamic Young’s modulus (E′/ρ) and significantly increases the internal friction (Q ?1) of soundboards. Since smaller E′/ρ and greater Q ?1 values impart a smaller acoustic conversion efficiency, the attachment of veneer is predicted to reduce the amplitude of the sound produced, as suggested by harp makers. The vibrational properties of veneer-reinforced wood are elucidated using a multi-layered model comprising base wood, a glue layer, veneer and a varnish layer. The results of calculations suggest that a thinner veneer attached with minimal glue would increase the sound amplitude.  相似文献   

18.
随着资源的消耗以及人类可持续性发展意识的增强,木材等绿色资源的功能化改性及应用日益受到人们关注。木基发光材料综合了木基复合材料和发光材料的优势,以木材为载体,通过浸渍发光材料获得具有发光性能的功能性木材,其在一定程度上保留了木材的基本结构特征,并改善了木材的尺寸稳定性、防腐防潮性和力学性能等,还可以通过添加其他功能性材料开发磁性、储能等新功能。文中从制备木基发光材料所需的原辅材料、功能性添加剂等方面综述目前国内外木基发光材料的相关研究成果,主要对其所使用的发光材料进行分类,分析总结各研究成果的制备工艺包括对木材的不同预处理方式等;同时对木基发光材料在照明装饰、储能材料等领域的应用前景进行展望;并从材料、工艺和功能性添加剂等方面提出一些深入研究的建议,旨在进一步提升木基发光材料的性能,为其在家居、储能、照明等领域得到更广泛的应用提供思路。  相似文献   

19.
激光以其能量密度高、运行轨迹自如、方向性好等优点,被广泛用于木质材料切削加工以及表面处理等领域。其中,木质材料激光表面处理,即利用激光热/光电子效应促进材料发生物理、化学变化,以实现改性的目的。笔者对木质材料激光表面处理原理、激光类型与用途以及激光表面处理技术特点与应用领域等内容的研究现状进行了综述与分析。现有研究表明:材料对于不同波长激光的吸收系数差异明显,基于此特性可实现木质材料表层激光选择性消融,以满足不同应用场合的加工需求;其次,激光功率、激光扫描路径密度以及进给速度等激光工艺参数,决定了表面处理过程中能量密度及分布,进而影响木质材料表面改性强度与深度,通过对激光参数的优化可实现木质材料表面部分性能(如表面颜色、润湿性、功能性结构等)的精准改性。最后,还探讨了木质材料激光表面处理领域研究现状与趋势,阐明了研究的科学意义和未来研究方向,以期为创新木质材料表面处理技术、实现其提质增效提供理论指导,也为拓宽激光技术在木质材料加工领域的应用范围提供思路。  相似文献   

20.
While wood has numerous attributes that make it an excellent material for many uses, its properties can also vary widely according to wood species and even within the same species. Wood used in structural applications is categorized into classes. For many wood products, these classes or grades are based upon visual assessments that account for grain characteristics along with natural defects such as knots or splits. These approaches are simple, but also limit the potential for identifying products based upon actual material properties. One alternative is to use acoustic tests to estimate modulus of elasticity and then correlate these values to actual material properties. The potential for using acoustic tests to estimate wood properties was assessed with a prototype acoustic device (Metriguard Model 242) on western juniper (Juniperus occidentalis) posts that were then tested using a destructive bending test. These tests could allow the identification of decayed areas within a post if they were directly in the tested area, but predicted modulus of elasticity was poorly correlated with actual modulus of rupture (r2?=?0.23). The correlation was improved by only considering those samples where the acoustic test was made through the same area where the test load was applied, but the relationship was still weak (r2?=?0.33). Acoustic testing did appear to be able to identify unacceptably weak samples with minimal rejection of acceptable samples, suggesting that acoustic testing might be a useful sorting tool to improve the reliability of timbers.  相似文献   

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