FDM 印刷木材/聚乳酸基复合材料的声学特性

IF 5.3 Q2 MATERIALS SCIENCE, COMPOSITES
K. Vigneshwaran , N. Venkateshwaran , R. Shanthi , Gokul Kannan , B.Rajesh Kumar , Vigneshwaran Shanmugam , Oisik Das
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引用次数: 0

摘要

研究了熔融沉积成型(FDM)印刷聚乳酸木材复合材料的声学特性。首先研究了不同层厚(0.15 毫米、0.20 毫米和 0.30 毫米)、填充密度(30%、60% 和 90%)和图案(层状、三角形和六边形)的聚乳酸木材复合材料的拉伸和弯曲性能。结果表明,采用六边形图案、90% 填充密度和 0.2 毫米层厚制作的试样具有最高的抗拉强度(16 兆帕)和抗弯强度(16 兆帕)。利用这一优化参数,印制了微穿孔板,并对其声学特性进行了研究。制作了五块厚度为 3 毫米、穿孔直径(5 毫米、4 毫米和 3 毫米)不同、穿孔呈建筑锥形的试样。使用阻抗管方法测量了声音传输损失和吸声系数。结果表明,与所有印刷试样相比,外部直径为 5 毫米、内部直径为 4.7 毫米的锥形穿孔的吸声系数最高,为 0.60 赫兹。由于其收敛孔直径减小,产生了粘性损失,从而导致声音衰减,并很容易被微穿孔板吸收。与此类似,用较小的穿孔直径(3 毫米)印制的试样的声音传输损失也高达 79 分贝。小直径穿孔阻碍了声波的通过。目前的研究预计将为今后对这些材料类别的广泛研究奠定基础,并有可能成为促进基于 FDM 的聚合物材料研究和开发的催化剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The acoustic properties of FDM printed wood/PLA-based composites
The acoustic properties of the Fused Deposition Modelling (FDM) printed PLA wood composite was investigated. Initially tensile and flexural of wood PLA composite was studied with respect to varying layer thickness (0.15 mm, 0.20 mm, and 0.30 mm), infill density (30 %, 60 %, and 90 %), and pattern (Layer, Triangle, and Hexagon). The outcomes demonstrated that the specimen produced with a hexagonal pattern, 90% infill density, and 0.2 mm layer thickness had the highest tensile (16 MPa) and flexural strength (16 MPa). Utilizing this optimized parameter, micro-perforated panels were printed and acoustic properties were studied. Five specimens with a 3 mm thickness, various perforation diameters (5 mm, 4 mm, and 3 mm), and architecturally tapered perforations were fabricated. Using the impedance tube approach, the sound transmission loss and sound absorption coefficients were measured. The findings indicate that, in comparison to all the printed specimens, tapered type perforation with an exterior diameter of 5 mm and an internal diameter of 4.7 mm showed highest sound absorption coefficient of 0.60 Hz. A viscous loss is obtained by its convergent hole diameter reduction, which results in sound attenuations and is easily absorbed in the micro-perforated panel. Similar to this, the specimen printed with smaller perforation diameters (3 mm) had a high sound transmission loss of 79 dB. The small diameter of the perforations prevented the passage of sound waves. The current study is anticipated to lay the groundwork for extensive future research on these classes of materials, potentially serving as a catalyst for advancements in FDM based polymeric materials research and development.
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来源期刊
Composites Part C Open Access
Composites Part C Open Access Engineering-Mechanical Engineering
CiteScore
8.60
自引率
2.40%
发文量
96
审稿时长
55 days
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