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© 《China Plastics》
China Plastics ›› 2023, Vol. 37 ›› Issue (1): 38-45.DOI: 10.19491/j.issn.1001-9278.2023.01.007
• Materials and Properties • Previous Articles Next Articles
ZHANG Weicheng1(), HU Xiang1, LUO Hongxing1, JIN Hui1, YOU Feng1,2(
), JIANG Xueliang1, YAO Chu1
Received:
2022-10-25
Online:
2023-01-26
Published:
2023-01-26
CLC Number:
ZHANG Weicheng, HU Xiang, LUO Hongxing, JIN Hui, YOU Feng, JIANG Xueliang, YAO Chu. Study on sound absorption and dynamic mechanical properties of polyurethane foaming materials filled with hollow glass beads[J]. China Plastics, 2023, 37(1): 38-45.
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URL: https://www.plaschina.com.cn/EN/10.19491/j.issn.1001-9278.2023.01.007
TCP含量/% | HGB含量/% | AC含量/% | 半峰宽/Hz |
---|---|---|---|
0 | - | - | 400 |
10 | - | - | 362 |
15 | - | - | 308 |
20 | - | - | 306 |
25 | - | - | 180 |
- | 0 | - | 180 |
- | 5 | - | 188 |
- | 10 | - | 228 |
- | 15 | - | 282 |
- | 20 | - | 490 |
- | - | 0 | 228 |
- | - | 1 | 586 |
- | - | 2 | 946 |
- | - | 3 | 270 |
TCP含量/% | HGB含量/% | AC含量/% | 半峰宽/Hz |
---|---|---|---|
0 | - | - | 400 |
10 | - | - | 362 |
15 | - | - | 308 |
20 | - | - | 306 |
25 | - | - | 180 |
- | 0 | - | 180 |
- | 5 | - | 188 |
- | 10 | - | 228 |
- | 15 | - | 282 |
- | 20 | - | 490 |
- | - | 0 | 228 |
- | - | 1 | 586 |
- | - | 2 | 946 |
- | - | 3 | 270 |
1 | Ramon M K, Glicéreio T, Samir NY G, et al. Evaluation of sound absorption capacity of asphalt mixtures[J]. Applied Acoustics, 2016,114:266⁃274. |
2 | Xie S C, Li Z, Yan H Y, et al. Ultra⁃broadband sound absorption performance of a multi⁃cavity composite structure filled with polyurethane[J]. Applied Acoustics, 2022,189:https://doi.org/10.1016/j.apacoust.2021.108612. |
3 | Hyeon C, Giwook S, Jung H K. Chemical treatment of wood fibers to enhance the sound absorption coefficient of flexible polyurethane composite foams[J]. Composites Science and Technology, 2018,156:19⁃27. |
4 | Gao N, Zhang Z, Deng J, et al. Acoustic metamaterials for noise reduction: a review[J]. Advanced Materials Technologies, 2022,7:https://doi.org/10.1002/admt.202100698. |
5 | Ji Y, Chen S. Optimization of acoustic performances of a new tung oleic acid⁃based composite polyurethane foam[J]. Journal of Applied Polymer Science, 2019,136:https://doi.org/10.1002/app.47861. |
6 | Sun F S, Li L J, Gang X Y, et al. Equivalent model of spatial random array vibration system on sound⁃absorbing computing for porous material[J]. Applied Acoustics, 2020,165:https://doi.org/10.1016/j.apacoust.2020.107299. |
7 | Lin J H, Li T T, Lou C W. Puncture⁃resisting, sound⁃absorbing and thermal⁃insulating properties of polypropylene⁃selvages reinforced composite nonwovens[J]. Journal of Industrial Textiles, 2016,45(6):1 477⁃1 489. |
8 | Rastegar N, Ershad⁃Langroudi A, Parsimehr H, et al. Sound⁃absorbing porous materials: a review on polyurethane⁃based foams[J]. Iranian Polymer Journal, 2022,31:83⁃105. |
9 | Hyeon C, Jae H L, Jung H K. Polyurethane composite foams including CaCO3 fillers for enhanced sound absorption and compression properties[J]. Composites Science and Technology, 2020,194:https://doi.org/10.1016/j.compscitech.2020.108153. |
10 | Hilal O, Emine D K. Rice plant waste reinforced polyurethane composites for use as the acoustic absorption material[J]. Applied Acoustics,2021,173:https://doi.org/10.1016/j.apacoust.2020.107733. |
11 | Fang W, Fei Y, Lu H, et al. Enhanced sound insulation and mechanical properties based on inorganic fillers/thermoplastic elastomer composites[J]. Journal of Thermoplastic Composite Materials, 2019,32(7):936⁃950. |
12 | Zhang Z, Jiang H, Li R, et al. High⁃damping polyurethane/hollow glass microspheres sound insulation materials: Preparation and characterization[J]. Journal of Applied Polymer Science, 2021,138:https://doi.org/10.1002/app.49970. |
13 | Lu J J, Guan J P, Wang H Q, et al. Investigation on compressive and impact performance of GO-modified hollow glass beads/epoxy resin composites in simulated deep-sea environment[J]. Composites Science and Technology, 2022,227:https://doi.org/10.1016/j.compscitech.2022.109608. |
14 | Liu Y, Huo Y J, Du Y K, et al. Research progress in the preparation and properties of sound absorbing materials[J]. Journal of Functional Materials, 2022,53(2):2 073⁃2 079. |
15 | 刘 杨,霍又嘉,杜元开,等. 吸声材料制备、性能研究进展[J]. 功能材料, 2022,53(2):2 073⁃2 079. |
LIU Y, HUO Y J, DU Y K, et al. Research progress in the preparation and properties of sound absorbing materials[J]. Journal of Functional Materials, 2022,53(2):2 073⁃2 079. | |
16 | Khanlari T, Bayat Y, Bayat M. Preparation of a novel polyurethane network based on PPG⁃P GN⁃PPG: investigation of the effect of plasticizers on its properties[J]. Polymer Bulletin, 2022,79:709⁃724. |
17 | Chu H Y, Li H B, Sun X Y, et al. Synthesis of biomass based plasticizer from linoleic acid and cardanol for preparing durable PVC material[J]. Journal of Polymers and the Environment,2022,30:3 270⁃3 278. |
18 | Norazlina H, Kamal Y. Elucidating the plasticizing effect on mechanical and thermal properties of poly(lactic acid)/carbon nanotubes nanocomposites[J]. Polymer Bulletin, 2021,78:6 911⁃6 933. |
19 | Lin J H, Hsu P Y, Huang C H, et al. Functional hollow ceramic microsphere/flexible polyurethane foam composites with a cell structure[J]. Mechanical Property and Sound Absorptivity. Polymers, 2022,14(5):913. |
20 | Seung H B, Jung H K. Polyurethane composite foams including silicone⁃acrylic particles for enhanced sound absorption via increased damping and frictions of sound waves[J]. Composites Science and Technology, 2020,198:https://doi.org/10.1016/j.compscitech.2020.108325. |
21 | 王建忠,奚正平,汤慧萍,等.金属纤维多孔材料吸声性能研究现状[J]. 稀有金属材料与工程, 2012,41(S2):405⁃408. |
WANG J Z, XI Z P, TANG H P, et al. Research status of sound absorption property of porous materials made by metal fiber[J]. Rare Metal Materials and Engineering, 2012,41(S2):405⁃408. | |
22 | Rostami⁃Tapeh⁃Esmaeil E, Vahidifar A, Esmizadeh E, et al. Chemistry, processing, properties, and applications of rubber foams[J]. Polymers. 2021,13(10):1 565. |
23 | Huang C H, Lou C W, Chuang Y C, et al. Acoustic absorption properties and theoretics of pol⁃ ymer foams[J]. Investigation Economica, 2015,55:237⁃257. |
24 | Md A S S, Aminul I, Venkata K N. Damping and sound absorption properties of polymer matrix composites: a review[J]. Polymer Testing, 2021,104:https://doi.org/10.1016/j.polymer testing.2021.107338. |
25 | Mishra R, Wiener J, Militky J, et al. Bio⁃composites reinforced with natural fibers: comparative analysis of thermal, static and dynamic⁃mechanical properties[J]. Fibers and Polymer,2020,21(3):619⁃627. |
26 | Devangamath S S, Lobo B, Masti S P, et al. Mechanical and dynamic mechanical studies on epoxy⁃cobaltous sulfate polymer hybrids[J]. Fibers and Polymer, 2018,19(7):1 490⁃1 499. |
27 | Wloch M, Ostaszewska U, Datta J. The effect of polyurethane glycolysate on the structure and properties of natural rubber/carbon black composites[J]. Journal of Polymers and the Environment, 2019,27:1 367⁃1 378. |
28 | Behniafar H, Ahmadi⁃khaneghah A, Yazdi M. Enhanced heat stability and storage modulus in novel PTMO⁃intercalated clay platelets/PTMO⁃based polyurethane nanocomposites[J]. Journal of Polymer Research, 2016,23(9):202. |
29 | Xu Q, Li Z, Liu J, et al. Influence of HGB on cell structure and mechanical properties of CSW⁃reinforced PP/LDPE foam composites[J]. Journal of Reinforced Plastics and Composites, 2014,33(4):322⁃329. |
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