Sound insulation and hydrophobic properties of phenolic resin modified melamine foam: Role of micro-morphology

Yong Yang; Zhou Chen; Tengzhou Xu; Ruonan Han; Desire Emefa Awuye

doi:10.1088/2053-1591/ab17bb

Sound insulation and hydrophobic properties of phenolic resin modified melamine foam: Role of micro-morphology

Yong Yang, Zhou Chen, Tengzhou Xu, Ruonan Han, Desire Emefa Awuye

School of Mechanical and Power Engineering

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

In this paper, physical properties (sound insulation and hydrophobicity) and corresponding mechanism of melamine foam (density 8 kg m^-3 and thickness 18 mm) modified by phenolic resin were explored. Results showed that deposits of phenolic resin were found on the foam skeleton and formed various morphologies between the skeletons. These morphologies were seen in different forms such as 'plane', 'spherical' and 'flat' depending on the phenolic resin content. This phenomenon had a significant effect on the pore size of melamine foam. There was a remarkable improvement in sound transmission loss (STL) compared to that without phenolic resin. However, STLs did not increase monotonically. The contact angles of all samples modified by phenolic resin were around 1300, presented a slight fluctuation due to pore size and exhibited excellent hydrophobic property.

Original language	English
Article number	075331
Journal	Materials Research Express
Volume	6
Issue number	7
DOIs	https://doi.org/10.1088/2053-1591/ab17bb
State	Published - 24 Apr 2019

Keywords

contact angle
hydrophobicity property
melamine foam
phenolic resin
sound insulation

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10.1088/2053-1591/ab17bb

Cite this

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title = "Sound insulation and hydrophobic properties of phenolic resin modified melamine foam: Role of micro-morphology",

abstract = "In this paper, physical properties (sound insulation and hydrophobicity) and corresponding mechanism of melamine foam (density 8 kg m-3 and thickness 18 mm) modified by phenolic resin were explored. Results showed that deposits of phenolic resin were found on the foam skeleton and formed various morphologies between the skeletons. These morphologies were seen in different forms such as 'plane', 'spherical' and 'flat' depending on the phenolic resin content. This phenomenon had a significant effect on the pore size of melamine foam. There was a remarkable improvement in sound transmission loss (STL) compared to that without phenolic resin. However, STLs did not increase monotonically. The contact angles of all samples modified by phenolic resin were around 1300, presented a slight fluctuation due to pore size and exhibited excellent hydrophobic property.",

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author = "Yong Yang and Zhou Chen and Tengzhou Xu and Ruonan Han and {Emefa Awuye}, Desire",

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T1 - Sound insulation and hydrophobic properties of phenolic resin modified melamine foam

T2 - Role of micro-morphology

AU - Yang, Yong

AU - Chen, Zhou

AU - Xu, Tengzhou

AU - Han, Ruonan

AU - Emefa Awuye, Desire

PY - 2019/4/24

Y1 - 2019/4/24

N2 - In this paper, physical properties (sound insulation and hydrophobicity) and corresponding mechanism of melamine foam (density 8 kg m-3 and thickness 18 mm) modified by phenolic resin were explored. Results showed that deposits of phenolic resin were found on the foam skeleton and formed various morphologies between the skeletons. These morphologies were seen in different forms such as 'plane', 'spherical' and 'flat' depending on the phenolic resin content. This phenomenon had a significant effect on the pore size of melamine foam. There was a remarkable improvement in sound transmission loss (STL) compared to that without phenolic resin. However, STLs did not increase monotonically. The contact angles of all samples modified by phenolic resin were around 1300, presented a slight fluctuation due to pore size and exhibited excellent hydrophobic property.

AB - In this paper, physical properties (sound insulation and hydrophobicity) and corresponding mechanism of melamine foam (density 8 kg m-3 and thickness 18 mm) modified by phenolic resin were explored. Results showed that deposits of phenolic resin were found on the foam skeleton and formed various morphologies between the skeletons. These morphologies were seen in different forms such as 'plane', 'spherical' and 'flat' depending on the phenolic resin content. This phenomenon had a significant effect on the pore size of melamine foam. There was a remarkable improvement in sound transmission loss (STL) compared to that without phenolic resin. However, STLs did not increase monotonically. The contact angles of all samples modified by phenolic resin were around 1300, presented a slight fluctuation due to pore size and exhibited excellent hydrophobic property.

KW - contact angle

KW - hydrophobicity property

KW - melamine foam

KW - phenolic resin

KW - sound insulation

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Sound insulation and hydrophobic properties of phenolic resin modified melamine foam: Role of micro-morphology

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Keywords

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