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Study on the preparation and application of phenolic
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[22] Zhang, Y., Yuan, Z., &Xu, C. (2015). Engineering
biomass into formaldehyde-free phenolic resin for
composite materials. AIChE Journal, 61(4), 1275–
1283. https://doi.org/10.1002/aic.14716.
[23] Zhu, Y., &Wang, Z. (2016). Phenolic foams, modi-
fied by nano-metallic oxides, improved in mechani-
cal strengths and friability. Iranian Polymer Journal
(English Edition), 25(7), 579–587. https://doi
.org/10.1007/s13726-016-0447-3.
[24] Ziarati, H. B., Fasihi, M., &Omranpour, H. (2020).
The effect of resin formulation on the cellular mor-
phology and mechanical properties of phenolic
foams. Journal of Applied Polymer Science, 137(5).
https://doi.org/10.1002/app.48331.
Polymers, 185. https://doi.org/10.1016/j.reactfunct
polym.2023.105535.
[20] Zhang, N., Hu, L., Guo, Y., Bo, C., Jia, P., Zhang, B.,
&Zhou, Y. (2020). Mechanical property of lignin-
modified phenolic foam enhanced by whisker silicon.
Journal of Dispersion Science and Technology, 41(3),
348–354. https://doi.org/10.1080/01932691.2019
.1578662.
[21] Zhang, Y., Wu, J., Zhang, X., &Zhu, J. (2021).
Study on the preparation and application of phenolic
resin-based filling composite materials in coal mines.
Mining Technology: Transactions of the Institute of
Mining and Metallurgy, 130(2), 109–118. https://
doi.org/10.1080/25726668.2021.1891807.
[22] Zhang, Y., Yuan, Z., &Xu, C. (2015). Engineering
biomass into formaldehyde-free phenolic resin for
composite materials. AIChE Journal, 61(4), 1275–
1283. https://doi.org/10.1002/aic.14716.
[23] Zhu, Y., &Wang, Z. (2016). Phenolic foams, modi-
fied by nano-metallic oxides, improved in mechani-
cal strengths and friability. Iranian Polymer Journal
(English Edition), 25(7), 579–587. https://doi
.org/10.1007/s13726-016-0447-3.
[24] Ziarati, H. B., Fasihi, M., &Omranpour, H. (2020).
The effect of resin formulation on the cellular mor-
phology and mechanical properties of phenolic
foams. Journal of Applied Polymer Science, 137(5).
https://doi.org/10.1002/app.48331.