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P. 187

武厚等：耐高温化学改性硅树脂的制备及应用进展

[32] ZHANG X J，TIAN J，WANG L J，t al. Wettability effect of
e
with excellent anti-scaling and UV resistance properties[J].
coatings on drag reduction and paraffin deposition
Chemical Engineering Journal，2021，411：128632.
prevention in oil[J]. Journal of Petroleum Science and
[28] LIU Z J，ZHANG C Y，ING J，et al. Bristle worm inspired
J
Engineering，2002，36（1/2）：87-95.
ultra-durable superhydrophobic coating with repairable
[33] WANG Y D，ZHU X，GAO M H，et al. Preparation of
microstructures and anti-corrosion/scaling properties[J].
degradable anti-waxing coating and a novel method for
Chemical Engineering Journal，2022，436：135273.
quantifying anti-waxing property of coatings[J]. ACS
[29] LIU Z J，REN L N，ZHANG B S，et al. Eco-friendly
Omega，2022，7（43）：38766-38773.
waterborne superhydrophobic/superoleophilic FEVE composite
[34] TAN S L，VON L E，MAJUMDER M，et al. Facile one-step
coating with prolonged mechanochemical and anti-scaling
properties[J]. Chemical Engineering Journal，2023，451： functionalised graphene oxide-phytic acid coating towards
effective wax inhibition in waxy oil transportation[J]. Fuel，
138693.
[30] 王，敏峰，俞徐林，等 . 复兴高含页岩油冷集 2024，377：132829.
[35] WU Y，ZHAO M Y，GUO Z G. Multifunctional superam-
工艺关键数确定[J]. 油气运，2024，43（7）：809-818.
phiphobic SiO coating for crude oil transportation[J].
WANG X，TAO M F，YUXL，et al. Determination of key 2
Chemical Engineering Journal，2018，334：1584-1593.
parameters for gathering and transmission process of Fuxing
[36] PENG J W，GENG H L，XU F，et al. Endowing versatility
highly waxy shale oil at low temperatures[J]. Oil & Gas
and superamphiphobicity to composite coating via a
Storage and Transportation，2024，43（7）：809-818.
[31] 范开峰，朱新月，余春浩，等. 基于材料本体及其表面改性 bioinspired strategy[J]. Chemical Engineering Journal，
的管道防技术研究进展[J]. 科学通报，2024，69（36）： 2023，455：140772.
[37] PENG J W，YUAN S C，GENG H L，et al. Robust and
5259-5270.
multifunctional superamphiphobic coating toward effective
FAN K F，ZHU X Y，YU C H，et al. Advances in pipeline
anti-adhesion[J]. Chemical Engineering Journal，2022，
wax inhibition technology based on material properties and
surface modifications[J]. Chinese Science Bulletin，2024， 428：131162.
69（36）：5259-5270.
收稿日期 2025-03-26（修改稿）

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