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Abstract

Ultra-high molecular weight polyethylene (UHMWPE) ropes are widely used in the industrial field due to their high strength and low density. However, ultraviolet (UV) radiation can cause degradation of their molecular chains and affect their performance. This study innovatively applied FEVE resin coating to modify UHMWPE ropes. Through 30-day accelerated UV aging tests combined with multi-scale characterization (tensile testing, bending abrasion, DSC, FTIR, and SEM), the protective mechanisms of the coating were systematically evaluated. The results showed that the FEVE coating significantly improved the UV resistance of the rope. After aging for 30 days, the strength retention rate of the coated sample reached 70%, which was much higher than the 28.5% of the uncoated sample. The coating also enhanced the wear resistance and effectively inhibited fiber damage and crack propagation. After 2000 frictions under a constant load of 20N, the strength retention rate of the UHMWPE rope modified with this coating increased by 1.32 times before aging, and increased by 2.75 times after aging for 30 days. DSC and FTIR analysis confirmed that the coating could protect the molecular chain structure.This study pioneers the application of FEVE coating to enhance the anti-aging performance of UHMWPE ropes, providing an effective solution to improve their durability in harsh environments.

Keywords

UHMWPE rope UV aging wear resistance mechanical properties fluorocarbon coating

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References

Zhang

Ren

. Functional gradient ultrahigh molecular weight polyethylene for impact-resistant armor. ACS Appl Polym Mater 2019; 1: 2197–2203.

Zhang

Feng

Althakafy

, et al. Ultrahigh molecular weight polyethylene fiber/boron nitride composites with high neutron shielding efficiency and mechanical performance. Adv Compos Hybrid Mater 2022; 5: 2012–2020.

Patel

Chikkali

Sivaram

. Ultrahigh molecular weight polyethylene: catalysis, structure, properties, processing and applications. Prog Polym Sci 2020; 109: 101290.

Han

Cai

Chen

, et al. Study of UHMWPE fiber surface modification and the properties of UHMWPE/epoxy composite. Polymers (Basel) 2020; 12: 21.

Suñer

Joffe

Tipper

, et al. Ultra high molecular weight polyethylene/graphene oxide nanocomposites: thermal, mechanical and wettability characterisation. Compos B Eng 2015; 78: 185–191.

Schaaf

Abeln

Feldmann

, et al. Full-Locked coil ropes with HDPE sheath: studies of mechanical behavior of HDPE under accelerated aging. Materials (Basel) 2025; 18: 06.

Jiang

. Microscopic insights into the long-term ageing mechanism of asphalt in the hygrothermal environments. Mater Chem Phys 2024; 317: 129209.

Barron

Birkinshaw

. Ultra-high molecular weight polyethylene – evidence for a three-phase morphology. Polymer 2008; 49: 3111–3115.

Wang

Jiang

, et al. Thermal aging behavior of carbon fiber/epoxy composites at high temperature. Polym Polym Compos 2014; 22: 09.

10.

Zhang

Jing

Bai

, et al. Study on the aging behavior of an ultra-high molecular weight polyethylene fiber barrier net in a marine environment. Materials (Basel) 2022; 15: 5599.

11.

Wang

Liu

Yin

, et al. Impact of ultraviolet aging on the composition and characteristics of multifunctional composite coatings. Polym Compos 2024; 45: 10989–11003.

12.

Feng

Yang

, et al. Gradient aging behaviors of asphalt aged by ultraviolet lights with various intensities. Constr Build Mater 2021; 295: 123618.

13.

Gaston

Dupuy

Marque

SRA

, et al. FTIR Study of ageing of γ-irradiated biopharmaceutical EVA based film. Polym Degrad Stab 2016; 129: 19–25.

14.

Chen

Yang

, et al. FTIR Analysis on aging characteristics of ABS/PC blend under UV-irradiation in air. Spectrochim Acta, Part A 2017; 184: 361–367.

15.

Kong

Hay

. The measurement of the crystallinity of polymers by DSC. Polymer 2002; 43: 3873–3878.

16.

Hellweg

Beuse

Winter

, et al. Influence of lithium metal deposition on thermal stability: combined DSC and morphology analysis of cyclic aged lithium metal batteries. J Electrochem Soc 2023; 170: 040530.

17.

C-S

Zhan

M-S

Huang

X-C

, et al. Degradation behavior of ultra-high molecular weight polyethylene fibers under artificial accelerated weathering. Polym Test 2012; 31: 938–943.

18.

Firouzi

Youssef

Amer

, et al. A new technique to improve the mechanical and biological performance of ultra high molecular weight polyethylene using a nylon coating. J Mech Behav Biomed Mater 2014; 32: 198–209.

19.

Wang

Qian

, et al. Surface modification of ultra-high-molecular-weight polyethylene and applications: a review. Polymers (Basel) 2024; 16: 3431.

20.

Zhang

S-C

X-M

Gao

, et al. Experimental study on corrosion of galfan-coated full-locked coil ropes in a natatorium environment. Adv Civ Eng 2022; 2022: 9777836.

21.

Liu

, et al. Pollutant-accelerated aging behaviors of fluorocarbon coating in tropical marine atmosphere. Prog Org Coat 2020; 139: 105447.

22.

Wang

, et al. The hygrothermal aging process and mechanism of the novolac epoxy resin. Compos B Eng 2016; 107: –8.

23.

Lai

Zhou

Zhan

, et al. Study on the antibacterial properties of BiOIO3/graphene oxide (GO) modified fluorocarbon resin coating (PEVE) under UV light. React Kinet, Mech Catal 2021; 134: 579–589.

24.

Bao

Ameyaw

Gao

, et al. Effect of ultraviolet aging on the structure and wear resistance of ultra-high-molecular-weight polyethylene ropes. Fibers Polym 2025; 26: 2305–2315.

25.

Rull

Prieto

Casado

, et al. Estimation of crystallinity in polyethylene by Raman spectroscopy. J Raman Spectrosc 1993; 24: 45.

26.

Nascimento

ALCS

Parkes

GMB

Ashton

, et al. Thermal analysis in oxidative and pyrolysis conditions of alkaline earth metals picolinates using the techniques: tG-DSC, DSC, MWTA, HSM and EGA (TG-DSC-FTIR and HSM-MS). J Anal Appl Pyrolysis 2018; 135: 67.

27.

Chen

, et al. Study on aging resistance of room temperature curing fluorocarbon coatings. Coat Ind 2014; 44: 21. in Chinese.

28.

Wang

Quan

Wang

, et al. The effect of shrinkage on the structure and properties of ultra-high molecular weight polyethylene fibers with different concentration. J Appl Polym Sci 2021; 138: 50198.

Performance of ultra-high molecular weight polyethylene ropes with fluorocarbon coating

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