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A wave-transparent electrothermal sandwich composite for high-efficient anti-icing/de-icing

Jichen Chen, Yan Bai, Zehui Zhao, Yantong Zhu, Zelinlan Wang, Shize Sun, Yonggang Xu, Liming Yuan, Liwen Zhang, Xiaolin Liu, Huawei Chen

2024Materials & Design16 citationsDOIOpen Access PDF

Abstract

• Integrated electrothermal anti-icing composites are fabricated by hot-pressing. • Anti-icing composites performed high robustness and 14% energy saving. • An 80% wave transmittance of composites is ensured by electromagnetic design. Light-weight composite materials with multifunction are widely used on aircrafts, antennas and wind turbines. Its anti-icing/de-icing is still a great challenge due to its poor heat transmission and low heat resistance. To address these issues, a novel electrothermal sandwich composite (NESC) was prepared by hot pressing an electrothermal film into load-bearing composite materials. By optimizing the ingredient of boron nitride nanoparticle, the heat diffusion rate was improved by 86 %, saving ∼14 % of energy consumption for complete anti-icing in dynamic icing conditions compared to samples without thermal conductivity enhancement. Furthermore, high electromagnetic transmittance up to 80 % of NESC was ensured through electromagnetic design. Besides the high-efficient and electromagnetic compatible anti-icing performance, NESC also performs high resistance to acid/alkali, abrasion and impact, good heating uniformity, stable photothermal effect, and potential of large-area manufacture. This paper presents a promising solution for durable, multi-functional, compatible, and energy-saving composites for anti-icing and de-icing.

Topics & Concepts

IcingMaterials scienceComposite numberComposite materialMeteorologyPhysicsIcing and De-icing TechnologiesSmart Materials for ConstructionSurface Modification and Superhydrophobicity
A wave-transparent electrothermal sandwich composite for high-efficient anti-icing/de-icing | Litcius