Ελληνικά

Laser direct writing technology for preparing micrometer scale heatable graphene de icing and anti icing surfaces broadens the preparation method of new de icing and anti icing devices

899
2023-10-16 11:28:42
Δείτε τη μετάφραση

Research background
In transportation, industrial production, and practical life, icing often brings great troubles, and the most serious is that during the flight of an aircraft, key components once frozen will seriously affect navigation safety.

The traditional passive deicing and anti icing strategies for aircraft, such as mechanical vibration and anti freezing liquids, have problems such as incomplete deicing effect, environmental pollution, and reduced skin life; However, the common pneumatic and thermal active deicing and anti icing strategies on aircraft face problems such as inaccurate control and increased energy consumption. Although the new electric thermal active deicing and anti icing system has advantages such as high efficiency, good reliability, and easy control, the drawbacks of high electrical energy consumption have always limited its development. Currently, the industry urgently needs stable, efficient, and reliable new deicing and anti icing technologies.

Research Highlights 
This article focuses on the development bottleneck of high energy consumption in electric active deicing and anti icing, combined with the cutting-edge anti icing technology of hydrophobic materials in the current industry. With the help of Laser Induced Graphene (LIG) technology, which can simultaneously achieve graphene generation and precision patterning design, the common 10.6 μ By directly irradiating polyimide film (PI) with m CO2 laser and adjusting the scanning speed of the laser (50-125 mm/s), a micron scale grooved graphene surface with both hydrophobicity/superhydrophobicity and electrothermal function was successfully prepared under atmospheric pressure, expanding the preparation methods of new deicing and anti icing devices.

The basic characterization and performance testing of hydrophobic graphene surfaces revealed for the first time a significant linear negative correlation between the width of the grooves and scanning speed, which is of great significance for precise micro adjustment in laser manufacturing.

Low temperature icing tests and stability tests have shown that graphene surfaces have the potential to be reused for long-term hydrophobic and delayed icing applications.

Joule thermal performance tests have shown that graphene surfaces can achieve an electric heating effect of 45.5 ℃ -151.3 ℃ under low DC voltage supply (3 V-7 V), and can achieve surface defrosting and deicing functions (such as defrosting within 5 seconds and deicing within 90 seconds under 5V power supply) in an environment of -23 ℃.

The above research content and results demonstrate that laser induced graphene technology can efficiently and quickly convert polymer surfaces with hydrophilic wetting properties into micron scale hydrophobic graphene surfaces with hydrophobic wetting properties, providing a new approach and preparation method for preparing multifunctional deicing and anti icing surfaces with both hydrophobic and electrothermal functions.

The corresponding results were published in the Coatings journal under the title of "Fabric of Micron Structured Headable Graphene Hydrophobic Surfaces for Decking and Anti Icing by Laser Direct Writing". The first author of the article was Li Shichen, a 2021 master's student at the School of Avionics and Electrical Engineering, China Civil Aviation University, The co corresponding authors are Associate Professor Zhong Mian from the School of Avionics and Electrical Engineering, China Civil Aviation Flight Academy, and Professor He Qiang from the School of Civil Aviation Safety Engineering.

Source: Sohu


Σχετικές προτάσεις
  • A New Method for Controlling Light Polarization Using Liquid Crystal to Create Holograms

    Researchers have made significant breakthroughs in controlling optical polarization, which is a key characteristic of various applications such as augmented reality, data storage, and encryption.This new method was developed by a group of scientists using liquid crystals to create holograms, which can manipulate the polarization of light at different points. This represents a significant advanceme...

    2024-03-12
    Δείτε τη μετάφραση
  • HGTECH Laser's New Product Debuts at the 2025 Munich Shanghai Light Expo

    New Product for Wafer Testing Probe Card Manufacturing Equipment Project This project adopts vision guided laser precision cutting to separate the probe from the crystal disk, and then generate a product mapping image for use in the next process. When picking up the probe, multi-point reference surface fitting technology is used to achieve non-contact probe suction and avoid force deformation. A...

    03-07
    Δείτε τη μετάφραση
  • A research team at City University of Hong Kong has developed a multispectral, ultra-low dose photoacoustic microscope system

    Optical resolution "photoacoustic microscope is a new biomedical imaging technology, which can be used in the research of cancer, diabetes, stroke and other diseases. However, insufficient sensitivity has always been a long-term obstacle to its wider application.According to Maims Consulting, a research team from City University of Hong Kong (CityU) has recently developed a multispectral, ultra-lo...

    2023-09-21
    Δείτε τη μετάφραση
  • LASER CHINA 2025 on-the-Spot, What New Technologies are Trending This Year?

    Every year, Shanghai is lit up with a “feast of light”, that is LASER World of PHOTONICS CHINA, which has lasted for 20 years and become an arena for global photoelectric enterprises to display and compete, instead of just an exhibition hall of devices. Chanelink team visited all these halls for laser technology, thoroughly learning the cutting-edge trends in photoelectric industry.As a technical...

    03-19
    Δείτε τη μετάφραση
  • Xi'an Institute of Optics and Fine Mechanics has made new progress in the research of intelligent optical microscopy imaging

    Recently, the State Key Laboratory of Transient Optics and Photonics Technology of Xi'an Institute of Optics and Fine Mechanics has made new progress in the research of intelligent optical microscopic imaging, and the research results were published online in the international high-level academic journal Opto Electronic Advances (IF: 15.3). The first author of the paper is Tian Xuan, a 2024 doctor...

    2024-09-09
    Δείτε τη μετάφραση