Nanotechnology Now – Press Release: Researchers develop polyimide-mica nanocomposite film with high resistance to low earth orbit environments

Home > Press > Researchers develop polyimide-mica nanocomposite film with high resistance to low earth orbit environments

Abstract:
Polyimide (PI) composite films are widely used on the external surfaces of spacecraft to protect them from the adverse environments of low Earth orbit (LEO) due to their outstanding comprehensive performance. However, current PI composite films have inadequate mechanical properties and atomic oxygen (AO) resistance.

Researchers develop polyimide-mica nanocomposite film with high resistance to low earth orbit environments

Hefei, China | Posted on December 3rd, 2021

In a study published in Advanced Materials, a research team led by Prof. YU Shuhong from University of Science and Technology of China (USTC) of the Chinese Academy of Sciences proposed a unique double-layer nacre-inspired structural design strategy, and fabricated a new PI-based nanocomposite film with greatly enhanced mechanical properties and AO resistance.

Inspired by the brick-and-mortar microstructure of natural nacre, researchers assembled mica nanosheets and PI into a double-layer nacre-inspired structure with a much higher density of mica in the top layer, which was achieved via a straightforward spray assisted assembly followed by a thermo-curing process.

By optimizing the component proportions and top layer thickness, the mechanical properties of the double-layer PI-Mica film were significantly enhanced. The tensile strength, Young’s modulus, and surface hardness of the double-layer film were 45%, 100%, and 68% higher than those of pure PI films, respectively.

By virtue of the unique double-layer nacre-inspired structure and the intrinsic advantages of mica nanosheets, the obtained double-layer PI-Mica film achieved much better AO resistance, UV aging resistance (313 nm), and high-temperature stability (380 ℃) than pure PI film. In addition, both AO fluence and erosion yield characteristics of the double-layer PI-Mica film are superior to previously reported PI-based composites. Thus, this double-layer PI-Mica film may serve as a new type of aerospace protective material, replacing existing PI-based composite films for LEO applications.

The unique double-layer nacre-inspired structural design provides a promising avenue for future design and fabrication of other high-performance bioinspired nanocomposites for diverse applications.

####

For more information, please click here

Contacts:
Jane fan
University of Science and Technology of China

Copyright © University of Science and Technology of China (USTC)

If you have a comment, please Contact us.

Issuers of news releases, not 7th Wave, Inc. or Nanotechnology Now, are solely responsible for the accuracy of the content.

Bookmark:

ARTICLE TITLE

News and information

Optimized method to detect high-dimensional entanglement December 3rd, 2021

Scientists edge closer to probe that would inspect atherosclerotic plaques by forcing molecules to sound their presence December 3rd, 2021

Two-dimensional bipolar magnetic semiconductors with high Curie-temperature and electrically controllable spin polarization realized in exfoliated Cr(pyrazine)2 monolayers December 3rd, 2021

Review on the femtosecond laser precision micro/nano-engineering December 3rd, 2021

Possible Futures

Researchers realize ultra-high precision search for exotic interactions December 3rd, 2021

Optimized method to detect high-dimensional entanglement December 3rd, 2021

Scientists edge closer to probe that would inspect atherosclerotic plaques by forcing molecules to sound their presence December 3rd, 2021

Two-dimensional bipolar magnetic semiconductors with high Curie-temperature and electrically controllable spin polarization realized in exfoliated Cr(pyrazine)2 monolayers December 3rd, 2021

Discoveries

Researchers realize ultra-high precision search for exotic interactions December 3rd, 2021

Optimized method to detect high-dimensional entanglement December 3rd, 2021

Scientists edge closer to probe that would inspect atherosclerotic plaques by forcing molecules to sound their presence December 3rd, 2021

Two-dimensional bipolar magnetic semiconductors with high Curie-temperature and electrically controllable spin polarization realized in exfoliated Cr(pyrazine)2 monolayers December 3rd, 2021

Materials/Metamaterials

An artificial material that can sense, adapt to its environment: University of Missouri engineers are collaborating with researchers at University of Chicago to design the material November 5th, 2021

UTA project aims to extend life of concrete, cement by adding nanoscale wood fibers: Wood fibers key to sustainable concrete, cement September 24th, 2021

Nanocellulose decorated with proteins is suitable for 3D cell culturing September 24th, 2021

Scientists demonstrate pathway to forerunner of nanotubes that could lead to widespread industrial fabrication September 17th, 2021

Announcements

Scientists edge closer to probe that would inspect atherosclerotic plaques by forcing molecules to sound their presence December 3rd, 2021

Two-dimensional bipolar magnetic semiconductors with high Curie-temperature and electrically controllable spin polarization realized in exfoliated Cr(pyrazine)2 monolayers December 3rd, 2021

Review on the femtosecond laser precision micro/nano-engineering December 3rd, 2021

Development of a single-process platform for the manufacture of graphene quantum dots: Precisely controls the bonding configuration of heteroatoms in graphene quantum dots through simple chemical processes. Practical application and commercialization in various fields is expected December 3rd, 2021

Interviews/Book Reviews/Essays/Reports/Podcasts/Journals/White papers/Posters

Using green tea as reducing reagent for the preparation of nanomaterials to synthesize ammonia December 3rd, 2021

Researchers realize ultra-high precision search for exotic interactions December 3rd, 2021

Development of a single-process platform for the manufacture of graphene quantum dots: Precisely controls the bonding configuration of heteroatoms in graphene quantum dots through simple chemical processes. Practical application and commercialization in various fields is expected December 3rd, 2021

Immune system-stimulating nanoparticle could lead to more powerful vaccines: The potent new adjuvant could be used to help make vaccines against HIV and other infectious diseases December 3rd, 2021

Aerospace/Space

The National Space Society Mourns the Passing of Robert Krone, Founder of the Kepler Space Institute: Krone’s Visionary and Humanistic Approach to the Study of Space Communities and Settlement Was Unique September 22nd, 2021

Scientists demonstrate pathway to forerunner of nanotubes that could lead to widespread industrial fabrication September 17th, 2021

The National Space Society Joins the Progressive Policy Institute in Supporting Rapid Development of Space Solar Power: Orbiting Solar Power Stations Would Help to Save the Environment August 20th, 2021

From anti-icing coatings to protection of containers with flammable liquids: heating films with graphene nanotubes enter the market August 20th, 2021