With the arrival of the space economy, the miniaturization of spacecraft and their multi-
functional trends have put a greater demand on space thermal control systems. Smart …

Smart radiation devices (SRDs) for spacecraft, which utilize thermochromic films with
adaptive emissivity switching capability and minimal resource consumption, have garnered …

Smart radiation device (SRD) based on the asymmetrical Fabry-Perot cavity automatically
tune its IR emittance depending on the ambient temperature, making it an ideal choice for …

In the extreme space environment, spacecraft endure dramatic temperature variations that
can impair their functionality. A VO2-based smart radiator device (SRD) offers an effective …

Smart radiation device (SRD) for spacecraft based on thermochromic material vanadium
dioxide (VO 2) attracts increasing interest due to its ability of self-adaptive emission …

New thermal control material named Smart Radiation Device (SRD) has been studied to
apply for spacecraft. Infrared radiative properties of the SRD change depending on its own …

Intelligent thermal control coating (ITCC) for the thermal management of the spacecraft
needs a high emittance on the sunny side to consume the energy absorbed from the sun …

A smart radiation device (SRD) that is a variable emittance radiator has been developed as
a thermal control material for spacecraft. The SRD has the unique feature of large variation …

Thermochromic film with the ability to self-adaptively switch emittance is important for
spacecraft missions experiencing rapidly increasing demand. Current research on …

A smart radiation device (SRD) that is a variable emittance radiator has been studied as a
method of thermal control for spacecraft. The SRD consists of manganese oxide with a …