Türkçe

Additive manufacturing of free-form optical devices for space use

861
2023-12-04 14:09:54
Çeviriyi gör

A group of researchers and companies are using the iLAuNCH Trailblazer program to develop and identify new optical manufacturing processes and materials for space flight applications, and demonstrating them in space cameras.

The University of South Australia, together with SMR Australia and VPG Innovation, will utilize an emerging optical manufacturing technology called freeform optics, which is now possible due to the emergence of suitable additive manufacturing techniques.

Freeform surface optical devices, such as reflectors, can now be designed and additive manufactured to present complex shapes, provide a larger field of view in smaller packaging sizes, and withstand harsh space environments.

Innovation Launch, Automation, New Materials, Communications, and Hypersonic Center Pioneer is a $180 million program aimed at commercializing the project to build Australia's space capabilities.

Darin Lovett, Executive Director of iLAuNCH Trailblazer, stated, "This project showcases the full content of iLAuNCH, using the 2021 Defense Innovation Partnership concept demonstrator, which investigates the feasibility of free-form optical components for small satellites and uses Australian technology to put them into production for real-world applications.".

An important requirement in the development of free-form optical devices is to be able to process additive manufactured parts to the extent that mirror finish can be developed.

Dr. Kamil Zuber, Senior Researcher at the University of South Australia, said, "We are developing optical grade finishes for additive substrates for satellite optical components.".

"We will also demonstrate the coating system for reflective optical components used in space applications."
Our project partners located in Adelaide, advanced manufacturer VPG Innovation, and mirror and camera system expert SMR Australia, have long-term experience in traditional and additive manufacturing, as well as product development in the automotive and defense sectors.

The additive manufacturing, molding, and vacuum coating capabilities of our partners make commercial production of developed products possible.
Dr. Bastian Stoehr, Senior Design Engineer at SMR Australia, stated that the company will contribute its advanced injection molding and coating expertise to the project.

Dr. Stoehr said, "More than a decade of collaboration has shown that the synergy between UniSA's research and Motherson's manufacturing capabilities brings greater results than the sum of its parts.".

The addition of St ä rke AMG's innovation focus will ensure that this joint venture not only drives South Australia to play a crucial role in space technology, but also reflects the true essence of cooperation.

Our joint efforts will redefine the possibilities of additive manufacturing and free-form surface optics, with the potential to have a transformative impact on the future of space exploration. When we contribute our efforts, we are not only driving technological progress, but also shaping a future that makes South Australia synonymous with cutting-edge value-added manufacturing.

Al Jawhari, co-founder and CEO of St ä rke AMG, stated that additive manufacturing has a transformative power and may actively reshape the manufacturing industry.
We are proud to lead these efforts in providing innovative satellite optical design and manufacturing for Earth observation and other critical applications.
We are working together to create a future where free-form optics will redefine the possibilities of space missions.

Source: Laser Net

İlgili öneriler
  • High Resolution Visible Light Imaging of Large Aperture Telescopes

    The deformable mirror used in adaptive optics can instantly correct the static wavefront aberrations and atmospheric turbulence wavefront disturbances of the optical system by changing its surface. This enables the optical system to automatically adapt to changes in the environment and maintain optimal performance. It is widely used in high-resolution astronomical observations, laser atmospheric t...

    2023-10-31
    Çeviriyi gör
  • Researchers use laser doping to enhance the oxidation of IBC solar cells

    Researchers from the International Solar Research Center at Konstanz and Delft University of Technology have discovered a method to pattern the back end of a cross finger rear contact battery, improving its efficiency by making certain parts of the solar cell thicker.Researchers have developed a new technology that enhances oxidation in selected areas by patterning the back or back of IBC solar ce...

    2024-02-20
    Çeviriyi gör
  • Microcomb launches a simplified design for powerful lasers based on chips

    Researchers at the University of Rochester have created new micro comb lasers that go beyond previous limitations and have simple designs suitable for various applications. The research results are published in Nature Communications.Optical frequency combs are optical measurement instruments that have revolutionized atomic clocks, spectroscopy, metrology, and other fields. However, the difficulty ...

    2024-05-25
    Çeviriyi gör
  • The physicist who built the ultrafast "attosecond" laser won the Nobel Prize

    Pierre Agostini, Ferenc Krausz, and Anne L'Huillier won the award for their ultra short optical pulses, which made close research on electrons possible.Ferenc Klaus, Anne Lullier, and Pierre Agostini (from left to right)Image sources: BBVA Foundation, Kenneth Ruona/Lund University, Ohio State UniversityThis year's Nobel Prize in Physics was awarded to three physicists - Pierre Agostini of Ohio St...

    2023-10-09
    Çeviriyi gör
  • Natural Communication: Oxide Dispersion Enhancement for High Performance 3D Printing of Pure Copper

    The laser additive manufacturing technology of pure copper (Cu) with complex geometric shapes has opened up vast opportunities for the development of microelectronic and telecommunications functional devices. However, laser forming of high-density pure copper remains a challenge.Recently, the forefront of additive manufacturing technology has noticed a joint report by the University of Hong Kong, ...

    04-11
    Çeviriyi gör