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Key issues in creating inflatable braking devices for removal of the failed satellites into the atmosphere dense layers Part 3. Assessment of the shell resistance to impacts of micrometeorites and elements of small space debris
| Authors: Reznik S.V., Mikhailovskiy K.V., Abramova E.N. | Published: 05.09.2023 |
| Published in issue: #9(762)/2023 | |
| Category: Aviation, Rocket and Technology | Chapter: Aircraft Strength and Thermal Modes | |
| Keywords: space debris, inflatable braking device, polymer film, micrometeoroids, impact resistance, smoothed particle method |
Key issues of creating the inflatable braking devices for removal of the failed satellites into the atmosphere dense layers Part 2. Analysis of the thermal regime under the combined heating conditions
| Authors: Reznik S.V., Abramova E.N. | Published: 30.05.2023 |
| Published in issue: #6(759)/2023 | |
| Category: Aviation, Rocket and Technology | Chapter: Aircraft Strength and Thermal Modes | |
| Keywords: space debris, nanosatellite removal, inflatable braking device, polymer films, temperature state simulation, thermal mode |
Key issues of creating the inflatable braking devices for removal of the failed satellites into the atmosphere dense layers Part 1. Conceptual design. Motion in the rarefied atmosphere
| Authors: Reznik S.V., Abramova E.N. | Published: 28.04.2023 |
| Published in issue: #5(758)/2023 | |
| Category: Aviation, Rocket and Technology | Chapter: Aircraft Strength and Thermal Modes | |
| Keywords: space debris, near-Earth space cleanup, inflatable braking device, polymer films, rarefied atmosphere, motion simulation |
Simulation of Small-Size Space Debris Impact on the Protective Shield of a Transformable Trap
| Authors: Prosuntsov P.V., Alekseev A.A., Zherebtsova E.O. | Published: 28.10.2021 |
| Published in issue: #11(740)/2021 | |
| Category: Aviation, Rocket and Technology | Chapter: Aircraft Strength and Thermal Modes | |
| Keywords: spacecraft, space debris, spacecraft shielding, composite materials, hypervelocity impact, Smooth Particle Hydrodynamics |
Dynamics Analysis of Laser 2D Cutting of a Large Space Debris Object Under Zero-Gravity Conditions
| Authors: Arinchev S.V. | Published: 13.12.2020 |
| Published in issue: #12(729)/2020 | |
| Category: Aviation, Rocket and Technology | Chapter: Aircraft Development, Design and Manufacture | |
| Keywords: laser cutting, space debris, aiming in gravity-free operation |