Ewelina Kluska, Piotr Gruda and Natalia Majca-Nowak
 Kluska E., Gruda P. The accuracy and the printing resolution comparison of different 3D printing technologies . Warsaw: Institute of Aviation, 2017.
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Suborbital platforms are one of alternatives for satellites. They offer cheaper access to space to perform broad range of scientific and technology R&D. One of suborbital platforms are sounding rockets, which are suitable for these applications. A concept of scientific mission utilizing the sounding rocket is presented by author in this paper. The novelty of this mission is the operational responsive launch approach, which presents the example of the mission which responds for payload user needs, not payload contest approach, which is often in scientific community competing for payload space in space agency sounding rocket launch campaigns. The main mission goal is to perform astronomical observation of NEO using IR/VIS telescope. The secondary goal is to qualify the instrument for use on astronomical satellite observatory and raise its technology readiness level from TRL 6 to TRL 8. The expected mission output is to gain scientific data on NEO object and perform new IR/VIS optoelectronic instrument technology validation.
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Ewelina Kluska, Piotr Gruda and Natalia Majca-Nowak
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Natalia Majca-Nowak, Ewelina Kluska and Piotr Gruda
 Kluska E., Gruda P., Majca-Nowak N. The accuracy and the printing resolution comparison of different 3D printing technologies. Warsaw: Institute of Aviation, 2019.
 Kluska E., Gruda P., Majca-Nowak N. Additive manufacturing in conduction with optical methods used for optimization of 3D models. Warsaw: Institute of Aviation, 2018.
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For two variants of runways with abrasive concrete pavements in the prestressed and dowelled technologies, analyses have been presented regarding labour, materials, use of machinery, and financial outlays, together with the necessary technological-organisational analyses and assessment of work execution cycles, by the example of construction of a runway at the Katowice Airport.
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