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Lotz C, Gerdes N, Sperling R, Lazar S, Linke S, Neumann J, Stoll E, Ertmer W, Overmeyer L (2020). Tests of additive manufacturing and other processes under space gravity conditions in the Einstein-Elevator. Logistics Journal : Proceedings, Vol. 2020. (urn:nbn:de:0009-14-51504)

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%0 Journal Article
%T Tests of additive manufacturing and other processes under space gravity conditions in the Einstein-Elevator
%A Lotz, Christoph
%A Gerdes, Niklas
%A Sperling, Richard
%A Lazar, Sebastian
%A Linke, Stefan
%A Neumann, Jörg
%A Stoll, Enrico
%A Ertmer, Wolfgang
%A Overmeyer, Ludger
%J Logistics Journal : Proceedings
%D 2020
%V 2020
%N 12
%@ 2192-9084
%F lotz2020
%X Material processing and material transport systems on Earth are designed for Earth's gravity and atmosphere. In order to pave the way for the future colonization of space, production technologies and transport systems are an essential factor in reducing costs and logistical efforts, such as in-situ resource utilization (ISRU). Laser-based additive manufacturing methods offer the possibility of a production process independent of environmental conditions and a high degree of adaptability to the objects to be manufactured. These and other processes, e.g. for material handling of powder in microgravity, will be investigated in the Einstein-Elevator in the future. This paper first describes the possibilities for the investigation of large scientific experimental setups under different gravitational conditions. Subsequently, the requirements for the experiments and an exemplary project sequence are described using the example of the MOONRISE project. In addition, first experimental results are presented.
%L 620
%K Additive Fertigung
%K Einstein-Elevator
%K MOONRISE
%K Produktions- und Transportsysteme
%K Weltraumgravitationsbedingungen
%K additive manufacturing
%K production and transport systems
%K space gravity conditions
%R 10.2195/lj_Proc_lotz_en_202012_01
%U http://nbn-resolving.de/urn:nbn:de:0009-14-51504
%U http://dx.doi.org/10.2195/lj_Proc_lotz_en_202012_01

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@Article{lotz2020,
  author = 	"Lotz, Christoph
		and Gerdes, Niklas
		and Sperling, Richard
		and Lazar, Sebastian
		and Linke, Stefan
		and Neumann, J{\"o}rg
		and Stoll, Enrico
		and Ertmer, Wolfgang
		and Overmeyer, Ludger",
  title = 	"Tests of additive manufacturing and other processes under space gravity conditions in the Einstein-Elevator",
  journal = 	"Logistics Journal : Proceedings",
  year = 	"2020",
  volume = 	"2020",
  number = 	"12",
  keywords = 	"Additive Fertigung; Einstein-Elevator; MOONRISE; Produktions- und Transportsysteme; Weltraumgravitationsbedingungen; additive manufacturing; production and transport systems; space gravity conditions",
  abstract = 	"Material processing and material transport systems on Earth are designed for Earth's gravity and atmosphere. In order to pave the way for the future colonization of space, production technologies and transport systems are an essential factor in reducing costs and logistical efforts, such as in-situ resource utilization (ISRU). Laser-based additive manufacturing methods offer the possibility of a production process independent of environmental conditions and a high degree of adaptability to the objects to be manufactured. These and other processes, e.g. for material handling of powder in microgravity, will be investigated in the Einstein-Elevator in the future. This paper first describes the possibilities for the investigation of large scientific experimental setups under different gravitational conditions. Subsequently, the requirements for the experiments and an exemplary project sequence are described using the example of the MOONRISE project. In addition, first experimental results are presented.",
  issn = 	"2192-9084",
  doi = 	"10.2195/lj_Proc_lotz_en_202012_01",
  url = 	"http://nbn-resolving.de/urn:nbn:de:0009-14-51504"
}

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RIS

TY  - JOUR
AU  - Lotz, Christoph
AU  - Gerdes, Niklas
AU  - Sperling, Richard
AU  - Lazar, Sebastian
AU  - Linke, Stefan
AU  - Neumann, Jörg
AU  - Stoll, Enrico
AU  - Ertmer, Wolfgang
AU  - Overmeyer, Ludger
PY  - 2020
DA  - 2020//
TI  - Tests of additive manufacturing and other processes under space gravity conditions in the Einstein-Elevator
JO  - Logistics Journal : Proceedings
VL  - 2020
IS  - 12
KW  - Additive Fertigung
KW  - Einstein-Elevator
KW  - MOONRISE
KW  - Produktions- und Transportsysteme
KW  - Weltraumgravitationsbedingungen
KW  - additive manufacturing
KW  - production and transport systems
KW  - space gravity conditions
AB  - Material processing and material transport systems on Earth are designed for Earth's gravity and atmosphere. In order to pave the way for the future colonization of space, production technologies and transport systems are an essential factor in reducing costs and logistical efforts, such as in-situ resource utilization (ISRU). Laser-based additive manufacturing methods offer the possibility of a production process independent of environmental conditions and a high degree of adaptability to the objects to be manufactured. These and other processes, e.g. for material handling of powder in microgravity, will be investigated in the Einstein-Elevator in the future. This paper first describes the possibilities for the investigation of large scientific experimental setups under different gravitational conditions. Subsequently, the requirements for the experiments and an exemplary project sequence are described using the example of the MOONRISE project. In addition, first experimental results are presented.
SN  - 2192-9084
UR  - http://nbn-resolving.de/urn:nbn:de:0009-14-51504
DO  - 10.2195/lj_Proc_lotz_en_202012_01
ID  - lotz2020
ER  - 
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Wordbib

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ISI

PT Journal
AU Lotz, C
   Gerdes, N
   Sperling, R
   Lazar, S
   Linke, S
   Neumann, J
   Stoll, E
   Ertmer, W
   Overmeyer, L
TI Tests of additive manufacturing and other processes under space gravity conditions in the Einstein-Elevator
SO Logistics Journal : Proceedings
PY 2020
VL 2020
IS 12
DI 10.2195/lj_Proc_lotz_en_202012_01
DE Additive Fertigung; Einstein-Elevator; MOONRISE; Produktions- und Transportsysteme; Weltraumgravitationsbedingungen; additive manufacturing; production and transport systems; space gravity conditions
AB Material processing and material transport systems on Earth are designed for Earth's gravity and atmosphere. In order to pave the way for the future colonization of space, production technologies and transport systems are an essential factor in reducing costs and logistical efforts, such as in-situ resource utilization (ISRU). Laser-based additive manufacturing methods offer the possibility of a production process independent of environmental conditions and a high degree of adaptability to the objects to be manufactured. These and other processes, e.g. for material handling of powder in microgravity, will be investigated in the Einstein-Elevator in the future. This paper first describes the possibilities for the investigation of large scientific experimental setups under different gravitational conditions. Subsequently, the requirements for the experiments and an exemplary project sequence are described using the example of the MOONRISE project. In addition, first experimental results are presented.
ER

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Mods

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    <namePart type="family">Lotz</namePart>
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  <abstract>Material processing and material transport systems on Earth are designed for Earth's gravity and atmosphere. In order to pave the way for the future colonization of space, production technologies and transport systems are an essential factor in reducing costs and logistical efforts, such as in-situ resource utilization (ISRU). Laser-based additive manufacturing methods offer the possibility of a production process independent of environmental conditions and a high degree of adaptability to the objects to be manufactured. These and other processes, e.g. for material handling of powder in microgravity, will be investigated in the Einstein-Elevator in the future. This paper first describes the possibilities for the investigation of large scientific experimental setups under different gravitational conditions. Subsequently, the requirements for the experiments and an exemplary project sequence are described using the example of the MOONRISE project. In addition, first experimental results are presented.</abstract>
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    <topic>Weltraumgravitationsbedingungen</topic>
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