Future International Space Station Assembly Sequence
09.14.07
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Computer-generated artist’s rendering of the International Space Station after flight STS-116/12A.1. Space Shuttle Discovery crew delivers and installs the third port truss segment (P5). P6 port solar array wing and two radiators are retracted. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight STS-117/13A. Second starboard truss segment (S3/S4) is delivered and installed. The third set of solar arrays is deployed. P6 starboard solar array wing and one radiator are retracted. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight ATV1. Ariane 5 Rocket delivers a European Automated Transfer Vehicle, which docks to the Zvezda Service Module. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight STS-118/13A.1. Third starboard truss segment (S5) is delivered and installed. External Stowage Platform 3 (ESP3) is installed on top of the P3 truss segment. Pressurized Mating Adapter-3 (PMA-3) moves to Unity node nadir port. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight STS-120/10A. Node 2 is installed on Unity node port side temporarily; P6 truss is attached to P5 truss and arrays are deployed. Pressurized Mating Adapter-2 (PMA-2) is moved to Node 2; then both Node 2 with PMA-2 are attached to the front of the Destiny laboratory. Zarya arrays are retracted to allow room for the deployment of all Thermal Control System (TCS) radiators. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight STS-122/1E. Columbus European laboratory module with Multi-Purpose Experiment Support Structure - Non-Deployable (MPESS-ND) is delivered and installed. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight 1J/A. Kibo Japanese Experiment Logistics Module - Pressurized Section (ELM-PS) is installed on top of Node 2. Canadian Special Purpose Dexterous Manipulator (SPDM) - Dextre - is installed. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight 1J. Kibo Japanese Experiment Module Pressurized Module (JEM-PM) and Japanese Remote Manipulator System (JEM-RMS) are installed. JEM Pressurized Section is moved from Node 2 onto the JEM Pressurized Module. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight STS-119/15A. Fourth starboard truss segment (S6) is delivered and installed. Fourth set of solar arrays is deployed. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight ULF2. U.S. Orbiter brings Multi-Purpose Logistics Module (MPLM). (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight 2J/A. U.S. Orbiter delivers Kibo Japanese Experiment Module Exposed Facility (JEM-EF); Kibo Japanese Experiment Logistics Module - Exposed Section (ELM-ES); and Spacelab Pallet - Deployable 2 (SLP-D2). (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight 3R. Russian Proton rocket delivers Multipurpose Laboratory Module (MLM) with European Robotic Arm (ERA) - docked to Zarya nadir port. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight 17A. U.S. Orbiter brings Multi-Purpose Logistics Module (MPLM); Lightweight Multi-Purpose Experiment Support Structure Carrier (LMC); three crew quarters; galley; second Treadmill Vibration Isolation System (TVIS); Crew Health Care System 2 (CHeCS 2). (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight HTV1, Japanese H-II Transfer Vehicle. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight ULF3. U.S. Orbiter delivers EXPRESS Logistics Carrier 1 (ELC1) and EXPRESS Logistics Carrier 2 (ELC2). (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight 19A. U.S. Orbiter brings Multi-Purpose Logistics Module (MPLM) and Lightweight Multi-Purpose Experiment Support Structure Carrier (LMC). (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight ULF4. U.S. Orbiter delivers EXPRESS Logistics Carrier-3 (ELC-3) and EXPRESS Logistics Carrier-4 (ELC-4). Micrometeoroid Debris panels are installed on Zvezda Service Module and the Zvezda solar arrays are feathered. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight 20A. U.S. Orbiter delivers and installs Node 3 with Cupola. Pressurized Mating Adapter-3 (PMA-3) is relocated from Unity node nadir to Node 2 nadir beforehand. The Cupola is relocated to the forward port of Node 3 after the flight; and PMA- 3 is relocated to the axial port of Node 3 after the flight. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight ULF5. U.S. Orbiter delivers EXPRESS Logistics Carrier-5 (ELC-5). Pirs Docking Compartment moves to zenith (top) port of Zvezda Service Module. (Credit: NASA)
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Computer-generated artist’s rendering of the International Space Station after flight 9R. Russian Proton rocket delivers Research Module which docks to Zvezda Service Module nadir port. (Credit: NASA)
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Computer-generated artist’s rendering of the completed International Space Station. (Credit: NASA)
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