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Expedition 64
Expedition 64
Expedition 64
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Expedition 64
Promotional Poster
Mission typeLong-duration expedition
OperatorNASA / Roscosmos
Mission duration177 days, 2 hours and 1 minute
Expedition
Space stationInternational Space Station
Began21 October 2020, 23:32:09 UTC[1]
Ended17 April 2021, 01:34:04 UTC[1]
Arrived aboardSoyuz MS-17
SpaceX Crew-1
Soyuz MS-18
Departed aboardSoyuz MS-17
Crew
Crew size3-10
Members
EVAs5[1][2][3][4]
EVA duration26 hours, 8 minutes

Expedition 64 mission patch

Expedition 64 crew portrait

Expedition 64 was the 64th long-duration expedition to the International Space Station. The mission began on 21 October 2020 with the undocking and departure of Soyuz MS-16 and ended on 17 April 2021 with the departure of Soyuz MS-17.[5]

Background, crew, and events

[edit]

The expedition started with the three person crew who launched onboard Soyuz MS-17 featuring ISS commander Sergey Ryzhikov and Sergey Kud-Sverchkov of Roscosmos, as well as NASA astronaut Kathleen Rubins.

On 17 November 2020, the crew reached its full complement with the arrival of SpaceX Crew-1, the first operational flight of NASA's Commercial Crew Program (CCP), featuring NASA astronauts Mike Hopkins, Victor Glover, and Shannon Walker, as well as JAXA astronaut Soichi Noguchi.[6] As Crew-1 consisted of a crew of four instead of three like the Soyuz, this marked the beginning of operations for crews of seven on the ISS.

In the final week of the mission, Soyuz MS-18 and its three person crew featuring Roscosmos cosmonauts Oleg Novitsky and Pyotr Dubrov, as well as NASA astronaut Mark T. Vande Hei joined the mission.

Events manifest

[edit]

Events involving crewed spacecraft are listed in bold.

Previous mission: Expedition 63

21 October 2020 - Soyuz MS-16 undocking, official switch from Expedition 63

17 November 2020 - SpaceX Crew-1 docking

18 November 2020 - EVA 1 (VKD-45) Ryzhikov/Kud-Sverchkov: 6 hrs, 48 mins

7 December 2020 - CRS SpX-21 docking

6 January 2021 - CRS NG-14 unberthing and release

12 January 2021 - CRS SpX-21 undocking

27 January 2021 - EVA 2 (US-69) Hopkins/Glover: 6 hrs, 56 mins

1 February 2021 - EVA 3 (US-70) Hopkins/Glover: 5 hrs, 20 mins

9 February 2021 - Progress MS-15/76P undocking

17 February 2021 - Progress MS-16/77P docking

22 February 2021 - CRS NG-15 capture and berthing

28 February 2021 - EVA 4 (US-71) Rubins/Glover: 7 hrs, 4 mins

5 March 2021 - EVA 5 (US-72) Rubins/Noguchi: 6 hrs, 56 mins

13 March 2021 - EVA 6 (US-73) Glover/Hopkins: 6 hrs, 47 mins

19 March 2021 - Soyuz MS-17 redocking

5 April 2021 - SpaceX Crew-1 redocking

9 April 2021 - Soyuz MS-18 docking

15 April 2021 - ISS Expedition 64/65 change of command ceremony from Sergey Ryzhikov to Shannon Walker

17 April 2021 - Soyuz MS-17 docking, official switch to Expedition 65

Next mission: Expedition 65

Crew

[edit]
Flight Astronaut First part
(21 October – 17 November  2020) 		Second part
(17 November 2020 – 9 April 2021) 		Third part
(9  – 17 April 2021)
Soyuz MS-17 Russia Sergey Ryzhikov, Roscosmos
Second spaceflight 		Commander
Russia Sergey Kud-Sverchkov, Roscosmos
First spaceflight 		Flight engineer
United States Kathleen Rubins, NASA
Second and last spaceflight 		Flight engineer
SpaceX Crew-1 United States Mike Hopkins, NASA
Second and last spaceflight 		Off station Flight engineer
United States Victor Glover, NASA
First spaceflight 		Off station Flight engineer
Japan Soichi Noguchi, JAXA
Third and last spaceflight 		Off station Flight engineer
United States Shannon Walker, NASA
Second and last spaceflight 		Off station Flight engineer
Soyuz MS-18 Russia Oleg Novitsky, Roscosmos
Third spaceflight 		Off station Flight engineer
Russia Pyotr Dubrov, Roscosmos
First spaceflight 		Off station Flight engineer
United States Mark T. Vande Hei, NASA
Second spaceflight 		Off station Flight engineer

[6]

Extravehicular activity

[edit]

Several spacewalks for Expedition 63 were planned to carry out work on the scientific and power systems on the ISS. Delays to the NASA Commercial Crew Program left Chris Cassidy as the only crew member on the US Orbital Segment (USOS) for an extended period of time. The arrival of the Crew Dragon Demo-2 mission permitted four EVAs by Cassidy and Robert Behnken to replace the remaining nickel-hydrogen batteries on the S6 Truss with new lithium-ion batteries.[7]

The planned work for activating the Bartolomeo scientific package located on the outside of the Columbus laboratory module, delivered on SpaceX CRS-20, was postponed until Expedition 64.[8]

Ryzhikov and Kud-Sverchkov performed a spacewalk on 18 November 2020 to conduct initial preparations for the replacement of the Pirs docking compartment by the Nauka laboratory module, which lasted 6 hours and 48 minutes. This was the first EVA to be conducted from the Poisk airlock.[9] Coverage of the spacewalk, which NASA has designated "Russian Spacewalk #47", began at 14:30 UTC and lasted more than six hours.[10]

During late January through early March of 2021, NASA executed five spacewalks. The 27 January spacewalk, begun at 12:28 UTC and lasting 6 hours and 56 minutes, was conducted by Hopkins and Glover to install a Ka band antenna on Columbus in preparation for Bartolomeo's activation, replace a pin on the Quest Joint Airlock, and remove a grapple fixture on the P4 Truss for the beginning of a series of experimental solar array wing upgrades.[11][12]

The 1 February spacewalk, begun at 12:56 UTC and lasting 5 hours and 20 minutes, was conducted by Hopkins and Glover to conclude a four-year campaign, initiated by Shane Kimbrough and Peggy Whitson on Expedition 50, to replace the batteries on the Integrated Truss Structure.[13][14] Hopkins and Glover also installed and upgraded several cameras on the starboard truss, the Destiny laboratory, and the Kibo robotic arm.[15][16][11]

The 28 February spacewalk, begun at 11:12 UTC and lasting 7 hours and 4 minutes, was conducted by Rubins and Glover to install on the P6 Truss brackets for the experimental solar array upgrades, the main materials for which launched in June 2021 aboard SpaceX CRS-22.[17]

The 5 March spacewalk, begun at 11:37 UTC and lasting 6 hours and 56 minutes, was conducted by Rubins and Noguchi to continue the bracket installation work.[1][2][3][4] They had also initially planned to deploy a new airlock cover to strengthen Quest, replace a wireless video transceiver on the Unity node, route more cables on Bartolomeo, and vent and rearrange ammonia hoses. Rubins and Noguchi abandoned the planned additional work because they encountered difficulties with several bolts during the bracket installation.[17][18][19]

The 13 March spacewalk, begun at 13:14 UTC and lasting 6 hours and 47 minutes, was conducted by Hopkins and Glover to finish the work not taken up by Rubins and Noguchi, although they deferred installing clamps on Bartolomeo to a future spacewalk.[20]

References

[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Expedition 64

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from Grokipedia
Expedition 64 was the 64th long-duration expedition to the (ISS), a multinational orbital laboratory. It spanned from October 2020 to April 2021, marked by the arrivals of the three-person Soyuz MS-17 crew, NASA's first operational Crew Dragon mission, and Soyuz MS-18, enabling a peak crew of ten astronauts and cosmonauts to conduct advanced scientific research and station maintenance. The expedition officially commenced on October 21, 2020, when astronaut Chris Cassidy handed command of the ISS to cosmonaut Sergey Ryzhikov during a change-of-command ceremony, following the docking of Soyuz MS-17 on October 15, 2020. The core crew for this phase included Ryzhikov as commander, astronaut Kate Rubins as flight engineer, and cosmonaut Sergey Kud-Sverchkov as flight engineer; they had launched from in on October 14, 2020, aboard Soyuz MS-17. On November 16, 2020, the crew was joined by four members of 's Mission Crew-1, who arrived via the Crew Dragon Resilience: astronauts (commander), (pilot), and (mission specialist), along with Aerospace Exploration Agency () astronaut (mission specialist). Soyuz MS-18 docked on April 10, 2021, adding commander Oleg and flight engineers Pyotr Dubrov and Mark Vande Hei. Expedition 64 concluded on April 15, 2021, with a change-of-command ceremony in which Ryzhikov transferred authority to Walker, initiating ; the Soyuz MS-17 crew undocked the following day and landed safely in on April 17, 2021, after a 185-day mission. Key objectives focused on advancing capabilities through microgravity research, with the performing hundreds of investigations in fields such as , , physical sciences, and . Notable experiments included Plant Habitat-02, which grew radishes to study plant responses to space conditions for future lunar and Martian ; Onco-Selectors, testing mRNA-based therapies for in microgravity; BioAsteroid, examining microbial interactions with asteroid-like materials to support resource utilization in space; and Cardinal Heart, analyzing heart tissue changes to inform treatments on . The also tested the , a new toilet design for deep-space missions, and contributed to technology demonstrations like space-mining simulations. Maintenance activities were equally critical, with six extravehicular activities (spacewalks) totaling more than 30 hours to upgrade power systems, replace batteries, and prepare the station for future crews. Highlights included the first spacewalk by an all- crew in over five years on January 27, 2021, led by and Glover, and subsequent outings that advanced solar array installations. This expedition underscored international collaboration among , , , and , paving the way for sustained human presence in and beyond.

Background and Preparation

Mission Context

Expedition 64 served as the 64th long-duration expedition to the (ISS), bridging the operational continuity between Expeditions 63 and 65. The mission commenced on October 21, 2020, following the undocking and departure of the Soyuz MS-16 spacecraft at 7:32 p.m. EDT, which marked the official transition after a command from Expedition 63 commander astronaut Chris Cassidy to cosmonaut Sergey Ryzhikov on October 20, 2020. It concluded on April 17, 2021, with the landing of the Soyuz MS-17 crew, encompassing a total duration of 177 days, 2 hours, and 1 minute. This period aligned with key prerequisites for ISS operations, including the completion of the Soyuz MS-16 undocking, which reduced the onboard crew to three members initially and ensured the station's seamless without interruption in human presence. As part of the broader ISS program, Expedition 64 advanced ongoing goals in research and international cooperation among principal partners , , and the . The mission emphasized microgravity-based scientific investigations, technology demonstrations, and collaborative efforts to sustain long-term habitation in space, building on the station's role as a unique orbital laboratory since 1998. A notable carryover from Expedition 63 was the activation of the Bartolomeo external science platform, attached to the European Space Agency's Columbus module and delivered via the CRS-20 mission in April 2020; initial activation efforts during Expedition 64 involved spacewalks in January 2021 to connect power and data cables, though some connections faced challenges due to stiff cables in microgravity, rendering the platform partially operational. The expedition also highlighted the evolving dynamics of the ISS program, starting with a core trio and expanding upon the arrival of NASA's mission on November 17, 2020, which increased the resident population from three to seven members for enhanced research capacity. This growth peaked at ten occupants in April 2021 with the docking of Soyuz MS-18, temporarily boosting operational efficiency before the mission's conclusion.

Crew Assignment

The crew assignments for Expedition 64 were determined through bilateral and multilateral agreements between , , and , with key announcements occurring between 2019 and to support the mission's multinational composition. The prime crew for the Soyuz MS-17 spacecraft—Roscosmos cosmonaut Sergey Ryzhikov as commander, Roscosmos cosmonaut Sergey Kud-Sverchkov as flight engineer, and astronaut Kate Rubins as flight engineer—was formally announced by and in June . For the mission, designated astronaut Michael Hopkins as commander, alongside pilots Victor Glover and , and astronaut as mission specialist, with these specific assignments confirmed in early following the initial selection of commercial crew astronauts. This selection process emphasized expertise in spacecraft operations and scientific research, aligning with high-level mission objectives such as microgravity studies. The Expedition 64 crew participated in an intensive joint training regimen to prepare for integrated operations aboard the . Training occurred at NASA's in for U.S. segment systems and Crew Dragon simulations, the Yuri Gagarin Cosmonaut Training Center in , for Soyuz operations, and JAXA's Space Center for Noguchi's specialized preparations. The program included scenario-based simulations for nominal and off-nominal events, such as extravehicular activities (EVAs), emergency responses, and vehicle-specific procedures, culminating in final qualification sessions in September and October 2020. Backup personnel were assigned to provide redundancy and continuity. For Soyuz MS-17, the backup crew comprised Roscosmos cosmonaut Oleg Novitskiy as commander, Roscosmos cosmonaut Pyotr Dubrov as flight engineer, and NASA astronaut Mark Vande Hei as flight engineer. For Crew-1, backups included NASA astronauts Robert Behnken and Eric Boe, along with Roscosmos cosmonaut Nikolai Chub. Within the expedition, roles were clearly delineated to ensure effective command and operations: Ryzhikov served as overall Expedition Commander, Hopkins acted as the NASA lead for U.S. segment activities, and Rubins oversaw scientific research in the U.S. Orbital Segment. A notable aspect of the crew assignment was the integration of Crew-1 as the first operational mission of NASA's Commercial Crew Program, marking the transition to routine U.S. crew transport via SpaceX's Crew Dragon spacecraft.

Flight Sequence

Launches and Dockings

The Expedition 64 crew assembly began with the launch of the Soyuz MS-17 spacecraft on October 14, 2020, at 05:45 UTC from the in , carrying cosmonaut Sergey Ryzhikov as commander, along with flight engineers Sergey Kud-Sverchkov of and Kate Rubins of . The mission utilized a fast-track rendezvous profile, completing the journey in approximately three hours. The spacecraft autonomously docked to the nadir port of the Rassvet module on the Russian segment of the (ISS) at 08:48 UTC, with the docking mechanism's hooks fully engaged shortly thereafter. Following standard leak checks and pressurization verification, the hatches between Soyuz MS-17 and the ISS opened at 11:07 UTC, allowing the crew to enter the station and join Expedition 63 members for initial handovers. The next arrival was SpaceX's Crew-1 mission, which launched on November 16, 2020, at 00:27 UTC from Launch Complex 39A at 's in aboard a rocket, transporting astronauts Michael Hopkins as commander, Victor Glover as pilot, and Soichi Noguchi of the Japan Aerospace Exploration Agency as mission specialists. The Crew Dragon Resilience spacecraft followed a roughly 27-hour trajectory to the ISS, performing an autonomous docking to the forward port of the module via the at 04:01 UTC on November 17, 2020; the procedure was monitored by station crew members, with manual control available as a backup if needed. After completing interface checks, the hatch to the pressurized mating adapter opened at 06:02 UTC, followed by the Crew Dragon hatch opening at 06:35 UTC, enabling the four-person crew to float into the ISS and expand Expedition 64 to seven members. The final crew increment for Expedition 64 arrived via Soyuz MS-18, launched on April 9, 2021, at 07:42 UTC from , carrying cosmonaut Oleg Novitskiy as commander, with flight engineers Pyotr Dubrov of and Mark Vande Hei of . Employing another expedited two-orbit rendezvous, the spacecraft docked autonomously to the nadir port of the Rassvet module at 11:05 UTC the same day, with full capture confirmed minutes later. Hatches opened at 13:20 UTC after routine safety protocols, temporarily increasing the station's population to ten as the new arrivals integrated with the ongoing Expedition 64 and prepared for the transition to Expedition 65. These docking events marked the first operational use of the Crew Dragon for crew rotation, enhancing redundancy in access to the ISS.

Crew Rotations

The Expedition 64 officially commenced on October 21, 2020, following the handover of command from Expedition 63 commander Chris Cassidy to cosmonaut Sergey Ryzhikov on October 20, 2020. This transition occurred aboard the (ISS) just before the undocking and departure of Soyuz MS-16, reducing the crew to three members: Commander Ryzhikov, flight engineer Sergey Kud-Sverchkov, and flight engineer Kate Rubins. The arrival of the mission on November 17, 2020, expanded the Expedition 64 crew to seven, incorporating flight engineers Michael Hopkins, Victor Glover, and , along with flight engineer . This marked the first instance of a seven-person long-duration crew on the ISS, allowing for increased scientific output and operational efficiency under multinational protocols established by the ISS partnership. Crew rotations during the expedition emphasized seamless handovers to maintain continuous station operations, with responsibilities shared across , , and international partners. On , 2021, the docking of Soyuz MS-18 further increased the onboard population to ten by adding cosmonaut Novitskiy as commander, with flight engineers Pyotr Dubrov of and Mark Vande Hei of . A key event in the rotations was the ceremony on , 2021, during which Ryzhikov transferred ISS command to Walker in preparation for Expedition 65. This handover ensured the continuity of leadership as the Soyuz MS-17 crew prepared for their return to Earth two days later.

In-Flight Operations

Scientific Research

During Expedition 64, the crew conducted a range of microgravity research focused on advancing human health, technologies, and , building on objectives from prior expeditions. Key efforts included the partial activation of the European Space Agency's Bartolomeo external science platform, which was installed on the Columbus module during spacewalks in January 2021; this platform enabled initial experiments in and that had been postponed from Expedition 63 due to logistical delays. Prominent experiments encompassed space botany investigations using the Vegetable Production System (Veggie), where crew members like Mike Hopkins transplanted pak choi plants to study microgravity effects on growth and nutrient uptake, contributing to sustainable food production for long-duration missions. Nutrition studies examined food acceptability and dietary impacts on crew performance, with Russian cosmonauts logging meals to assess bone health preservation in space. In pharmaceutical research, the crew tested mRNA-based therapies for leukemia using the Onco-Selectors experiment to identify more effective cancer treatments in microgravity. Additional simulations explored space-mining techniques using microbes to interact with rock samples, evaluating potential resource extraction for future lunar or Martian habitats. Heart tissue research involved culturing 3D engineered heart tissues (organoids) to investigate microgravity-induced changes in cardiac function, testing drug responses to mitigate spaceflight-related weakening. The U.S. segment hosted over 200 experiments sponsored by and the Japan Aerospace Exploration Agency, spanning , technology development, and human health applications. In contrast, the Russian segment emphasized biomedical studies, such as physiological monitoring and science observations, to support cosmonaut well-being and environmental monitoring. Unique mission outputs included preliminary data from solar array enhancements, where preparatory work on roll-out solar arrays during Expedition 64 spacewalks increased station power capacity by integrating new panels with existing systems, thereby enabling expanded research operations without power constraints. astronaut Kate Rubins, a virologist, led microbial tracking efforts that provided analogs for studying transmission in confined environments, informing response strategies on .

Extravehicular Activities

During Expedition 64, five extravehicular activities (EVAs) were conducted from the Quest airlock by U.S. astronauts using Extravehicular Mobility Unit (EMU) suits, accumulating a total of 33 hours and 3 minutes. These spacewalks focused on critical upgrades to the International Space Station's power infrastructure, including the transition from aging nickel-hydrogen batteries to more efficient lithium-ion units and the preparatory installations for international Roll-Out Solar Arrays (iROSAs) to augment the station's electrical output by 20-30%. On January 27, 2021, astronauts Michael Hopkins and Victor Glover conducted the first U.S. EVA, lasting 6 hours and 56 minutes. Their primary tasks involved relocating a Ka-band antenna to enhance high-speed data communications and initiating battery swaps on the S6 to support the lithium-ion upgrade. The second U.S. EVA took place on February 1, 2021, again with Hopkins and Glover, for 5 hours and 20 minutes. The crew connected components for the new iROSA solar arrays and installed high-definition cameras to improve external monitoring of station operations. Kate Rubins and Victor Glover performed the third U.S. EVA on February 28, 2021, extending to 7 hours and 4 minutes. This spacewalk centered on installing brackets and support structures for the iROSA arrays on the starboard truss, advancing the power enhancement preparations, and partial work on the Bartolomeo platform. The fourth U.S. EVA occurred on March 5, 2021, with Rubins and Japan Aerospace Exploration Agency astronaut , lasting 6 hours and 56 minutes. They completed the installation of the remaining iROSA brackets, finalizing the groundwork for the solar array deployments that would boost the station's power generation. The fifth and final U.S. EVA of Expedition 64 took place on , 2021, with and Glover, lasting 6 hours and 47 minutes. They completed cable connections for the Bartolomeo external payload facility and performed maintenance on the Alpha Magnetic Spectrometer.
EVADateSpacewalkersDurationPrimary Objectives
1January 27, 2021, Glover6h 56mKa-band antenna relocation, S6 battery swaps
2February 1, 2021, Glover5h 20miROSA solar array connections, camera installations
3February 28, 2021Rubins, Glover7h 4miROSA bracket installations, Bartolomeo partial cabling
4March 5, 2021Rubins, Noguchi6h 56mFinal iROSA brackets
5, 2021, Glover6h 47mBartolomeo cable connections, Alpha Magnetic Spectrometer maintenance

Spacecraft Maintenance

During Expedition 64, the crew conducted routine internal maintenance on the International Space Station's critical systems, focusing on ensuring operational reliability amid ongoing crew rotations and vehicle integrations. Following the completion of replacements on the station's solar arrays during a February 1, 2021, spacewalk, the Expedition 64 astronauts monitored the d power systems from inside the modules to verify performance and integration with existing electrical distribution channels, marking the end of a four-year upgrade effort that replaced 48 aging nickel-hydrogen batteries with 24 more efficient . Adjustments to the Environmental Control and Life Support System (ECLSS) were also prioritized, including maintenance on the Water Recovery System-1 Rack, where Flight Engineers Victor Glover and restored full water-processing functionality by servicing components and replacing a in March 2021. These tweaks helped maintain the system's efficiency in urine, sweat, and into potable water, supporting the expanded seven-person crew. Vehicle-specific tasks included ongoing systems monitoring for the docked Soyuz MS-17 spacecraft, with cosmonauts Sergey Ryzhikov and Sergey Kud-Sverchkov practicing relocation procedures inside the Zvezda service module on March 19, 2021, to ensure propulsion, navigation, and life support integrity prior to undocking from the Rassvet module and redocking at the Poisk port. For the Crew Dragon Resilience, integration tests involved internal checks of communications gear and flight suits by astronauts Michael Hopkins, Victor Glover, , and ahead of its April 2021 relocation from the forward port to the zenith port, confirming compatibility with station interfaces and readiness for autonomous maneuvering. Unscheduled maintenance addressed a persistent minor air leak in the Zvezda service module's transfer compartment, an issue originating from prior expeditions but escalating slightly during Expedition 64; on March 10, 2021, Ryzhikov and Kud-Sverchkov applied a second layer of specialized to small cracks, followed by hatch closures on March 12 to allow Russian flight controllers to monitor pressure stabilization, confirming crew safety with no impact on station consumables. Additional internal work included testing circuitry in the Russian segment by Ryzhikov to support overall systems health. Crew rotations facilitated the handover of maintenance responsibilities, including logs and procedures, as the arriving Soyuz MS-18 crew overlapped with Expedition 64 members in April 2021, ensuring seamless transfer of knowledge on ongoing tasks like ECLSS adjustments and power monitoring during the increment handover period. A unique aspect of internal maintenance involved preparations for the eventual deorbiting of the Pirs docking compartment, scheduled for later in 2021; following external preparations via spacewalk, the crew conducted internal checks and stowage in the Russian segment after the February 2021 docking of Progress MS-16, which was tasked with towing Pirs away to free the port for the Nauka module.

Mission Conclusion

Undockings and Landings

The Expedition 64 mission concluded with the undocking of the Soyuz MS-17 spacecraft on April 17, 2021, at 01:34 UTC from the zenith port of the Poisk module, carrying commander Sergey Ryzhikov, flight engineer Sergey Kud-Sverchkov, and flight engineer Kathleen Rubins back to Earth. The deorbit burn occurred approximately three hours later, at 04:01 UTC, followed by entry interface at 04:30 UTC and nominal parachute deployment under clear weather conditions, resulting in a landing at 04:55 UTC about 155 km southeast of Zhezkazgan, , where the crew was recovered in good health. Prior to departure, the Expedition 64 crew completed handover procedures with the newly arrived Soyuz MS-18 crew, transferring final station tasks and operational knowledge to ensure continuity. The Soyuz MS-18 spacecraft, which had docked on April 9, 2021, remained attached to the station to support operations. The undocking of Soyuz MS-17 also marked the transition to , with command of the passing to . Subsequently, on May 2, 2021, at 00:35 UTC, the SpaceX Crew Dragon Resilience undocked from the forward port of the module, carrying commander Michael Hopkins, pilot Victor Glover, mission specialist , and mission specialist , concluding their extended stay that spanned the end of Expedition 64 and into . After a deorbit burn at approximately 05:07 UTC, the capsule performed its first operational ocean for a crew at 06:56 UTC in the off the coast of , with drogue parachutes deploying at 18,000 feet and main parachutes at 6,000 feet under nominal conditions, marking a historic nighttime recovery.

Mission Achievements

Expedition 64 marked a pivotal advancement in the integration of commercial crew vehicles into operations, with the successful docking of SpaceX's Crew Dragon Resilience on November 17, 2020, expanding the crew to seven members and enabling the first operational rotation using a U.S. commercial spacecraft. This milestone facilitated seamless crew handovers and increased research capacity, as the Crew-1 astronauts—NASA's Michael Hopkins, Victor Glover, and , along with JAXA's —joined the existing team for collaborative science and maintenance tasks. The mission's incorporation of Crew Dragon demonstrated reliable autonomous docking and long-duration capabilities, laying the groundwork for routine commercial crew flights under NASA's . Crew members conducted five extravehicular activities (EVAs) totaling more than 32 hours, including preparations for the Roll-Out Solar Array (iROSA) upgrades, which ultimately increased the station's power generation by approximately 30% through the addition of six new arrays producing over 20 kilowatts each. These EVAs, performed by teams such as and Glover on February 1, 2021 (5 hours 20 minutes) and Rubins and Noguchi on March 5, 2021 (6 hours 56 minutes), involved installing modification kits on the station's to support future iROSA deployments, enhancing electrical systems for extended operations and future missions. The work ensured compatibility with legacy solar arrays, boosting overall efficiency without interrupting station power. Biomedical research advanced significantly, with experiments like Cardinal Heart investigating microgravity's effects on heart tissue samples to model cardiovascular adaptations and disease processes, providing insights into stem cell behavior and muscle function for both space travelers and Earth-based applications. The crew also tested mRNA-based therapies for via the Onco-Selectors investigation in microgravity, yielding data on potential therapeutic advancements. These outcomes highlighted microgravity's role in accelerating pharmaceutical discoveries. The expedition's legacy includes its status as the first full commercial crew rotation, fostering international partnerships and contributing data to NASA's through crew experience in long-duration missions; for instance, Glover and Rubins later joined Artemis teams, applying Expedition 64's human health and technology insights to lunar planning. JAXA's underrepresented role was exemplified by Noguchi's contributions, including EVAs for system upgrades and experiments in the Kibo module, such as combustion , which advanced for future spacecraft. Amid challenges, NASA adapted ground support with enhanced quarantines, remote monitoring, and PPE protocols for the Soyuz MS-18 landing on April 17, 2021, ensuring crew safety without mission delays. The team completed 167 days in orbit, while the Soyuz MS-17 crew achieved 185 days, with collective efforts exceeding routine benchmarks through expanded weekly hours enabled by the seven-person crew.

References

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  64. https://www.nasa.gov/image-article/jaxa-astronaut-soichi-noguchi-installs-combustion-research-gear/
  65. https://pmc.ncbi.nlm.nih.gov/articles/PMC7503132/
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