Asset Details
MbrlCatalogueTitleDetail
Do you wish to reserve the book?
A Compact Concrete Mixing System for High Quality Specimen Production in Space: Automated MASON Concrete Mixer
by
Müller, Julian T. I.
, Schnellenbach-Held, Martina
, Mertsch, Julian H.
, Rattenbacher, Bernd
, Kleszczynski, Stefan
in
Analysis
/ Architecture
/ Automation
/ Cement hydration
/ Concrete curing
/ concrete mixer
/ Concrete mixes
/ Concrete mixing
/ Concrete properties
/ Experiments
/ Gravity
/ Instrumentation
/ International Space Station
/ ISS hardware
/ materials
/ Materials research
/ Mechanical tests
/ Microgravity
/ Moon
/ Process control
/ Product development
/ Quality standards
/ R&D
/ Research & development
/ Solidification
/ space construction
/ Space stations
2025
Hey, we have placed the reservation for you!
By the way, why not check out events that you can attend while you pick your title.
You are currently in the queue to collect this book. You will be notified once it is your turn to collect the book.
Oops! Something went wrong.
Looks like we were not able to place the reservation. Kindly try again later.
Are you sure you want to remove the book from the shelf?
A Compact Concrete Mixing System for High Quality Specimen Production in Space: Automated MASON Concrete Mixer
by
Müller, Julian T. I.
, Schnellenbach-Held, Martina
, Mertsch, Julian H.
, Rattenbacher, Bernd
, Kleszczynski, Stefan
in
Analysis
/ Architecture
/ Automation
/ Cement hydration
/ Concrete curing
/ concrete mixer
/ Concrete mixes
/ Concrete mixing
/ Concrete properties
/ Experiments
/ Gravity
/ Instrumentation
/ International Space Station
/ ISS hardware
/ materials
/ Materials research
/ Mechanical tests
/ Microgravity
/ Moon
/ Process control
/ Product development
/ Quality standards
/ R&D
/ Research & development
/ Solidification
/ space construction
/ Space stations
2025
Oops! Something went wrong.
While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
A Compact Concrete Mixing System for High Quality Specimen Production in Space: Automated MASON Concrete Mixer
by
Müller, Julian T. I.
, Schnellenbach-Held, Martina
, Mertsch, Julian H.
, Rattenbacher, Bernd
, Kleszczynski, Stefan
in
Analysis
/ Architecture
/ Automation
/ Cement hydration
/ Concrete curing
/ concrete mixer
/ Concrete mixes
/ Concrete mixing
/ Concrete properties
/ Experiments
/ Gravity
/ Instrumentation
/ International Space Station
/ ISS hardware
/ materials
/ Materials research
/ Mechanical tests
/ Microgravity
/ Moon
/ Process control
/ Product development
/ Quality standards
/ R&D
/ Research & development
/ Solidification
/ space construction
/ Space stations
2025
Please be aware that the book you have requested cannot be checked out. If you would like to checkout this book, you can reserve another copy
We have requested the book for you!
Your request is successful and it will be processed during the Library working hours. Please check the status of your request in My Requests.
Oops! Something went wrong.
Looks like we were not able to place your request. Kindly try again later.
A Compact Concrete Mixing System for High Quality Specimen Production in Space: Automated MASON Concrete Mixer
Journal Article
A Compact Concrete Mixing System for High Quality Specimen Production in Space: Automated MASON Concrete Mixer
2025
Request Book From Autostore
and Choose the Collection Method
Overview
Establishing a sustainable human presence on the Moon and Mars will require the use of locally available resources for construction. A binder material similar to concrete is a promising candidate, provided that its production and performance under reduced gravity can be reliably understood. Previous microgravity investigations demonstrated the feasibility of mixing cementitious materials in space but produced irregular or low-quality specimens that limited standardized mechanical testing. To address these limitations, the MASON (Material Science on Solidification of Concrete) team developed the first-generation MASON Concrete Mixer (MCM), which enabled the safe production of cylindrical specimens aboard the International Space Station (ISS). However, its fully manual operation introduced variability and required significant astronaut time. Building on this foundation, the development of an automated MCM prototype is presented in this study. It integrates motorized mixing and programmable process control into the established containment architecture. This system enables reproducible specimen production by eliminating operator-dependent variations while reducing crew workload. In comparison to manually mixed samples, the automated MCM demonstrated reduced variability in the tested concrete properties. The automated MCM represents a first step toward autonomous space instrumentation for high-quality materials research and provides a scalable path to uncrewed missions and future extraterrestrial construction technologies.
This website uses cookies to ensure you get the best experience on our website.