Shared:2023W4G2Design

From cs
Revision as of 03:13, 10 March 2023 by Mo (Talk | contribs)

Jump to: navigation, search


AR0122-IAPW-2023 Group2 Week2 ConceptPresentation 1.png


Group 2: Mohammad Behboodi - Sumeet Joshi - Dost Sahingoz - Majd Shahoud



DESIGN APPROACH

we began the design by studying the existing references. Based on reference research, Underground rhizomatic structure with skylights, Rhizome 1.0 and some other researches, building underground has many advantages, such as better temperature control against drastic shifts and protection from harmful radiation on Mars. "Dust storms, cosmic rays and solar winds ravage the Red Planet's surface. But belowground, some life might find refuge. "The environment with the best chance of habitability on Mars is the subsurface," says Jesse Tarnas, a planetary scientist at NASA's Jet Propulsion Laboratory and the new study’s lead author. Examining the Martian underground could help scientists learn whether life could have survived there — and the best subsurface samples available today are Martian meteorites that have crash-landed on Earth." Martian crust could sustain life through radiation

Polygonal Patterned Ground.jpg


Polygonal Patterned Ground


AR0122-IAPW-2023 Group2 Week2 ConceptPresentation 2.png


AR0122-IAPW-2023 Group2 Week2 ConceptPresentation 3.png


AR0122-IAPW-2023 Group2 Week2 ConceptPresentation 4.png

AR0122-IAPW-2023 Group2 Week2 ConceptPresentation 5.png

Material

Using regolith-based concrete that can be produced via In-Situ Resource Utilisation (ISRU).


Prototyping and Production methode