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Main Authors: Suriano, Serena, Biktimirov, Shamil, Pritykin, Dmitry, Ivanov, Anton
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.18664
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_version_ 1866914493065330688
author Suriano, Serena
Biktimirov, Shamil
Pritykin, Dmitry
Ivanov, Anton
author_facet Suriano, Serena
Biktimirov, Shamil
Pritykin, Dmitry
Ivanov, Anton
contents Asteroid mining can become an enabling technology to establish a sustainable manned colony on Mars, which requires metallic materials more often than they are readily available in shipments from Earth. This paper describes a feasibility study of a supply chain that delivers metals extracted from metallic asteroids to Mars. The asteroids are selected to respect the $ΔV$ limits imposed by up-to-date spacecraft. The study is conducted with reference to the state of the art in space transportation technologies and in-situ resource utilization. A possibility for mining on carbonaceous asteroids to produce the propellant required for return trips is also taken into account. Different supply chains are computed through a multi-objective optimization routine that considers the mission $ΔV$, the mass of extracted metals and the mass of propellant produced on the asteroids. Schedules to visit the asteroids within reach are obtained and the total mass of the delivered material is evaluated for various mining rates. Finally, the use of the metallic material to build habitats and rovers on the Martian soil through additive manufacturing is discussed.
format Preprint
id arxiv_https___arxiv_org_abs_2604_18664
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Asteroid Mining to Sustain a Mars Colony: A Logistics Point of View
Suriano, Serena
Biktimirov, Shamil
Pritykin, Dmitry
Ivanov, Anton
Instrumentation and Methods for Astrophysics
Earth and Planetary Astrophysics
Asteroid mining can become an enabling technology to establish a sustainable manned colony on Mars, which requires metallic materials more often than they are readily available in shipments from Earth. This paper describes a feasibility study of a supply chain that delivers metals extracted from metallic asteroids to Mars. The asteroids are selected to respect the $ΔV$ limits imposed by up-to-date spacecraft. The study is conducted with reference to the state of the art in space transportation technologies and in-situ resource utilization. A possibility for mining on carbonaceous asteroids to produce the propellant required for return trips is also taken into account. Different supply chains are computed through a multi-objective optimization routine that considers the mission $ΔV$, the mass of extracted metals and the mass of propellant produced on the asteroids. Schedules to visit the asteroids within reach are obtained and the total mass of the delivered material is evaluated for various mining rates. Finally, the use of the metallic material to build habitats and rovers on the Martian soil through additive manufacturing is discussed.
title Asteroid Mining to Sustain a Mars Colony: A Logistics Point of View
topic Instrumentation and Methods for Astrophysics
Earth and Planetary Astrophysics
url https://arxiv.org/abs/2604.18664