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BSI PD ISO/TS 22295:2021

BSI PD ISO/TS 22295:2021

$167.15

Space environment (natural and artificial). Modelling of space environment impact on nanostructured materials. General principles

Published By Publication Date Number of Pages
BSI 2021 38
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The document considers peculiarities of the space environment impact on a special kind of materials: nanostructured materials (i.e. materials with structured objects which size in at least one dimension lies within 1 nm to 100 nm) and specifies the methods of mathematical simulation of such processes. It emphasizes the necessity of applying multiscale simulation approach and does not include any special details concerning concrete materials, elements of spacecraft construction and equipment, etc.

This document provides the general description of the methodology of applying computer simulation methods which relate to different space and time scales to modelling processes occurring in nanostructured materials under the space environment impact.

The document can be applied as a reference document in spacecraft designing, forecasting the spacecraft lifetime, conducting ground-based tests, and analysing changes of material properties during operation.

PDF Catalog

PDF Pages PDF Title
2 undefined
7 Foreword
8 Introduction
9 1 Scope
2 Normative references
3 Terms and definitions and abbreviated terms
3.1 Terms and definitions
10 3.2 Abbreviated terms
4 Nanostructured materials
11 5 Main space environment components and processes
5.1 General
5.2 Space radiation
5.2.1 General
5.2.2 Special features of nanostructured materials response
12 5.3 Atomic oxygen of the Earth’s upper atmosphere
5.3.1 General
13 5.3.2 Special features of nanostructured materials
5.4 Hot magnetosphere plasma
5.4.1 General
5.4.2 Special features of nanostructured materials response
14 5.5 Heating, cooling and thermal cycling
5.5.1 General
5.5.2 Special features of nanostructured materials
5.6 Meteoroids and space debris
5.6.1 General
5.6.2 Special features of nanostructured materials
5.7 Solar UV and VUV radiation
5.7.1 General
15 5.7.2 Special features of nanostructured materials
6 Multiscale approach to simulation of space components impact on nanostructured materials
6.1 Multiscale simulation methods
6.1.1 General
16 6.1.2 Quantum (electronic) scale
20 6.1.3 Atomistic scale (molecular dynamics and Monte Carlo)
21 6.1.4 Mesoscale
22 6.1.5 Macroscale (continuum methods)
23 6.2 Radiation damage modelling
6.2.1 General
6.2.2 Quantum scale
24 6.2.3 Atomistic scale
6.2.4 Mesoscale
25 6.2.5 Macroscale
6.3 Modelling of atomic oxygen impact
6.3.1 General
26 6.3.2 Quantum scale
27 6.3.3 Atomistic scale
6.3.4 Mesoscale
6.3.5 Macroscale
28 6.4 Modelling of charging effects
6.4.1 General
6.4.2 Quantum scale
6.4.3 Atomistic scale
29 6.4.4 Mesoscale
6.4.5 Macroscale
6.5 Modelling of heating/cooling and thermal cycling effects
6.5.1 General
6.5.2 Atomistic scale
30 6.5.3 Mesoscale
6.5.4 Macroscale
6.6 Modelling of meteoroids and space debris impact
6.6.1 General
6.6.2 Atomistic scale
31 6.6.3 Mesoscale
6.6.4 Macroscale
6.7 Modelling of solar UV and VUV radiation effects
6.7.1 General
6.7.2 Quantum scale
7 Outlook
32 Annex A (informative) Multiscale simulation methods: software for simulation in different space and time scales
35 Bibliography

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BSI PD ISO/TS 22295:2021
$167.15