ISO/FDIS 23129

FINAL
INTERNATIONAL ISO/FDIS
DRAFT
STANDARD 23129
ISO/TC 20/SC 14
Space systems — Thermal control
Secretariat: ANSI
coatings for spacecraft — Atomic
Voting begins on:
2021­07­01 oxygen protective coatings on
polyimide film
Voting terminates on:
2021­08­26
RECIPIENTS OF THIS DRAFT ARE INVITED TO
SUBMIT, WITH THEIR COMMENTS, NOTIFICATION
OF ANY RELEVANT PATENT RIGHTS OF WHICH
THEY ARE AWARE AND TO PROVIDE SUPPOR TING
DOCUMENTATION.
IN ADDITION TO THEIR EVALUATION AS
Reference number
BEING ACCEPTABLE FOR INDUSTRIAL, TECHNO­
ISO/FDIS 23129:2021(E)
LOGICAL, COMMERCIAL AND USER PURPOSES,
DRAFT INTERNATIONAL STANDARDS MAY ON
OCCASION HAVE TO BE CONSIDERED IN THE
LIGHT OF THEIR POTENTIAL TO BECOME STAN­
DARDS TO WHICH REFERENCE MAY BE MADE IN
NATIONAL REGULATIONS. ISO 2021
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ISO/FDIS 23129:2021(E)
COPYRIGHT PROTECTED DOCUMENT
© ISO 2021

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Foreword ..........................................................................................................................................................................................................................................v

Introduction ................................................................................................................................................................................................................................vi

1 Scope ................................................................................................................................................................................................................................. 1

2 Normative references ...................................................................................................................................................................................... 1

3 Terms, definitions and abbreviated terms ................................................................................................................................ 1

3.1 Terms and definitions ....................................................................................................................................................................... 1

3.2 Abbreviated terms ............................................................................................................................................................................... 3

4 General requirements and recommendations ...................................................................................................................... 3

4.1 General ........................................................................................................................................................................................................... 3

4.2 Visual characteristics ......................................................................................................................................................................... 4

4.3 Coating thickness .................................................................................................................................................................................. 4

4.4 Thermo­optical properties ........................................................................................................................................................... 4

4.5 Thermal vacuum stability .............................................................................................................................................................. 4

4.6 AO resistance ............................................................................................................................................................................................ 4

4.7 UV resistance ............................................................................................................................................................................................ 5

4.8 Radiation resistance ........................................................................................................................................................................... 5

4.9 Adhesion ....................................................................................................................................................................................................... 5

4.10 Volume resistance ................................................................................................................................................................................ 5

4.11 Surface resistance ................................................................................................................................................................................. 5

4.12 Secondary electron emission yield ........................................................................................................................................ 5

4.13 Photoelectron emission yield ..................................................................................................................................................... 5

4.14 Thermal cycling ...................................................................................................................................................................................... 5

4.15 Repair/Retouch ...................................................................................................................................................................................... 5

4.16 Cleaning ......................................................................................................................................................................................................... 5

5 Test methods ............................................................................................................................................................................................................. 6

5.1 General ........................................................................................................................................................................................................... 6

5.2 Visual inspection ................................................................................................................................................................................... 6

5.3 Coating thickness .................................................................................................................................................................................. 6

5.4 Thermo­optical properties ........................................................................................................................................................... 6

5.5 Thermal vacuum stability .............................................................................................................................................................. 7

5.6 AO resistance ............................................................................................................................................................................................ 7

5.6.1 Product qualification test ......................................................................................................................................... 7

5.6.2 Life estimation test ........................................................................................................................................................ 7

5.7 UV resistance ............................................................................................................................................................................................ 7

5.7.1 Product qualification test ......................................................................................................................................... 7

5.7.2 Life estimation test ........................................................................................................................................................ 8

5.8 Radiation resistance ........................................................................................................................................................................... 8

5.8.1 Product qualification test ......................................................................................................................................... 8

5.8.2 Life estimation test ........................................................................................................................................................ 8

5.9 Adhesion ....................................................................................................................................................................................................... 8

5.10 Volume resistance ................................................................................................................................................................................ 9

5.11 Surface resistance ................................................................................................................................................................................. 9

5.12 Secondary electron emission yield ........................................................................................................................................ 9

5.13 Photoelectron emission yield ..................................................................................................................................................... 9

5.14 Thermal cycling (influence of temperatures) ............................................................................................................10

5.15 Repair/Retouch ...................................................................................................................................................................................10

5.16 Cleaning ......................................................................................................................................................................................................10

6 Requirements and recommendations for application ...............................................................................................10

6.1 Consideration for usage ...............................................................................................................................................................10

6.2 Identification .........................................................................................................................................................................................11

6.3 Protectors .................................................................................................................................................................................................11

6.4 Packing ........................................................................................................................................................................................................11

7 Production program of quality assurance ..............................................................................................................................11

7.1 General ........................................................................................................................................................................................................11

7.2 Changes and revisions ...................................................................................................................................................................12

7.3 Record of changes ......... .....................................................................................................................................................................12

Annex A (informative) Types of coatings ......................................................................................................................................................13

Annex B (informative) General properties of atomic oxygen protective coatings .............................................14

Annex C (informative) Coatings selection guideline .........................................................................................................................16

Annex D (informative) Visual characteristics guideline ...............................................................................................................18

Bibliography .............................................................................................................................................................................................................................19

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This document was prepared by Technical Committee ISO/TC 20, Aircraft and space vehicles,

Any feedback or questions on this document should be directed to the user’s national standards body. A

This document describes technical information for the selection and application of atomic oxygen

protective coatings as required to confirm conformity with the requirements for the protection of

Satellites in low Earth orbit are bombarded by high-energy radiation particles and gas particles such

as atomic oxygen (AO). In particular, AO corrodes certain materials, thereby weakening a spacecraft’s

exterior and potentially damaging its instruments. Polymers are significantly eroded.

Polyimide films are widely used as multilayer insulation materials on a spacecraft’s exterior, which

is exposed directly to the space environment. Despite these interesting properties, polyimide shows

poor resistance to AO. Therefore, polyimide is often coated with an additional protective coating for

resistance to AO. Such films have unique characteristics that are relevant for different applications.

This document summarizes the coating properties, as well as a comparison or consideration of the pros

This document provides a property map of the types of AO protective coatings available to spacecraft

designers and thermal control film manufacturers. It enhances coating selection, indicates selection

Requirements for coating properties and quality control are also defined, so as to eliminate defective

products, improve the quality and function of films, accelerate the exchange and distribution of coating

techniques, invite new providers to the market, introduce competition, and enhance international

This document defines the general requirements for atomic oxygen (AO) protective coatings that

are applied on polyimide thermal control films. It also describes the different properties of coated

polyimide films such as indium tin oxide (ITO), SiO , germanium, and silicone, property measurement

The following documents are referred to in the text in such a way that some or all of their content

constitutes requirements of this document. For dated references, only the edition cited applies. For

undated references, the latest edition of the referenced document (including any amendments) applies.

ISO 16378, Space systems — Measurements of thermo-optical properties of thermal control materials

ISO 27025:2010, Space systems — Programme management — Quality assurance requirements

ASTM D257, Standard Test Methods for DC Resistance or Conductance of Insulating Materials

ASTM E595, Standard Test Method for Total Mass Loss and Collected Volatile Condensable Materials from

ASTM E1559, Standard Test Method for Contamination Outgassing Characteristics of Spacecraft Materials

ECSS­ST­Q70­02, Thermal vacuum outgassing test for the screening of space materials

ISO and IEC maintain terminology databases for use in standardization at the following addresses:

oxygen molecules separated by ultraviolet light from the sun, which are main atmospheric constituents

Note 1 to entry: As a spacecraft orbits the Earth at high speed, atomic oxygen can collide with the spacecraft's

continuous layer formed from a single or multiple application of a coating material (3.1.3) to a substrate

[SOURCE: ISO 4618:2014, 2.50.1, modified — "continuous" has been added at the beginning.]

product, in liquid, paste or powder form, that, when applied to a substrate (3.1.8), forms a film possessing

Note 1 to entry: Coating materials are often applied using a chemical or plasma vapour deposition process from

solid source materials. General types of AO protective coatings (3.1.2) are listed in Annex A.

[SOURCE: ISO 4618:2014, 2.51, modified — "layer" has been replaced by "film"; "decorative" after

"protective" has been removed; the original note 1 to entry has been removed and replaced by a new

process of applying a coating material (3.1.3) to a substrate (3.1.8), such as dipping, spraying, roller

Note 1 to entry: A chemical or plasma vapour deposition process is also commonly applied.

Note 1 to entry: The following adjectives should be added to define the conditions (see ISO 9288):

— total: when related to the entire spectrum of thermal radiation (this designation can be considered as

— spectral or monochromatic: when related to a spectral interval centred on wavelength λ;

— hemispherical: when related to all directions along which a surface element can emit or receive radiation.

— directional: when related to the directions of propagation defined by a solid angle around the defined

— normal: when related to the normal direction of propagation or incidence to the surface.

ratio of the solar radiant flux absorbed by a material (or body) to the radiant flux of the incident

Note 1 to entry: These samples are made in the form of flat plates using the same coating material (3.1.3) as used

with the product, and then coated simultaneously. They are used for destructive tests and testing that requires a

[SOURCE: ISO 16691:2014, 3.1.17, modified — Note 1 to entry has been updated editorially.]

This clause defines the requirements and recommendations regarding the fundamental properties

of coated film. The related data and test methods are provided to the customer for spacecraft design.

The coated film as received by the customer shall be smooth, continuous, free from delamination

within the coating, uniform in appearance, and free from imperfections detrimental to usage of the

coated film. Coated film shall be visually free from scratches, cracks, separation and any unallowable

The coating thickness range shall be provided. The thickness of AO protective coating shall be within

the allowable range defined in the product specifications. Excessive thickness would cause cracks and/

Base film with perforations is more vulnerable due to coating failure around the holes. Coating shall be

applied on the section edge of a perforation to prevent AO erosion. Annex B lists the typical values of

The thermo-optical properties of coated film shall be submitted. Annex B lists the typical values of the

AO, UV, and energetic particles can cause changes in thermo-optical properties. Any changes in the

thermo-optical properties of coated film shall be measured when requested by project. AO protection

Effused gas from coated film under a vacuum condition shall be low. Annex B lists the typical values of

AO protective coating shall guard its base film up to a spacecraft’s EOL without any openings penetrating

the coating layer. Erosion of the base film due to cracks, separation, degradation and erosion of AO

protective coating shall not occur. Annex B lists the typical mass loss values after AO irradiation.

Coated film applied to the outer surface of a spacecraft is subject to strong UV rays. Thermo-optical

properties are degraded by UV. The thermo-optical properties of AO protective coating should be

maintained within the allowable range. Annex B lists the typical thermo-optical properties after UV

Coated film is subject to protons and electrons. Thermo-optical properties are degraded by radiation.

The thermo­optical properties of AO protective coating should be maintained within the allowable

range. Annex B lists the typical thermo-optical properties after radiation exposure.

AO protection coating should have no peeling after the tape stripping test as defined in Clause 5.

Coated film that can have an adverse effect on spacecraft systems and hardware due to their electrical

characteristics and properties shall be reviewed by EMI engineering for conformity with program

Surface resistance data shall be provided to the customer. Annex B lists the surface resistance values of

Coated film that can have an adverse effect on spacecraft systems and hardware due to their electrical

characteristics and properties shall be reviewed by EMI engineering for conformity with program

Secondary electron emission yield data should be provided to the customer when requested.

Secondary electron emission yield data should be provided to the customer when requested.

Coated film should function in the temperature range of -190 °C to +200 °C, unless otherwise stated in

When the coated film is repairable, the coating supplier shall provide the repair/retouch procedure.

Coated film shall be easy for cleaning. The coating supplier shall provide the cleaning procedure,

Both reliability and quality are confirmed by testing in the production of AO protective coatings to be

In addition, the effects of the space environment largely depend on the spacecraft service conditions,

which are defined by the orbits where spacecraft are intended to operate. Especially for LEO spacecraft,

AO attacks and erodes the surface material of spacecraft. And there are also general factors that affect

spacecraft serviceability and efficiency, such as a vacuum, electromagnetic solar radiation (including

UV and VUV radiation), ionizing radiation, temperature, and the effects of a contaminated environment.

Therefore, such undesirable effects as electrostatic charging, generating a spacecraft outer atmosphere,

Coated film shall be subject to visual inspection with the naked eye and/or electronic magnification.

Witness samples approved by the manufacturer shall be used for any required comparison. The samples