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ASTM E 491 : 1973 : R2020

Current

Current

The latest, up-to-date edition.

Standard Practice for Solar Simulation for Thermal Balance Testing of Spacecraft

Available format(s)

Hardcopy , PDF

Language(s)

English

Published date

10-12-2020

€80.76
Excluding VAT

Committee
E 21
DocumentType
Standard Practice
Pages
33
PublisherName
American Society for Testing and Materials
Status
Current
Supersedes

1.1Purpose:

1.1.1The primary purpose of this practice is to provide guidance for making adequate thermal balance tests of spacecraft and components where solar simulation has been determined to be the applicable method. Careful adherence to this practice should ensure the adequate simulation of the radiation environment of space for thermal tests of space vehicles.

1.1.2A corollary purpose is to provide the proper test environment for systems-integration tests of space vehicles. An accurate space-simulation test for thermal balance generally will provide a good environment for operating all electrical and mechanical systems in their various mission modes to determine interferences within the complete system. Although adherence to this practice will provide the correct thermal environment for this type of test, there is no discussion of the extensive electronic equipment and procedures required to support systems-integration testing.

1.2Nonapplicability—This practice does not apply to or provide incomplete coverage of the following types of tests:

1.2.1Launch phase or atmospheric reentry of space vehicles,

1.2.2Landers on planet surfaces,

1.2.3Degradation of thermal coatings,

1.2.4Increased friction in space of mechanical devices, sometimes called “cold welding,”

1.2.5Sun sensors,

1.2.6Man in space,

1.2.7Energy conversion devices, and

1.2.8Tests of components for leaks, outgassing, radiation damage, or bulk thermal properties.

1.3Range of Application:

1.3.1The extreme diversification of space-craft, design philosophies, and analytical effort makes the preparation of a brief, concise document impossible. Because of this, various spacecraft parameters are classified and related to the important characteristic of space simulators in a chart in 7.6.

1.3.2The ultimate result of the thermal balance test is to prove the thermal design to the satisfaction of the thermal designers. Flexibility must be provided to them to trade off additional analytical effort for simulator shortcomings. The combination of a comprehensive thermal-analytical model, modern computers, and a competent team of analysts greatly reduces the requirements for accuracy of space simulation.

1.4Utility—This practice will be useful during space vehicle test phases from the development through flight acceptance test. It should provide guidance for space simulation testing early in the design phase of thermal control models of subsystems and spacecraft. Flight spacecraft frequently are tested before launch. Occasionally, tests are made in a space chamber after a sister spacecraft is launched as an aid in analyzing anomalies that occur in space.

1.5This standard does not purport to address all of the safety concerns, if any, associated with its use. It is the responsibility of the user of this standard to establish appropriate safety, health, and environmental practices and determine the applicability of regulatory limitations prior to use.

1.6This international standard was developed in accordance with internationally recognized principles on standardization established in the Decision on Principles for the Development of International Standards, Guides and Recommendations issued by the World Trade Organization Technical Barriers to Trade (TBT) Committee.

ASTM E 259 : 1998 Standard Practice for Preparation of Pressed Powder White Reflectance Factor Transfer Standards for Hemispherical Geometry and Bi-Directional Geometries
ASTM E 259 : 2006 : R2015 Standard Practice for Preparation of Pressed Powder White Reflectance Factor Transfer Standards for Hemispherical and Bi-Directional Geometries (Withdrawn 2024)

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