Add to ORKGCriteria and recommended practices for preventing stress-corrosion cracking from impairing the structural integrity and flightworthiness of space vehicles are presented. The important variables affecting stress-corrosion cracking are considered to be the environment, including time and temperature; metal composition, and structure; and sustained tensile stress. For designing spacecraft structures that are free of stress-corrosion cracking for the service life of the vehicle the following rules apply: (1) identification and control of the environments to which the structure will be exposed during construction, storage, transportation, and use; (2) selection of alloy compositions and tempers which are resistant to stress-corrosion cracking in...
This handbook was produced with the intention of providing failure analysts who work with space flig...
The variables studied in the stress-corrosion cracking performance of high strength aluminum alloys ...
Stress corrosion and metal fatigue of aluminum alloys evaluated through nondestructive test
This document sets forth the criteria to be used in the selection of materials for space vehicles an...
The selection of materials for mechanism components used in ground support equipment so that failure...
Stress corrosion cracking (SCC) of a fracture critical metallic material can cause a premature failu...
Study was initiated to determine methods or test specimens for evaluating stress corrosion cracking ...
Results of sustained-load environmental crack growth threshold tests performed on six spacecraft pre...
A stress corrosion evaluation was performed on Inconel 625, Hastelloy C276, titanium commercially pu...
The complex and multidisciplinary factors are presented which relate to the prevention of structural...
Elgiloy alloy (UNS R30003)a spring material per AMS 5876D (reference 1)is one among several alloys r...
The reusable Manned Space Shuttle has been flying into Space and returning to earth for more than 25...
Stress corrosion cracking (SSC) tests were performed on 13 aluminum alloys, 13 precipitation hardeni...
This experimental program was divided into two parts. The first part evaluated stress corrosion crac...
A systematic approach for applying methods for fracture control in the structural components of spac...
This handbook was produced with the intention of providing failure analysts who work with space flig...
The variables studied in the stress-corrosion cracking performance of high strength aluminum alloys ...
Stress corrosion and metal fatigue of aluminum alloys evaluated through nondestructive test
This document sets forth the criteria to be used in the selection of materials for space vehicles an...
The selection of materials for mechanism components used in ground support equipment so that failure...
Stress corrosion cracking (SCC) of a fracture critical metallic material can cause a premature failu...
Study was initiated to determine methods or test specimens for evaluating stress corrosion cracking ...
Results of sustained-load environmental crack growth threshold tests performed on six spacecraft pre...
A stress corrosion evaluation was performed on Inconel 625, Hastelloy C276, titanium commercially pu...
The complex and multidisciplinary factors are presented which relate to the prevention of structural...
Elgiloy alloy (UNS R30003)a spring material per AMS 5876D (reference 1)is one among several alloys r...
The reusable Manned Space Shuttle has been flying into Space and returning to earth for more than 25...
Stress corrosion cracking (SSC) tests were performed on 13 aluminum alloys, 13 precipitation hardeni...
This experimental program was divided into two parts. The first part evaluated stress corrosion crac...
A systematic approach for applying methods for fracture control in the structural components of spac...
This handbook was produced with the intention of providing failure analysts who work with space flig...
The variables studied in the stress-corrosion cracking performance of high strength aluminum alloys ...
Stress corrosion and metal fatigue of aluminum alloys evaluated through nondestructive test