JOURNAL ARTICLE
FATIGUE CRACK GROWTH IN METASTABLE AUSTENITIC STAINLESS STEELS
Year: 1988 Vol: 32 (5)Pages: 705-714
Abstract
Study findings provide insights for future dissemination research and implementation of evidence-based practices in primary care. Challenges experienced in project development can result in a domino effect that could change the project timeline, type of practices recruited for study participation, resource allocation, and planned activities for quality improvement. Effectiveness of external quality improvement support may depend on practice engagement, preexisting organizational structures and processes, availability of resources, and length and continuity of practice facilitation.
Keywords:
Materials science Austenite Paris' law Crack closure Metallurgy Martensite Metastability Growth rate Diffusionless transformation Crack growth resistance curve Composite material Fracture mechanics Microstructure Mathematics Chemistry
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Topics
Microstructure and Mechanical Properties of Steels
Physical Sciences → Engineering → Mechanical Engineering
Fatigue and fracture mechanics
Physical Sciences → Engineering → Mechanics of Materials
High Temperature Alloys and Creep
Physical Sciences → Engineering → Mechanical Engineering
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