Phase and crystal orientation study of a TRansformation Induced Plasticity steel subjected to cyclic load induced fatigue

Hilditch, Timothy, Timokhina, Ilana, Robertson, Leigh, Pereloma, Elena and Hodgson, Peter 2014, Phase and crystal orientation study of a TRansformation Induced Plasticity steel subjected to cyclic load induced fatigue [data collection], doi: 10.4225/16/5382CCA77FB27.


Field of Research 091299 Materials Engineering not elsewhere classified
Socio Economic Objective 970110 Expanding Knowledge in Technology
Type of research activity Applied research
Name of data collection Phase and crystal orientation study of a TRansformation Induced Plasticity steel subjected to cyclic load induced fatigue
Creator(s) Hilditch, TimothyORCID iD for Hilditch, Timothy orcid.org/0000-0003-0300-5774
Timokhina, IlanaORCID iD for Timokhina, Ilana orcid.org/0000-0003-1989-0835
Robertson, Leigh
Pereloma, Elena
Hodgson, Peter
Date completed 2014-05-26
ANDS collection type dataset
Collection start date 2006-01-01
Collection end date 2006-01-01
Description of resource 40MB in14 binary files
Keyword(s) EBSD
electron backscatter diffraction
Language eng
Summary An electron backscatter diffraction (EBSD) study of the microstructure of TRIP steel during fatigue failure. Phase and crystal orientation study of a TRIP steel subjected to cyclic load induced fatigue. The relative fractions of austenite, ferrite and martensite are quantified within the strain field of a fatigue crack tip. This data is a subset of data supporting a wider study of the fatigue properties of multiphase steels used in the automotive industry. The different microstructural phases present in these steels can influence the strain life and cyclic stabilized strength of the material due to the way in which these phases accommodate the applied cyclic strain. Fully reversed strain-controlled low-cycle fatigue tests have been used to determine the mechanical fatigue performance of a dual-phase (DP) 590 and transformation induced plasticity (TRIP) 780 steel, with transmission electron microscopy (TEM) and scanning electron microscopy (SEM-EBSD) used to examine the deformed microstructures .
Contact details (email) sullivan@deakin.edu.au
Contact details (physical) Andrew Sullivan
Copyright notice ┬ęCopyright Deakin University
Access conditions No access conditions currently apply to the data. The data is open to all for private study and fair use only. To request access email to Andrew Sullivan.
DOI 10.4225/16/5382CCA77FB27
Persistent URL http://hdl.handle.net/10536/DRO/DU:30063599

Document type: Data Collection
Collection: Datasets collection
 
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Created: Mon, 26 May 2014, 10:00:00 EST

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