*TC is now with the Materials Engineering Department, Parsons Power Generation Systems Ltd, Heaton Works, Shields Road, Newcastle Upon Tyne, NE6 2YL
Provides dilatometric data on the austenite transformation (on heating; three different rates) and the martensite transformation (on rapid cooling) of wrought steels and weld deposits.
The file acmsdb.data is in two parts. The first part contains data on the chemical composition of the steels studied. The second part contains raw dilatometric data.
Column 1 is sample ID.
Column 2 is Carbon concentration / weight %
Column 3 is Silicon concentration / weight %
Column 4 is Manganese concentration / weight %
Column 5 is Sulphur concentration / weight %
Column 6 is Phosphorus concentration / weight %
Column 7 is Nickel concentration / weight %
Column 8 is Chromium concentration / weight %
Column 9 is Molybdenum concentration / weight %
Column 10 is Vanadium concentration / weight %
Column 11 is Cobalt concentration / weight %
Column 12 is Tungsten concentration / weight %
Column 13 is Niobium concentration / weight %
Column 14 is Nitrogen concentration / weight % (N if not available)
Column 15 is Oxygen concentration / weight % (N if not available)
Column 1 is Temperature / °C
Column 2 is Dilation Delta L / L dimensionless
Column 3 is Time
1. Tracey Cool, Design of Steel Weld Deposits, PhD Thesis, University of Cambridge, 1996.
2. Tracey Cool and H. K. D. H. Bhadeshia, Austenite Formation in 9Cr1Mo Type Power Plant Steels, Science and Technology of Welding and Joining Volume 2 Number 1 (1997) pp36-42.
materials, data, dilatation, dilatometric data, austenite, transformation, heating, cooling, martensite, wrought, steel, weld, weld deposit
MAP originated from a joint project of the National Physical Laboratory and the University of Cambridge.
MAP Website administration / map@msm.cam.ac.uk