Sensitization of inconel 600. I. Scanning auger and optical microscopy
- 1 June 1989
- journal article
- research article
- Published by Taylor & Francis in Philosophical Magazine A
- Vol. 59 (6) , 1119-1136
- https://doi.org/10.1080/01418618908221166
Abstract
The effect of impurity elements such as carbon, phosphorus, boron and silicon on the microstructural characteristics and grain-boundary chemistry of Inconel 600 has been investigated using optical microscopy and scanning Auger electron microscopy techniques. Of the elements added, only phosphorus was detected at grain boundaries and at the carbide-matrix interface. Carbon and boron were found to form discrete precipitates while silicon did not affect significantly the microstructural characteristics of the material. Sulphur-rich particles were found at the fractured surfaces and were associated with chromium carbides and titanium nitrides.Keywords
This publication has 15 references indexed in Scilit:
- Grain boundary segregation in inconel 600Surface and Interface Analysis, 1988
- The microstructural response of mill-annealed and solution-annealed INCONEL 600 to heat treatmentMetallurgical Transactions A, 1985
- Technical Note: Relationship between Chromium Depletion in Sensitized Alloy 600 and U-Bend Cracking in Sodium Thiosulfate SolutionCorrosion, 1985
- Microstructural Characterization of Inconel Alloy 600 Annealed in the 700 to 1200 F Temperature RangeCorrosion, 1985
- Constant Extension Rate Tensile (CERT) Tests of Creviced Alloy 600 Specimens in Aqueous Environments at 288 CCorrosion, 1984
- Hydrogen Permeability and Diffusivity in Nickel and Ni-Base AlloysCorrosion, 1983
- Analysis of grain boundary particles by scanning Auger microscopyApplications of Surface Science, 1981
- An Auger Electron Spectroscopic Study of Phosphorus Segregation in the Grain Boundaries of Nickel Base Alloy 600Corrosion, 1981
- Effects of Variations of Carbon, Sulfur and Phosphorus on the Corrosion Behavior of Alloy 600Corrosion, 1975
- Sensitivity to Stress Corrosion and Intergranular Attack of High-Nickel Austenitic AlloysCorrosion, 1966