D. K. Inia scite author profile

A new method for obtaining nitride layers in iron at low temperatures is presented. In this method, bulk iron is coated with a thin layer of nickel and is then treated in an NH3/H2 atmosphere at a temperature of 325°C. Analysis by elastic recoil detection, X-ray diffraction, and Rutherford backscattering spectrometry shows that nitride layers are formed in Fe which is covered with a Ni layer, while uncovered Fe is oxidised by impurities in the gas. The influence of the Ni layer is discussed. It is shown that it is possible to obtain pore free iron nitride layers at low temperatures.

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Nitrogen diffusion and nitride formation during and after implantation in Ni/Fe bilayers

Inia

Feiner

Arnoldbik

et al. 1996

Surface and Coatings Technology

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Microstructural investigation of iron nitride layers formed by low-temperature gaseous nitriding

et al. 1999

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Iron nitride layers were formed by a novel low-temperature gaseous nitriding process. Nitriding occurs at a temperature of 325 °C through NH3 decomposition at the surface of Ni (25 nm) coated Fe, followed by N transport through the Ni film into the underlying Fe, where nitride precipitation takes place. The role of Ni is to protect Fe from oxidation by gas impurities and to serve as a catalyst for NH3 decomposition. The precipitation behavior and the development of microstructure were studied by means of elastic recoil detection, cross-sectional transmission electron diffraction (XTEM), and positron annihilation (PA). From PA and XTEM no evidence was found for the occurrence of porosity during nitriding (an effect found at higher temperatures due to the decomposition of the nitrides into Fe and N2). XTEM showed that the original columnar α–Fe grains transform into smaller ′–Fe4N grains which subsequently transform into larger ε–Fe3−xN grains. This microstructural evolution of smaller ′ grains forming in the original columnar α–Fe structure occurs in one of two growth modes of the nitride in the Fe layer, i.e., throughout the entire depth range of the Fe layer, or preferentially at the Ni/Fe interface when an iron oxide layer is present at this interface.

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D. K. Inia

Low-temperature nitriding of iron through a thin nickel layer

Low-Temperature Nitridation of Iron Layers in NH3-H2 Mixtures

New method for low temperature gaseous nitriding of iron

Nitrogen diffusion and nitride formation during and after implantation in Ni/Fe bilayers

Microstructural investigation of iron nitride layers formed by low-temperature gaseous nitriding

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