2024-03-28T14:39:23Zhttps://eprints.lib.hokudai.ac.jp/dspace-oai/requestoai:eprints.lib.hokudai.ac.jp:2115/885352023-03-22T06:31:02Zhdl_2115_20045hdl_2115_139Visualising Martensite Phase Fraction in Bulk Ferrite Steel by Superimposed Bragg-edge Profile Analysis of Wavelength resolved Neutron Transmission ImagingSato, HirotakaKusumi, AtsuyaShiota, YoshinoriHayashida, HirotoshiSu, YuhuaParker, Joseph DonWatanabe, Kenichi1000050233961Kamiyama, Takashi1000080002202Kiyanagi, Yoshiakimetadata only accesssuperimposed Bragg-edgecrystalline phase fractionferritemartensiteBragg-edge neutron transmission imagingtomography429Bragg-edge neutron transmission imaging, a wavelength-resolved neutron imaging method, is a unique method for materials characterization. This method can quantitatively visualise various crystalline microstructural information in bulk material over several- centimetres with sub-millimetre spatial resolution. In various forms of crystalline information, the martensite phase fraction in ferritic steel is significant for the characterisation of, e.g., contact surface of an induction-hardened gear, dual phase (DP) steel used for automobiles, and the cutting edge of Japanese swords. However, the martensite phase fraction in a ferrite-martensite steel has not been measured using conventional Bragg-edge analysis methods because the entire neutron transmission spectral pattern of the alpha'- martensite phase corresponds to that of the alpha- ferrite phase. However, the Bragg-edge profile of the martensite phase is slightly broader than that of the ferrite phase. For these reasons, we developed a new method for measuring the ferrite/martensite phase fraction from the superimposed Bragg-edge (sBE) profile composed of both sharp alpha{110} Bragg-edge and broad asymmetric a'{110}- a'{101} Bragg-edge. As a result, two-dimensional imaging and computed tomography of the martensite phase fraction in ferrite-martensite steel were reasonably achieved. In addition, we observed the sBE analysis method to have numerous advantages such as reasonable accuracy (similar to 5%), high precision and stability, and easy handling. Furthermore, we identified the suitability of an asymmetric crystal-latticeplane-spacing distribution function for the determination of the alpha'{110}- alpha'{101} Bragg-edge profile, and found the blurred boundary by mixing unquenched and quenched regions in an induction-hardened steel rod.一般社団法人 日本鉄鋼協会 (The Iron and Steel Institute of Japan)2022-11-15engjournal articleNAhttp://hdl.handle.net/2115/88535https://doi.org/10.2355/isijinternational.ISIJINT-2022-1970915-1559ISIJ international621123192330