Print Email Facebook Twitter Engineering austenite/martensite mesostructured materials by controlled localised laser treatments in a Fe–Ni–C alloy Title Engineering austenite/martensite mesostructured materials by controlled localised laser treatments in a Fe–Ni–C alloy Author Breukelman, H. J. (Student TU Delft) Hermans, M.J.M. (TU Delft Team Marcel Hermans) Santofimia, Maria Jesus (TU Delft Team Maria Santofimia Navarro) Hidalgo Garcia, J. (TU Delft Team Maria Santofimia Navarro; Universidad de Castilla-La Mancha) Date 2023 Abstract Localised laser treatments enable the creation of sophisticated austenite/martensite mesostructures in Fe–Ni–C steel with the potential of achieving enhanced mechanical performance. The control of phase topology is essential to modify the properties of these structures on demand and requires a profound understanding of the effect of the processing parameters on the development of the different phases upon the application of laser treatment. In this work, the microstructure evolution under exceptional gradients in temperature and heating rates is thoroughly investigated. The extent of the laser-affected zone and the heat input were tailored by varying laser parameters and specimen thickness, based on a model that considers transient material properties and the coupling between temperature and microstructure. The predicted temperature fields resulted in a complex interplay between martensite to austenite phase transformation and martensite tempering. Considering the high heating rates of up to 25000 K/s and the observed microstructures, it is suggested that austenite was formed by a pseudo-displacive mechanism and subsequently fully recrystallised in the zones most directly affected by the laser heat source. A smooth strength transition from austenite to martensite, affected by the laser parameters, could be exploited for more effective deformation mechanisms and improved material mechanical properties. Subject AusteniteFlash heatingLocal heat treatmentMartensitePatterned microstructure materials To reference this document use: http://resolver.tudelft.nl/uuid:ee8df385-816b-4029-b577-0a8987e1c3d1 DOI https://doi.org/10.1016/j.matdes.2023.111772 ISSN 0264-1275 Source Materials & Design, 227 Part of collection Institutional Repository Document type journal article Rights © 2023 H. J. Breukelman, M.J.M. Hermans, Maria Jesus Santofimia, J. Hidalgo Garcia Files PDF 1_s2.0_S0264127523001879_main.pdf 4.11 MB Close viewer /islandora/object/uuid:ee8df385-816b-4029-b577-0a8987e1c3d1/datastream/OBJ/view