D
D. Rojas
Researcher at University of Concepción
Publications - 38
Citations - 867
D. Rojas is an academic researcher from University of Concepción. The author has contributed to research in topics: Laves phase & Creep. The author has an hindex of 12, co-authored 30 publications receiving 653 citations. Previous affiliations of D. Rojas include Max Planck Society & Helmholtz-Zentrum Berlin.
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9%Cr heat resistant steels: Alloy design, microstructure evolution and creep response at 650 °C
TL;DR: In this paper, two sets of alloys were produced: 9%Cr alloys with 0.1%C and 0.05%C (always wt) and 9%cr alloys containing ∼0.03% Ti with 0 1%C/0.5%C.
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The role of Laves phase on microstructure evolution and creep strength of novel 9%Cr heat resistant steels
TL;DR: In this paper, the influence of Laves phase formation and growth kinetics on the creep strength at 650°C of two different 9%Cr heat resistant steels of the authors' design was investigated.
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Investigations on coarsening of MX and M23C6 precipitates in 12% Cr creep resistant steels assisted by computational thermodynamics
TL;DR: In this article, the evolution of precipitates at different creep times was determined experimentally using scanning transmission electron microscopy (STEM). Phase equilibria were calculated with Thermocalc and simulations of coarsening of precipitate were carried out with Dictra.
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Investigations on the growth kinetics of Laves phase precipitates in 12% Cr creep-resistant steels: Experimental and DICTRA calculations
TL;DR: In this paper, the growth kinetics of Laves phase precipitates (type Fe2W) in the early stage of creep (650°C for 10,000h) in two 12% Cr ferrite-martensitic steels has been investigated.
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Estimation of the surface interaction mechanism of ZnO nanoparticles modified with organosilane groups by Raman Spectroscopy
A. F. Jaramillo,R. Baez-Cruz,L.F. Montoya,C. Medinam,Eduardo Pérez-Tijerina,F. Salazar,D. Rojas,Manuel F. Meléndrez +7 more
TL;DR: In this article, the surface modification of zinc oxide nanoparticles (ZnO-NPs) with 3-aminopropyltriethoxysilane (APTES) was investigated by the physical method of continuous arc discharge in controlled atmosphere (DARC-AC).