High Temperature Materials and Processes

Papers
(The median citation count of High Temperature Materials and Processes is 3. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-09-01 to 2024-09-01.)
ArticleCitations
Morphology evolution and quantitative analysis of β-MoO3 and α-MoO332
A review of end-point carbon prediction for BOF steelmaking process20
Kinetics of iron removal from quartz under ultrasound-assisted leaching8
Optimization of heat treatment of glass-ceramics made from blast furnace slag8
Microstructure of metatitanic acid and its transformation to rutile titanium dioxide7
Evolution of nonmetallic inclusions in pipeline steel during LF and VD refining process7
Effects of rotational speed on the Al0.3CoCrCu0.3FeNi high-entropy alloy by friction stir welding6
Phase evolution and oxidation characteristics of the Nd–Fe–B and Ce–Fe–B magnet scrap powder during the roasting process6
Effect of adding yttrium on precipitation behaviors of inclusions in E690 ultra high strength offshore platform steel6
Microstructure evolution of TC4 powder by spark plasma sintering after hot deformation5
The investigation on the middle period dephosphorization in 70t converter5
Effect of cerium on the initiation of pitting corrosion of 444-type heat-resistant ferritic stainless steel5
Study on microstructure and mechanical properties of P92 steel after high-temperature long-term aging at 650°C4
Kinetic analysis of CO2 gasification of biochar and anthracite based on integral isoconversional nonlinear method3
Influence of polyvinyl alcohol–glutaraldehyde on properties of thermal insulation pipe from blast furnace slag fiber3
Numerical simulation of nickel-based alloys’ welding transient stress using various cooling techniques3
Effects of solution and aging treatment parameters on the microstructure evolution of Ti–10V–2Fe–3Al alloy3
Effect of Nb addition on the solidification structure of Fe–Mn–C–Al twin-induced plasticity steel3
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