Materials at High Temperatures

Papers
(The TQCC of Materials at High Temperatures 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 2021-08-01 to 2025-08-01.)
ArticleCitations
Effect of precipitation behaviour of μ phase and M23C6 carbide on microstructure and creep properties of DD5 single-crystal superalloy during long-term thermal exposure17
Interaction and superposition of creep damage and high-cycle fatigue of coarse-grained nickel-base alloy 24717
Limitations to the impression creep test14
Effect of concave–convex degree of substrate surface on thermal shock performance of Cr coating11
Investigation on microstructure and mechanical properties of reformer furnace tube after 12 years’ service11
The effects of water vapour on the hot corrosion of gas turbine blade materials at 700 °C10
Life prediction of P91 piping accounting for creep fatigue conditions10
Fireside performance of different coatings in biomass power plant9
Thermal ageing and creep damage in 316L(N) alloys: a 3D analysis9
Microstructural characterisation of creep tested advanced austenitic stainless steel super 304H9
Internal carburization and scale formation on austenitic steels in supercritical carbon dioxide8
Cavitation during creep-fatigue loading8
CreeSo – software for creep simulation of complex alloys7
Thermal analysis of the effects of cobalt additions on the high temperature expansion, melting and oxidation behaviors of nickel-based superalloys7
High temperature component integrity in turbines required for flexible operation – evaluating assessment effectiveness6
Verification of Long-term Creep Rupture Properties and Microstructure Stability of Ni based Alloy 45Ni-24Fe-23Cr-7W-Ti Parent Metal and Weldment6
Modelling for Creep Cavitation Damage and Life of Three Metallic Materials6
Investigation on tribological behaviour of copper-free composite friction material under dry sliding at high-temperature6
Oxidation of SS304 and SS316 and the formation of diffusionally isolated regions leading to localised premature breakaway oxidation6
Evolution of precipitation particles with respect to grain boundary energy in Grade 91 steel during creep exposure5
Analysis of thermal stresses synergy in surface layer of carburised creep-resistant casts during rapid cooling processes5
Incorporating the Wilshire equations for time to failure and the minimum creep rate into a continuum damage mechanics for the creep strain of Waspaloy5
Steel grades 91 and 92 microstructure and precipitate evolution atlas and life assessment tool5
Effect of indentation depth in impression creep test: conversion relationships and correction functions5
Recent progress on the modelling of the minimum creep strain rate and the creep cavitation damage and fracture5
Numerical modelling of electron beam welding (EBW) of Zhs6u superalloy and its experimental validation4
Microscopy of oxidation 114
Creep behavior in austenitic stainless steel 316L(N): effects of minor element additions4
MHT ECCC 2021 special issue introduction4
Sensitivity analysis of steel hole plate by utilizing computational methods and newly developed creep model4
Rupture strength prediction of martensitic power plant steels4
Special edition introduction4
Effect of Cr segregation on creep strength in grade 91 steels4
Ratcheting and low cycle fatigue of nickel-based alloy GH3536 formed by selective laser melting at 800 °C4
Creep of IN738LC manufactured with laser powder bed fusion: effect of build orientation and twinning4
Corrosion of Potential First Stage Blade Materials in Simulated Supercritical CO 24
A reliability study of API 530 for predicting creep life of long-service exposed 9Cr-1Mo steel tubes4
High-temperature creep life prediction of 9%Cr steel based on creep cavitation modelling4
An interpretation of creep rupture properties of grade 91 steel service- exposed for 100,000 hours at 600 °C4
Estimating the Monkman−Grant relation in the presence of errors in measurement of times to failure and minimum creep rates: with application to some high temperature materials3
Environmentally assisted cracking of a single crystal nickel-based superalloy3
Creep, fatigue and creep-fatigue behaviour of martensitic/bainitic steels and nickel-based alloys and their welded joints at the temperature range 500°C–750°C3
High-temperature erosion and sliding wear of thermal sprayed WC–Cr3C2–Ni coatings3
Double-humped temperature dependence of plastic behaviour of K403 superalloy and its constitutive model3
Quantitative physical modeling of the effect of precipitates in the subgrain interior on the creep curve and service life of P913
Effects of chemical composition and heat treatment on creep properties of Grade 91 steel base metal and welded joint3
Quantification and assessment of the error associated with engineering stress-strain analysis in stress accelerated creep tests in 316H stainless steel3
Effect of tool pin profile on mechanical and microstructural properties of cooling assisted friction stir welding of AA6063-T6 weld joint3
Decarburisation of 60Si2MnA in wet air at 1000 – 1280 °C3
Characterisation of the austenitic steels Super 304H and HR3C after air and steam oxidation3
Creep rupture properties of ATI 718Plus – an approach to assessing sparse data3
0.029098987579346