Rapid solidification of non-stoichiometric intermetallic compounds: Modeling and experimental verification
The thermodynamic extremal principle was applied to model of rapid solidification of non-
stoichiometric intermetallic compounds and the Co-xat.% Si alloys (x= 50, 53, 55) were …
stoichiometric intermetallic compounds and the Co-xat.% Si alloys (x= 50, 53, 55) were …
Investigation of electromagnetic wave absorption and anti-corrosion mechanism of multifunctional Ni/AlN composite coatings with core-shell structure by laser …
S Mu, S Wang, X Pang, J Pu - Journal of Alloys and Compounds, 2024 - Elsevier
Developing efficient microwave absorbing materials (MAMs) suitable for prolonged use in
marine environments is of great importance. Laser cladding serves as one of the new …
marine environments is of great importance. Laser cladding serves as one of the new …
Dewetting of Ni silicide thin film on Si substrate: In-situ experimental study and phase-field modeling
In this paper, the in-situ Scanning Electron Microscopy (in-situ SEM) technique and three-
dimensional (3-D) phase-field simulation were combined to perform a comprehensive study …
dimensional (3-D) phase-field simulation were combined to perform a comprehensive study …
Thermodynamic modeling of Al–Co–Cr, Al–Co–Ni, Co–Cr–Ni ternary systems towards a description for Al–Co–Cr–Ni
The phase relations and thermodynamic properties of the Al–Co–Cr, Al–Co–Ni, Co–Cr–Ni
ternary alloys are investigated using first principles calculations based on DFT (density …
ternary alloys are investigated using first principles calculations based on DFT (density …
Interfacial bonding mechanism and joint weakness area of brazed SiC and Nb with AuNi filler alloy: First‐principles and experimental perspective
P Li, Y Yan, J Lin, Y Chen, P Wang… - Journal of the …, 2023 - Wiley Online Library
The implementation of Ni‐based brazing filler metal for bonding SiC to metals can effectively
expand the high‐temperature applications of SiC‐based composite materials. To reduce the …
expand the high‐temperature applications of SiC‐based composite materials. To reduce the …
High-throughput thermodynamic modeling and uncertainty quantification for ICME
One foundational component of the integrated computational materials engineering (ICME)
and Materials Genome Initiative is the computational thermodynamics based on the …
and Materials Genome Initiative is the computational thermodynamics based on the …
Interfacial reaction mechanism of SiC joints joined by pure nickel foil
H Shi, Y Chai, N Li, J Yan, X Zhu, K Chen, D Bai… - Journal of the European …, 2020 - Elsevier
To investigate the reaction mechanism of Ni/SiC system, 0.1 μm-thick pure nickel foil is used
to join SiC ceramic at 1245° C for different times. Interfacial melting is calculated to occur at …
to join SiC ceramic at 1245° C for different times. Interfacial melting is calculated to occur at …
Thermodynamic analysis of the Al–Ni system
W Yang, P Wang, X Huang, S Zhang - Intermetallics, 2022 - Elsevier
The thermodynamic descriptions of the Al–Ni system from literature were reviewed and it
was concluded that a thermodynamic re-assessment of the Al–Ni system focusing on the …
was concluded that a thermodynamic re-assessment of the Al–Ni system focusing on the …
Thermodynamic reassessment of the Ni–Si–Ti system using a four-sublattice model for ordered/disordered fcc phases supported by first-principles calculations
A thermodynamic reassessment of the ternary Ni–Si–Ti system was performed by means of
CALPHAD (CALculation of PHAse Diagram) method. The fcc_A1/Ni 3 Si-L1 2 …
CALPHAD (CALculation of PHAse Diagram) method. The fcc_A1/Ni 3 Si-L1 2 …
[HTML][HTML] First-principles prediction of the Co–Al phase diagram including configurational, vibrational and magnetic contributions
Co-based superalloys have attracted attention to replace Ni-based superalloys in high
temperature structural applications because of their higher melting temperature and …
temperature structural applications because of their higher melting temperature and …