Synthesis and Sintering
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Role of Ti3AlC2 MAX phase on characteristics of in-situ synthesized TiAl intermetallics. Part III: microstructure
By: Maryam Akhlaghi🇮🇷, Esmaeil Salahi🇮🇷, Seyed Ali Tayebifard🇮🇷, Gert Schmidt🇩🇪
SYNTHESIS AND SINTERING 2 (2022) 20–25
#Microstructure
#SPS
#In_situ_synthesis
#TiAl_Ti3AlC2_composites
#SEM_EDS_analysis
Check it out at https://doi.org/10.53063/synsint.2022.2182
Oxidation-affected zone in the sintered ZrB2–SiC–HfB2 composites
By: Ebrahim Dodi🇮🇷, Zohre Balak🇮🇷, Hosein Kafashan🇮🇷
SYNTHESIS AND SINTERING 2 (2022) 31–36
#UHTCs
#ZrB2_SiC_HfB2
#Oxidation_resistance
#SPS
#Oxide_layers
#SiC_depleted_area
Check it out at https://doi.org/10.53063/synsint.2022.21111
Role of Ti3AlC2 MAX phase on characteristics of in-situ synthesized TiAl intermetallics. Part IV: mechanical properties
By: Maryam Akhlaghi🇮🇷, Esmaeil Salahi🇮🇷, Seyed Ali Tayebifard🇮🇷, Gert Schmidt🇩🇪
SYNTHESIS AND SINTERING 2 (2022) 99–104
#SPS
#TiAl_Ti3AlC2
#Flexural_strength
#Hardness
#Fracture_toughness
Check it out at https://doi.org/10.53063/synsint.2022.22103
Microstructural characterization of ZrB2–SiC–Si–MoSi2–WC coatings applied by SPS on graphite substrate
By: Mehran Jaberi Zamharir🇮🇷, Mohammad Zakeri🇮🇷, Zahra Jahangiri🇮🇷, Ahad Mohammadzadeh🇪🇸
SYNTHESIS AND SINTERING 3 (2023) 124–131
#Ultra_high_temperature_ceramics
#Composite
#Coating
#Additive
#Microstructure
#SPS
Check it out at https://doi.org/10.53063/synsint.2023.32152
A simulative approach to obtain higher temperatures during spark plasma sintering of ZrB2 ceramics by geometry optimization
By: Milad Sakkaki🇮🇷, Mohsen Naderi🇮🇷, Mohammad Vajdi🇮🇷, Farhad Sadegh Moghanlou🇮🇷, Ali Tarlani Beris🇺🇸
SYNTHESIS AND SINTERING 3 (2023) 248–258
#Zirconium_diboride
#Numerical_analysis
#Taguchi_method
#Temperature_distribution
#SPS
heck it out at https://doi.org/10.53063/synsint.2023.34178