K. Deepthi Jayan. 2024. Ceramic Coatings for High-Temperature Environments. Ceramic Coatings for High-Temperature Environments
409
440
.
Rubia Hassan & Kantesh Balani. (2021) Densification mechanism of spark plasma sintered ZrB2 and ZrB2-SiC ceramic composites. Materials Characterization 179, pages 111320.
Crossref
J. K. Sonber, T. S. R. Ch. MurthySanjib MajumdarVivekanand Kain. (2021) Processing of ZrB2- and HfB2-Based Ultra-High Temperature Ceramic Materials: A Review. Materials Performance and Characterization 10:2, pages 20200133.
Crossref
Tammana S. R. C. Murthy, J. K. Sonber, K. Sairam, Sanjib Majumdar & Vivekanand Kain. 2020. Handbook of Advanced Ceramics and Composites. Handbook of Advanced Ceramics and Composites
703
738
.
Tammana S. R. C. Murthy, J. K. Sonber, K. Sairam, Sanjib Majumdar & Vivekanand Kain. 2019. Handbook of Advanced Ceramics and Composites. Handbook of Advanced Ceramics and Composites
1
36
.
Sergio Cordova & Evgeny Shafirovich. (2018) Toward a better conversion in magnesiothermic SHS of zirconium diboride. Journal of Materials Science 53:19, pages 13600-13616.
Crossref
Muhammad Rashid Mirza, Muhammad Asim, Muhammad Adil Mehmood, Nabeel Tariq & Riaz Muhammad. (2018) Development of ZrB<inf>2</inf> ultra high temperature ceramic (UHTC). Development of ZrB<inf>2</inf> ultra high temperature ceramic (UHTC).
Tao Gui, Lei Yang, Yuyang Liu, Xue Bai, Xingming Wang & Bo Song. 2018. Advances in Materials Processing. Advances in Materials Processing
517
527
.
Zhilin Xie, Richard G. Blair, Nina Orlovskaya, David A. Cullen, Dariusz Kata, Paweł Rutkowski, Jerzy Lis, Nan Qin & Ali T‐Raissi. (2016)
Oxygen Interaction with Hexagonal OsB
2
at High Temperature
. Journal of the American Ceramic Society 99:12, pages 4057-4065.
Crossref
Zhilin Xie, Mykola Lugovy, Nina Orlovskaya, Thomas Graule, Jakob Kuebler, Martin Mueller, Huili Gao, Miladin Radovic & David A. Cullen. (2015) Hexagonal OsB2: Sintering, microstructure and mechanical properties. Journal of Alloys and Compounds 634, pages 168-178.
Crossref
Maisam Jalaly, Mohammad Sheikh-Shab Bafghi, Morteza Tamizifar & Francisco Jose Gotor. (2015)
In Situ
Synthesis of a ZrB
2
-Based Composite Powder Using a Mechanochemical Reaction for the Zircon/Magnesium/Boron Oxide/Graphite System
. International Journal of Applied Ceramic Technology 12:3, pages 551-559.
Crossref
M. Jalaly, M.Sh. Bafghi, M. Tamizifar & F.J. Gotor. (2014) An investigation on the formation mechanism of nano ZrB2 powder by a magnesiothermic reaction. Journal of Alloys and Compounds 588, pages 36-41.
Crossref
M. Jalaly, M. Tamizifar, M.Sh. Bafghi & F.J. Gotor. (2013) Mechanochemical synthesis of ZrB2–SiC–ZrC nanocomposite powder by metallothermic reduction of zircon. Journal of Alloys and Compounds 581, pages 782-787.
Crossref
M. Lugovy, N. Orlovskaya, M. Neubert, C.G. Aneziris, T. Graule & J. Kuebler. (2013) Room temperature fatigue of ZrB2–SiC ceramic composites. Ceramics International 39:8, pages 9187-9194.
Crossref
M. Jalaly, M. Sh. Bafghi, M. Tamizifar & F. J. Gotor. (2013) Formation mechanism of ZrB2?Al2O3 nanocomposite powder by mechanically induced self-sustaining reaction. Journal of Materials Science 48:21, pages 7557-7567.
Crossref
J.K. Sonber, T.S.R. Ch. Murthy, C. Subramanian, R.C. Hubli & A.K. Suri. 2013. MAX Phases and Ultra-High Temperature Ceramics for Extreme Environments. MAX Phases and Ultra-High Temperature Ceramics for Extreme Environments
180
202
.
Hai Long Wang, Shi Xun Zhang, De Liang Chen, Qian Fei Han, Hong Xia Lu, Hong Liang Xu, Chang An Wang & Rui Zhang. (2010) Carbothermal Reduction Synthesis of Zirconium Diboride Powders Assisted by Microwave. Advanced Materials Research 105-106, pages 203-206.
Crossref
. (2006) Powder Forming粉末の成形加工. Journal of the Japan Society for Technology of Plasticity 47:547, pages 749-753.
Crossref