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High performance B2O3/MWCNTs and TiB/MWCNTs nano-adsorbents for the co-sorption of cyanide and phenol from refinery wastewater. [PDF]
RSC AdvKariim I +9 more
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Alumina-Based Cutting Tools-A Review of Recent Progress. [PDF]
Materials (Basel)Žmak I +3 more
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HTPFA-Coated AlB<sub>2</sub> with Enhanced Combustion Performance as a High-Energy Fuel. [PDF]
Materials (Basel)Wang J, Zhao W, Shen C, Ou Y, Jiao Q.
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Synthesis of Submicron-Sized TiB2 Powders by Reaction of TiC, B4C, and Ca in Molten CaCl2. [PDF]
Materials (Basel)Wang YL, Zhang GH.
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A Watt-Level Pulsed Er:Lu2O3 Laser Based on a TiB2 Saturable Absorber. [PDF]
Nanomaterials (Basel)Liang Y, Zhang L.
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Properties and wear of titanium carbide-titanium diboride composite
Metal Powder Report, 1997 openaire +1 more source
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Corrosion of titanium diboride
Journal of the Less Common Metals, 1975Abstract The corrosion resistance of pressed and sintered (PAS) titanium diboride has been compared with that of electrodeposited titanium diboride. Anodic polarization studies in 0.5 M sulfuric acid showed that PAS titanium diboride corrodes at rates of 50 to 100 times greater than electrodeposited titanium diboride.
B.S. Coving +3 more
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Dislocations in titanium diboride
Philosophical Magazine A, 1991Abstract In this investigation, it was shown that titanium diboride would plastically deform at a temperature of 1273 K and at a stress level much lower than predicted by previous experimental data. The crystal structure of titanium diboride is a topologically hexagonal structure which allows for a number of possible slip systems.
L. Wang, R. J. Arsenault
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Electrical Resistivity of Titanium Diboride and Zirconium Diboride
Journal of the American Ceramic Society, 1995The electrical resistivities of hot‐pressed samples of Ti 1‐ x Zr x B 2 ( x
Matiur Rahman +4 more
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Physica Status Solidi (a), 1989
Transmission electron microscopy is used to examine the structure of shock-loaded titanium diboride. At a shock pressure of 1.7 GPa, fracture occurs by the nucleation and splitting of b = [001] dislocation loops in the basal plane. The tensile stress of the shock pulse opens the dislocation loops into microcracks.
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Transmission electron microscopy is used to examine the structure of shock-loaded titanium diboride. At a shock pressure of 1.7 GPa, fracture occurs by the nucleation and splitting of b = [001] dislocation loops in the basal plane. The tensile stress of the shock pulse opens the dislocation loops into microcracks.
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