Prima, Phase diagram of the system titanium-copper, Sov. Powder Metall. Metal Ceram. 5 (1966) 494-502.Eremenko V N, Buyanov Y I, Prima S B. Phase diagram of the system titanium-copper[J]. Soy Powder Metall Met Ceram (English Translation), 1966 ( 5 ):494 - 502....
Ti-6.7 w/o copper a1loy specimens Were subjected to13; different thermel treatments. and the resultil1g quot;microstructures analysed. Cquot;water quenching from 1273 K, the structure is predominamp;ntly martensite though precipitation products could be seen at the grsin boundaries. In addition...
Copper chromate (Pigment Black 28) P E E no 6.0 Cobalt chromite (Pigment Green 26) F E E no 8.0 Cobalt aluminate (Pigment Blue 28) F E E yes 15.0 Metal sulfides Zinc sulfide (Pigment White 7) F G-E G yes 1.5 Cadmium sulfide (Pigment Yellow 35,37) G E F no 12.5 Cadmium sulf...
Titanium phase diagram as per stabilizer’s compositions [11] Full size image Based on the proportional amounts of each phase, titanium may be further split into the near α, α, α + β, near β, and β phases [31]. Near α-alloys contain 1–2% of β-stabilizers and 5–10% ...
phase diagram portions 10, 11 each depict solutions tending to be relatively rich in the valve metal titanium, that is solutions wherein the titanium functions as a solute for the conductive copper or nickel. Concentration as atom percentage is plotted along the axis while temperature is plotted ...
Portion of the Ti–Cu phase diagram indicating the compositions selected for laser metal deposition. We selected 3.5, 6.5 and 8.5 wt% copper to explore the behaviour of hypo-eutectoid, eutectoid and hyper-eutectoid compositions under additive manufacturing. This figure is adapted from ref. 30, wit...
and adhered to the implant surface effectively. Bacteria have been seen to absorb copper ions, which caused their cell walls to develop holes as a result of their contact with the copper ions [196]. Another investigation revealed that there was a considerable connection between Cu nanoparticles ...
Adiabatic switching applied to realistic crystalline solids: Vacancy-formation free energy in copper. Phys. Rev. B 55, 735 (1997). Article Google Scholar Freitas, R., Asta, M. & de Koning, M. Nonequilibrium free-energy calculation of solids using LAMMPS. Comput. Mater. Sci. 112, 333 (...
[127] reported their findings on AM high-strength titanium -copper (Ti–Cu) alloys with ultrafine grains. The authors maintain that the dimension of laser melted regions and increased thermal gradient in titanium alloys suppresses the supercooling rate, thereby making the formation of fine grain ...
(PMN-PZ-PT) system24. A piezoelectric coefficientd33∗of over 1000 pm/V was achieved in textured PMN-PZ-PT ceramics doped with copper oxide at a maximum field of 3 kV/mm25. All these results indicate that the combination of relaxor ferroelectrics with piezoelectrics of MPB composition...