Study of the stability of the molten zone and the stresses induced during the growth of Al2O3–Y3Al5O12 eutectic composite by the laser floating zone technique

Sola, D.; Ester, Francisco Javier; Oliete, Patricia B.; Peña, José

doi:10.1016/j.jeurceramsoc.2010.08.022

Cited by 40 publications

(19 citation statements)

References 28 publications

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“…For this purpose, the samples were fabricated by the laser floating zone technique (LFZ) which permits to obtain shaped fiber glasses and glass-ceramic materials up to 4 mm in diameter. Furthermore, it allows controlling the solidification rate by means of the growth rate, providing high axial and radial thermal gradients in the liquid-solid interface [7,[31][32][33], of paramount importance in the final microstructure obtained, in such a way that glasses and glass-ceramic materials can be produced. The spectroscopic properties of Eu 3+ in biocompatible glass and glass-ceramic eutectic rods of composition 0.8CaSiO 3 -0.2Ca 3 (PO 4 ) 2 doped with 0.5 wt% of Eu 2 O 3 are investigated to explore their potential applications as optical probes and identify the different micro-structural phases present in the glass ceramic.…”

Section: Introductionmentioning

confidence: 99%

Time-resolved fluorescence line-narrowing of Eu^3+ in biocompatible eutectic glass-ceramics

Sola¹,

Balda²,

Al-Saleh³

et al. 2013

Opt. Express

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The spectroscopic properties of Eu 3+ in biocompatible glass and glass-ceramic eutectic rods of composition 0.8CaSiO 3-0.2Ca 3 (PO 4) 2 doped with 0.5 wt% of Eu 2 O 3 are investigated to explore their potential applications as optical probes. The samples were obtained by the laser floating zone technique. Depending on the growth rate, they exhibit three (two crystalline and one amorphous) or two (one crystalline and one amorphous) phases. The crystalline phases correspond to Ca 2 SiO 4 and apatite-like structures. At high growth rates the system presents an amorphous arrangement which gives a glass phase. The results of timeresolved fluorescence line narrowing spectroscopy obtained under excitation within the inhomogeneous broadened 7 F 0 → 5 D 0 absorption band allow to isolate the emission from Eu 3+ ions in the crystalline and amorphous environments and to accurately correlate the spectroscopic properties with the microstructure of these eutectics.

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Section: Introductionmentioning

confidence: 99%

Time-resolved fluorescence line-narrowing of Eu^3+ in biocompatible eutectic glass-ceramics

Sola¹,

Balda²,

Al-Saleh³

et al. 2013

Opt. Express

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“…The resulting powders were isostatically pressed at 200 MPa for 2 min and the obtained ceramic rods were sintered at 1200 °C for 10 h. Next, a CO 2 Laser Floating Zone (LFZ) system was used to manufacture W-TCP eutectic glass and glass-ceramic samples and after the growth process samples were annealed at 923° Kelvin for 5 h to relieve the stresses formed during the fast cooling of the solidification front. A more detailed description of this manufacturing process is summarized elsewhere [26,27]. The main advantages of this technique when compared to other directional solidification techniques such as Bridgman and Czochralski are the few amount of material required to explore new composites without the requirement of a crucible, hence avoiding the possible contaminants coming from the melt container, the possibility of growing materials with very high melting points, and both the high radial and axial thermal gradients achieved in the solidification front, up to 10 6 K/m, which allow controlling the resulting microstructure and hence to manufacture crystals, high melting point composite ceramics and even glasses.…”

Section: Methodsmentioning

confidence: 99%

Laser Machining and In Vitro Assessment of Wollastonite-Tricalcium Phosphate Eutectic Glasses and Glass-Ceramics

Sola

Grima

2018

Materials

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Bioactivity and ingrowth of ceramic implants is commonly enhanced by a suitable interconnected porous network. In this work, the laser machining of CaSiO3‒Ca3(PO4)2 biocompatible eutectic glass-ceramics and glasses was studied. For this purpose, 300 µm diameter craters were machined by using pulsed laser radiation at 532 nm with a pulsewidth in the nanosecond range. Machined samples were soaked in simulated body fluid for 2 months to assess the formation of a hydroxyapatite layer on the surface of the laser machined areas. The samples were manufactured by the laser floating zone technique using a CO2 laser. Morphology, composition and microstructure of the machined samples were described by Field Emission Scanning Electron Microscopy, Energy Dispersive X-ray Spectroscopy and micro-Raman Spectroscopy.

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“…The precursor and the grown rod are counter rotated to improve the heat distribution in the molten zone. This technique permits to control the solidification rate, providing high axial and radial thermal gradients in the liquid-solid interface, of paramount importance in the microstructure domain, and opens up the possibility of fabricating glasses and glass-ceramics samples [24,25] (Aldrich, 99.99%) was added to the composites to obtain the doped samples. The resulting powders were isostatically pressed at 200 MPa for 3 minutes to obtain ceramic rods which were sintered at 1200°C for 12 hours.…”

Section: Samples Fabricationmentioning

confidence: 99%

Directional solidification, thermo-mechanical and optical properties of (Mg_xCa_1-x)_3Al_2Si_3O_12 glasses doped with Nd^3+ ions

Sola¹,

Conejos²,

Mendívil³

et al. 2015

Opt. Express

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Abstract:In this work glass rods of (Mg x Ca 1-x ) 3 Al 2 Si 3 O 12 (x = 0, 0.5 and 1) doped with 1 wt% Nd 2 O 3 were produced by the laser floating zone technique. Thermo-mechanical and spectroscopic properties have been evaluated. The three glass samples present good thermo-mechanical properties, with similar hardness, toughness and glass transition temperatures. The spectroscopic characterization shows spectral shifts in absorption and emission spectra. These spectral shifts together with JuddOfelt intensity parameters and ionic packing ratio have been used to investigate the local structure surrounding the Nd 3+ ions and the covalency of the Nd-O bond. All obtained results agree and confirm the higher covalency of the Nd-O bond in the Ca 3 Al 2 Si 3 O 12 glass. Kozankova, "Er-and Nd-doped yttrium aluminosilicate glasses: preparation and characterization," Opt. Mater. 33(12), 1872-1878 (2011 42(1-3), 189-196 (1980). -78-XX-95, 1978). 36. T. Izumitani, H. Toratani, and H. Kuroda, "Radiative and nonradiative properties of Neodymium doped silicate and phosphate glasses," J. Non-Cryst. Solids 47(1), 87-99 (1982). 37. W. F. Krupke, "Induced-emission cross sections in Neodymium laser glasses," IEEE J. Quantum Electron. QE-10(4), 450-457 (1974). 38. M. J. Weber, D. C. Ziegler, and C. A. Angell, "Tailoring stimulated emission cross sections of Nd 3+ laser glass: observation of large cross sections for BiCl 3 glasses," J. Appl. Phys. 53(6), 4344-4350 (1982 66-78 (1998). 43. R. D. Shannon, "Revised effective ionic radii and systematic studies of interatomic distances in halides and chalcogenides," Acta Crystallogr. A 32(5), 751-767 (1976). 44. L. A. Riesberg and M. J. Weber, "Relaxation phenomena in rare-earth luminescence," Prog. Optics 14, 89-159 (1975 5799-5811 (1978).

show abstract

Study of the stability of the molten zone and the stresses induced during the growth of Al2O3–Y3Al5O12 eutectic composite by the laser floating zone technique

Cited by 40 publications

References 28 publications

Time-resolved fluorescence line-narrowing of Eu^3+ in biocompatible eutectic glass-ceramics

Time-resolved fluorescence line-narrowing of Eu^3+ in biocompatible eutectic glass-ceramics

Laser Machining and In Vitro Assessment of Wollastonite-Tricalcium Phosphate Eutectic Glasses and Glass-Ceramics

Directional solidification, thermo-mechanical and optical properties of (Mg_xCa_1-x)_3Al_2Si_3O_12 glasses doped with Nd^3+ ions

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