Doctoral Thesis
DOI
https://doi.org/10.11606/T.54.1990.tde-16012008-095911
Document
Author
Full name
Ervino Carlos Ziemath
Institute/School/College
Knowledge Area
Date of Defense
Published
São Carlos, 1990
Supervisor
Committee
Aegerter, Michel Andre (President)
Andreeta, José Pedro
Gonzalez, José Pedro Donoso
Ionashiro, Massao
Zanotto, Edgar Dutra
Andreeta, José Pedro
Gonzalez, José Pedro Donoso
Ionashiro, Massao
Zanotto, Edgar Dutra
Title in Portuguese
Caracterização de vidros e vitro-cerâmicas com composição 2Na2O1CaO3SiO2
Keywords in Portuguese
Absorção ótica
Cristalização
Cromo
Espectroscopia raman
Módulos elásticos
Neodímio
Vidros de silicatos
Cristalização
Cromo
Espectroscopia raman
Módulos elásticos
Neodímio
Vidros de silicatos
Abstract in Portuguese
O vidro com composição 2Na2O1CaO3SiO2, sofre nucleação cristalina homogênea em temperaturas entre 450 e 560oC. Os núcleos, essencialmente esféricos, supostamente tem a mesma composição da matriz vítrea. Em amostras amorfas, parcialmente cristalizadas e policristalinas foram feitas medidas de densidade, difratometria de raios-X, analise térmica por calorimetria exploratória de varredura (DSC), medidas ultrasônicas pelo método do pulso-eco, espectroscopias de absorção ótica, infravermelha e Raman. A densidade do vidro é de 2,66 g/cm3 e para amostra policristalina a densidade aumenta para 2,76 g/cm3. O aumento da densidade com o grau de cristalinidade é a causa do aumento das velocidades de propagação de ondas elásticas longitudinal e transversal, e do aumento do numero e da intensidade dos picos nos difratogramas de raios-X. Das medidas de DSC determinamos que a temperatura de transição vítrea ocorre em torno de 40 °C, e calculamos uma entalpia de ativação para a transição vítrea de 78 kcal/mol. Espectros de absorção ótica de amostras com Cr3+ apresentaram o efeito de anti-ressonância Fano, e pequeno deslocamento da banda 4T2 , para energias maiores com o aumento do grau de cristalinidade e em temperaturas baixas (~ 20 K). A partir dos níveis isoenergéticos 2E e 2T1 calculamos o parâmetro de Racah B = 690 cm-1 e a intensidade do campo ligante ? = 10 Dq = 14 840 cm-1. Junto com Cr3+ ocorre o Cr6+ na forma do íon cromato, CrO42-, cujas bandas de absorção estão próximas do ultravioleta, e é responsável pelo efeito Raman pré-ressonante observado. O espectro Raman do vidro é constituído de bandas assimétricas acima de 550 cm-1, e foram decompostas em seis bandas gaussianas. As bandas de maior freqüência foram tentativamente atribuídas à vibrações de tetraedros de sílica com 1 a 4 oxigênios não-ponteantes. Dos espectros Raman reduzidos concluímos que o pico de boson é devido à vibrações dos fônons térmicos o a freqüência da radiação espalhada. Algumas características dos espectros de absorção de amostras com Cr3+ e dos resultados de medidas ultrasônicas foram atribuídas à possível ocorrência de microtensão ou microfissuras na região da interface núcleo-vidro.
Title in English
Characterization of glasses and glass-ceramics with composition 2Na2O1CaO3SiO2
Keywords in English
Chromium
Crystallization
Elastic moduli
Neodimium
Optical absortion
Raman spectroscopy
Silicate glasses
Crystallization
Elastic moduli
Neodimium
Optical absortion
Raman spectroscopy
Silicate glasses
Abstract in English
Glass with composition 2Na2O1CaO3SiO2, undergoes homogeneous crystal nucleation between 450 and 56OoC. The nuclei are essentially spherical and presumable have the same composition as the glass matrix. Measuriments of density, X-ray diffraction, thermal analysis by differential scanning calorimetry (DSC), ultrasonics by pulse-echo method, optical absorption, infrared and Raman spectroscopy were performed in amorphous, partially crystallized and polycrystalline samples. The density of the glass is 2,66 g/cm3 and 2,76 g/cm3 that of the polycrystalline sample. The increase in density with the degree of crystallinity is the cause of the increasing propagation velocities of longitudinal and transversal elastic waves, and of the increasing peak number and intensities in the X-ray diffractograms. From DSC measurements we determine that the glass transition temperature is about 470o C, and the activation enthalpy for the glass transition was calculated to be 78 kcal/mol. Absorption spectra of Cr3+ containing samples shows the anti-resonance Fano effect, and small displacement of the 4T2 band to higher energies with increasing degree of crystallinity and at lower temperatures (~20 K). From the isoenergetic levels 2E and 2T1 we calculate the Racah parameter B = 690 cm-1 and the ligand field intensity ? = 10 Dq = 14 840 cm-1. Together with Cr3+ occurs Cr6+ as cromate ion, CrO4-2 with absorption bands are near the ultraviolet, and is responsible for the observed pre-resonant Raman effect. The Raman spectrum of the glass is composed of asimetric bands in frequencies above 550 cm-1, which we decompose in six Gaussian shaped bands. The four bands of higher frequencies were tentativily assigned to stretching vibration bond Si-O of silica tetraedra with 1 to 4 non-bridging oxigens. From reduced Raman spectra we concluded that the boson peak is due to thermal phonon vibrations and to the scattered radiation frequency. Some features of absorption spectra of Cr3+ containing glasses and of ultrasonic measurements were assigned to the possible occurence of microtensions or microcracks in the nucleous-glass interf ace region.
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Publishing Date
2008-01-18
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