The Synthesis and Crystal Chemistry of Ca12Al14O33 doped with Fe2O3

Ude, Sabina Nwamaka

01 August 2010

The crystal chemistry of Fe doped mayenite (Ca12Al14-xFexO33) samples prepared using solid state and sol-gel synthesis techniques were compared. Five samples were prepared using solid state process with varying Fe concentration (x) where x = 0, 0.05, 0.1, 0.25 and 0.3; two sets of samples were made via the sol-gel, the first set was prepared for studying the amount of Fe substituted by varying the Fe concentration where x = 0, 0.05, 0.1, 0.2, 0.3 and 0.4 and the second set was prepared for studying the firing temperature and did not contain Fe additions (x = 0). Samples produced via the sol-gel method were more likely to be single phase with incorporation of Fe2O3 while solid state samples contained multiple phases over the same range of Fe2O3 substitutions. The refined lattice parameters, of samples prepared using both methods were observed to increase with increasing Fe concentration, suggesting Fe is replacing Al since Fe has larger ionic radii than Al. Samples prepared via the sol-gel method were found to be single phase at lower temperatures compared to samples prepared via solid state synthesis. Samples synthesized using the sol-gel method were found to have multiple phases when fired at 800 ˚C but were single phase when fired at 900˚C. In comparison, samples synthesized using traditional solid state techniques showed single phase when fired at a temperature of 1350˚C.

Mayenite

calcium aluminate

Ceramic Materials

Engineering

Materials Science and Engineering

Multi-scale characterization, implementation, and monitoring of calcium aluminate cement based-systems

Bentivegna, Anthony Frederick

03 July 2012

Calcium aluminate cement (CAC) is a rapid hardening cementitious material often used in niche concrete repairs where high early-age strength and robust durability are required. This research project characterized the implications of the additions of various mineral and chemical admixtures to plain CAC to mitigate strength reductions associated with conversion, an inevitable strength reduction associated with the densification of metastable hydrates (CAH10 and C2AH8) to stable hydrates (C3AH6 and AH3). The effect of these admixtures on early-age strength development, volume change, and the correlation to macro-scale performance were reported in this dissertation. Various mixtures of CAC were investigated including: pure CAC, binary blends of CAC with fly ash (Class C) or CaCO3, and ternary blends of CAC with slag and silica fume. Characterization of the influence of these admixtures on hydration was completed using x-ray diffraction, isothermal calorimetry, and chemical shrinkage. Investigations on the implications of early-age volume change were conducted for autogenous deformation. In addition to laboratory testing, the final phase of the project was to correlate and elucidate the data generated in the laboratory to real-world field performance. Field trials were conducted to evaluate and monitor the behavior of CAC systems and investigate the link between laboratory generated research and actual large scale behavior. / text

Calcium aluminate cement

Isothermal calorimetry

Autogenous deformation

Chemical shrinkage

Direkte Sol-Gel-Synthese komplexer Al-basierter Metallfluoride des Tetra- und Hexafluoroaluminat-Typs strukturelle Charakterisierung und Erschliessung möglicher Anwendungsgebiete

Ahrens, Mike

January 2008

Zugl.: Berlin, Humboldt-Univ., Diss., 2008

Reaction sintered alumina-lanthanum hexaaluminate composites

Negahdari, Zahra

January 2009

Zugl.: Bayreuth, Univ., Diss., 2009

Espectroscopia no infravermelho e Raman do aluminato de gadolineo puro e dopado com íons de terras raras / Raman and infrared spectrometry of gadolinium aluminates pure and doped

Vanderlei Salvador Bagnato

19 July 1983

Realizamos medidas de transmissão no infravermelho (médio e distante) e espelhamos Raman de amostras de GdAlO3 puras e dopadas com Eu+3 para estudarmos as bandas de absorção de fonons K=0 e as transições eletrônicas nos íons Eu+3. Conhecendo-se a simetria do GdAlO3 (D162h) pudemos, utilizando o método da correlação, calcular o número e a simetria dos modos vibracionais, bem como sua classificação em internos e externos. Os resultados experimentais mostram boa concordância com os teóricos e revelam que o GdAlO3 apresenta três regiões distintas no infravermelho, compostas de várias bandas de absorção. Os modos internos estão em torno de 670cm-1 (estiramento) e 480cm-1 (flexão) enquanto que os modos externos localizam-se em torno de 200cm-1. A interação dos estados eletrônicos do Eu+3 com o campo cristalino do GdAlO3 foi estudada inicialmente supondo um campo de simetria Oh e depois introduzindo a distorção ortorrômbica (Cs) de uma maneira perturbativa. Pudemos verificar que a dita distorção levanta totalmente a degenerescência dos níveis 7FJ (J=0,1,...,6) e torna as transições 7F0 → 7FJ permitidas. / IR and Raman measurements were carried out in pure and Eu+3 - doped GdAlO3 with the purpose of understanding their K=O phonom modes and the Eu+3 electronic transitions. Starting from the GdAlO3 symmetry, (D162h) the correlation method allows the classification of the number and symmetries of the modes, as well their assignment as either internal or external. Experimental and theoretical results are in good agreement and show three well defined absorption bands in GdAlO3. The internal modes are found to be located around 670cm-1 (stretching) and 480cm-1 (bending), while the external modes are around 200cm-1. The interaction of Eu+3 electronic states with the GdAlO3 crystal fields were studied by taking into account small perturbative orthorrombic (Cs) distorcion on a crystal field with symmetry Oh. This small distortion lifts completely the degeneracy of the 7FJ (J=0,1,...,6) levels and allows the 7F0 → 7FJ transitions.

Aluminato de gadolineo

Espectro IR

Espectro Raman

Gadolinium aluminate

Infrared

Raman

Effect of zirconium dioxide addition and nonstoichiometry on sintering and physical property of magnesium aluminate spinel

Kim, Juyoung

January 1992

No description available.

Engineering, Materials Science

Zirconium dioxide

Nonstoichiometry

Magnesium aluminate spinel

Joining Of Alumina Ceramics

Geetha, K

10 1900

No description available.

Alumina - Ceramics

Ceramic Joining

Metal Joining

Alumma Cerarmics

Sinter Bonding

Barium Aluminate Cements

Alumina Joining

Calcium Aluminate Cements

Materials Science

Biodétérioration des matériaux cimentaires dans les ouvrages d'assainissement : étude comparative du ciment d'aluminate de calcium et du ciment Portland / Biodeterioration of cementitious materials in sewers networks : comparative study of calcium aluminate cement and ordinary portland cement

Herisson, Jean

16 October 2012

La nécessité de rénover les réseaux d'assainissement des grandes villes et les besoins de construire de nouvelles structures conduisent les gestionnaires de réseaux d'assainissement et les fabricants de canalisation à rechercher des solutions pour obtenir des installations d'assainissement durables. Parmi les détériorations rencontrées dans ces structures, 9% peuvent être attribués à la biodétérioration des matériaux cimentaires. Cette étude a deux objectifs principaux. Le premier est de développer un essai accéléré reproductible en laboratoire et qui donne des résultats proches de ceux obtenus sur site. Le second est d'étudier la biodétérioration des matériaux cimentaires pour mieux comprendre les mécanismes et plus spécifiquement la différence de comportement entre les matériaux à base de ciment d'aluminate de calcium (CAC) et de ciment Portland ordinaire (OPC). Dans ce cadre, différentes formulations cimentaires ont été exposées in situ afin de déterminer les paramètres influant sur la biodétérioration. En parallèle, des expériences en laboratoire ont été réalisées pour mieux comprendre chaque étape du mécanisme de biodétérioration. Les résultats des expositions sur site montrent que les matériaux à base de CAC ont une durabilité plus importante que les autres formulations cimentaires. Les études réalisées en laboratoire permettent d'attribuer ces meilleures performances à la teneur en aluminium qui inhibe la croissance des microorganismes tout en protégeant la matrice grâce à la précipitation d'une couche d'alumine hydratée dans la porosité et à la surface de ces matériaux et qui maintient le pH à 3,5-4. La chimie de surface a également un rôle important en favorisant ou non l'oxydation abiotique de l'H2S. Les résultats des expositions sur site et des différents essais de laboratoire ont été utilisés pour développer un essai accéléré donnant des résultats prometteurs / The need for renovation of sewer networks in major cities and the necessity to build new structures lead managers of sewer pipe and manufacturers to seek for solutions for sustainable sanitation. 9% of damages encountered in these structures can be attributed to the biodeterioration of cementitious materials. This study has two main objectives. The first one is to develop an accelerated reproducible laboratory test that gives results similar to those obtained on site. The second is to study the biodeterioration of cementitious materials in order to better understand mechanisms and more especially the difference in behavior between materials based on calcium aluminate cement (CAC) and ordinary Portland cement (OPC). Within this framework, different cement formulations were exposed in situ to identify the parameters influencing biodeterioration. Meanwhile, laboratory experiments were conducted to better understand each step of the mechanism of biodeterioration. Results of on site exposition show that materials based on CAC have a greater durability than other cement formulations. Laboratory studies assign these best performances to the aluminum content which inhibits the growth of microorganisms while protecting the matrix by precipitation of a hydrated alumina layer in the porosity and on the surface of these materials. This layer maintains the pH at 3.5-4. Surface chemistry was shown to play an important role in catalizing abiotic oxidation of H2S. The results of on-site exhibitions and various laboratory tests were used to develop an accelerated test giving promising results

Biodétérioration

Matériaux cimentaires

Réseau d\'assainissement

Hydrogène sulfuré

Ciment d\'aluminate de calcium

Test accéléré

Biodeterioration

Cementitious materials

Sewer networks

Hydrogen sulfide

Calcium aluminate cement

Accelerated test

Calcium-Aluminate as Biomaterial : Synthesis, Design and Evaluation

Lööf, Jesper

January 2008

<p>In this thesis different aspects of calcium-aluminate (CA) as biomaterial are presented. Calcium aluminate is a chemically bonded ceramic with inherent properties making it suitable for use as biomaterial in some applications. In this thesis the emphasis is put on the basic chemical, physical and mechanical properties that may be achieved using the CA system as well as synthesis of the CA raw material. The basis for using CA in any application is the synthesis of the raw material. Different synthesis routes for producing CA are presented with focus on high temperature routes and the micro-structural and phase development during synthesis. As a base for further understanding of the CA properties a thorough outline of the reaction chemistry for CA is presented also including a description of how the reactions may be controlled and how formulations can be designed. The surface reactions of CA when subjected to simulated body fluid showed that CA is <i>in vitro</i> bioactive. An <i>in vivo</i> study in teeth also indicates that CA produces apatite at the tooth material interface. Dental materials are subjected to a harsh environment in the mouth with high mechanical forces, erosion and thermal changes. Also the demands on precise handling characteristics are high. For these reasons the <i>in vitro</i> evaluation of physical and mechanical properties are important. In this work several mechanical and physical properties of Ca-based formulations for dental applications has been tested using different methods. Some attention is also put on the specific characteristics of CA and the difficulties that arise when new material classes needs to be tested according to consensus standard methods. Finally studies on a CA-based formulation intended for Vertebroplasty is presented. The studies include basic mechanical properties as well as testing the material in an <i>in vitro</i> model utilising synthetic cancellous bone.</p>

Calcium-aluminate

Biomaterial

Dental materials

Vertebroplasty

Chemically Bonded Ceramics

Synthesis

Biomaterials

Biomaterial

Preparação e caracterização de vidros aluminato de cálcio com baixa concentração de sílica dopados com Nd2O3 e Er2O3 / Physical properties of low silica calcium aluminate glasses doped with NdO3 e Er2O3

Sampaio, Jurací Aparecido

11 October 2001

O desenvolvimento de laseres de estado sólido compacto operando na região do infravermelho médio, entre 2 - 5 ?m, tem recebido considerável atenção nos últimos anos. Esses dispositivos oferecem grande potencial como fonte de luz para uma infinidade de aplicações, como por exemplo laseres para medicina e sensores químicos remotos. Laseres operando na região de 2.8 ?m tem interesse particular na medicina devido a forte banda de absorção da água nessa região espectral. Para se conseguir forte emissão laser próximo a 2.8 ?m têm sido investigadas famílias de vidros não-óxidos, como por exemplo vidros fluoretos de metais pesados e vidros chalcogenetos, dopados com Er3+. Entretanto esses vidros são caros, difíceis de serem feitos, além de serem tóxicos. Por essa razão o desenvolvimento de um vidro óxido seria ideal, já que são mais baratos, relativamente fáceis de serem produzidos, além de não serem tóxicos. A desvantagem dos vidros óxidos é a sua alta energia de fônons, quando comparada aos vidros haletos e chalcogenetos, que aumenta a taxa de transição não radiativa. Seria interessante investigar um sistema vítreo que tivesse propriedades otimizadas, ou seja, boas propriedades ópticas, térmicas e mecânicas, e baixa energia de fônons. O sistema vítreo aluminato de cálcio seria um candidato para essas aplicações, já que preenche essas exigências. Porém não há na literatura informações a respeito da influência de pequenas quantidades de elementos terras raras nas propriedades desses vidros, e qual é a concentração ideal desses íons. O objetivo dessa tese foi investigar composições de vidros aluminato de cálcio (48,1 CaO : 40.8 Al2O3 : 4.1 MgO : 7.0 SiO2) dopados com Nd2O3, Er2O3 ou Yb2O3, e verificar qual a influência desses íons nas propriedades ópticas, térmicas, mecânicas e termo-ópticas. Investigou-se também qual a influência da atmosfera de fusão. Com esse objetivo as amostras foram fundidas em cadinhos de grafite sob vácuo, e em cadinhos de platina, ao ar, ambas as fusões ocorreram a 1400 °C. As amostras foram investigadas através de difração de raios-X e microscopia óptica, cujos resultados confirmaram o estado amorfo das amostras preparadas. As amostras não apresentaram estrias e tiveram boa transparência óptica. Os espectros de transmitância mostraram que o processo de fusão a vácuo eliminou completamente a forte banda de absorção próxima a 3 ?m devida a água. O corte da transmitância na região do infravermelho ocorreu em 5.5 ?m, sendo independente do tipo do íon terra rara presente na composição do vidro. O índice de refração em 546.1 nm aumentou de 1.6702 (amostra base) para 1.6876 (amostra dopada com 8% de Er2O3). Este acréscimo no índice de refração é atribuído a um aumento da polarizabilidade eletrônica do vidro devido ao aumento de oxigênios nonbridging. A densidade aumenta de 2.92 g/cm3 (amostra base) para 3.12 g/cm3 (amostra dopada com 8% de Er2O3), esse aumento é explicado levando em consideração a massa dos átomos terras raras, que são maiores em relação ao Al2O3. A dureza dos vidros aluminato de cálcio diminuiu de 865 kg/mm2 (amostra base) para 781 kg/mm2 (amostra dopada com 8% de Er2O3), ou seja aproximadamente 11% de decréscimo. No caso da temperatura de transição vítrea, Tg, esse decréscimo é de aproximadamente 8%, sendo 841 °C para a amostra base e 782 °C para a amostra dopada com 8% de Er2O3. Para o vidro base, a difusividade térmica foi de 5.75 x 10-3 cm2/s e a condutividade térmica foi de 15.5 x 10-3 cm-1 K-1. Tanto a difusividade quanto a condutividade térmica decresceram na mesma proporção da dureza e Tg, conforme substitui-se a alumina pelo óxido terra rara. Esta é uma indicação de que os átomos terras raras atuam como modificadores de rede, abrindo a estrutura do vidro, diminuindo a resistência mecânica e atuando como barreiras térmicas no material. A resistência ao choque térmico dos vidros aluminato de cálcio é de 339 W/m, semelhante aos vidros silicatos que é de 358 W/m, e aproximadamente quatro vezes maior que a dos vidros fluoretos, 86 W/m. Este resultado confirma a hipótese de que os vidros aluminato de cálcio podem suportar variações abruptas de temperatura. Através da espectroscopia de lente térmica foram obtidas a eficiência quântica dos vidros aluminato de cálcio dopados com Nd2O3 e Er2O3. No caso das amostras dopadas com concentrações menores de 3% de Nd2O3 a eficiência quântica foi de aproximadamente 80%. Esses resultados indicam que os vidros aluminato de cálcio são excelentes candidatos para laseres de estado sólido e demais aplicações ópticas na região do infravermelho médio. / The development of compact solid-state lasers operating in the midinfrared wavelength region (2 -5 ?m) has been an area of considerable activity in the last few years. These devices offer great potential as light sources for applications as medical lasers as well as in remote chemical sensing devices. Light sources in the 2.8?m region are of particular interest for medical applications due to the strong water absorption in this spectral region. Apart from allowing extremely precise cutting and ablation of water-containing tissues, the other advantages of using light sources operating at 2.8 ?m are related to the possibilities of reducing skin burning in surgeries, decrease in the use of anesthesia and shortening of recovery time, especially in skin surgeries and in the cutting and remova1 of hard tissues, such as tooth enamel and bone. In order to achieve strong laser emission around 2.8 ?m the effort so far has been concentrated on the family of Er3+ doped non -oxide glasses such as heavy metal fluorides and chalcogenides. However the production of these glasses is expensive, and it is difficult to make them, besides they are toxic. On the other hand, the oxide glasses are cheaper, atoxic and easy to produce them. The disadvantaged, however, is its the relative high phonon energy that promote high nonradiative transition rates. Since calcium aluminate glasses are formed with non-network forms, CaO and Al2O3, they have high tendence towards devitrification. The addition of small amounts of alkali and alkaline earth elements enlarges the glass forming region. Several calcium aluminate glasses compostions containing SiO2, BaO and MgO are now reported in the literature. In this thesis, low silica calcium aluminosilicate glasses doped with Nd2O3 and Er2O3 were prepared. Since the sample compositions were close to the phase diagram glass formation, the rare earth doping was performed up to 8wt.%. The samples was melted under vacuum condition in a graphite crucible at 1500 °C, and in air in a platinum crucible. The influence of the rare earth doping on the thermal diffusivity, thermal conductivity and Vickers hardness was such that all these physical parameters decreased by roughly the same amount, namely 8%, between the undoped and 5 wt% of Nd2O3. The dependence of these parameters, as a function of the Nd2O3 doping, strongly supports the idea that the Nd3+ or Er3+ act as network modifiers. Elastic module (E, G, K, v) of calcium aluminosilicate glasses with < 10 mole% of SiO2 doped with Er2O3 and Yb2O3, melted in air and under vacuum conditions, have been measured using the pulse echo ultrasonic technique. There was a decrease of the elastic properties, about 5%, as rare earth doping increases from 0.2 to 1.5-mol% (about 8 wt%). The Young\'s modulus did not vary within errors of measurements. The Debye temperature varied between (369±9)K and 352±9 K, which is explained assuming that the rare earth ions acts as network modifiers disrupting the glasses structure. The undoped calcium aluminate glasses fracture toughness is (1.4±0.3) MPa m1/2 and the thermal shock resistance is (339±102) W/m. The fluorescence quantum efficiency determined by thermal lens spectroscopy, was found be about 80% for the 2wt% Nd2O3 doped calcium aluminosilicate glass. The fluorescence quenching was observed to doping higher than 2wt% Nd2O3. The variation of the refractive index as a function of the temperature, dn/dT, was found be 8.0 x 10-6/0c. Among the various glass system investigated, CA glasses presented greater mechanical properties and larger thermal shock resistance, indicating that these materials are candidates for solid state laser applications and other infrared applications.

Calcium aluminate glasses

Glasses

Íons de terras raras

Laser

Lases

Rare earth ions

Vidros