Thermisch härtende Polymerverbundmaterialien als Basis für neue Befestigungssysteme

Pöhlmann, Milena

16 October 2006

Mit der Entwicklung und Einführung ökologischer Bauweise im Neubau sowie neuen Baustoffsystemen in Sandwichbauweise wird es zunehmend erforderlich, neue effektive Befestigungsvarianten zu entwickeln, die eine dauerhafte Fixierung auch unter sicherheitstechnischen Bestimmungen sowie aus Garantie- bzw. haftungsrechtlichen Gründen ermöglichen. Die aus der Praxis bisher bekannten chemischen Befestigungssysteme (Zweikomponentenverbundmörtel, Verbundankerpatronen) weisen hinsichtlich der Applikation unter bautechnischen Bedingungen noch einige Nachteile auf. Dazu gehören vor allem längere Aushärtungszeiten zur Realisierung der abschließenden Verbundfestigkeit, Inhomogenitäten im Verbund, der Einsatz toxischer Verbindungen und eine Limitierung der Applikationsmöglichkeiten in horizontalen und Überkopf-Einsatzbereichen sowie Hohlkammersystemen. Alle zuvor genannten Punkte haben bis jetzt die Nutzung solcher Verbundwerkstoffe als universale Anwendungsmöglichkeit verhindert. Ein neues chemisches Befestigungssystem, welches aus Novolak gehärteten mit Hexamethylentetramin (Hexa) und anorganischen Füllstoff besteht, wurde für Applikationen in Beton entwickelt. Das Bindemittel härtet bei der Temperaturzuführung aus. Die unkatalysierte Befestigungsmasse zeigt bei einer Temperatur zwischen 150-300 °C eine hohe Reaktivität. Die Vorteile dieses Systems sind die unbegrenzte Lagerfähigkeit der vorgemischten härtbaren Masse sowie die Gewährleistung einer homogenen Netzwerkstruktur im gesamten Verbund und sie ist frei von giftigen und flüchtigen Substanzen. Auf den Einsatz toxischer Substanzen wurde verzichtet. In dieser Arbeit wurde die Gesamtkinetik der Reaktion während des Aushärtungsprozesses dieser Polymerkomposite untersucht. Die DSC- (nicht-isothermen, isothermen) und MDSC-Untersuchungen haben sich als ein sicheres Verfahren zur Qualitätskontrolle des Aushärtezustands der Befestigungssysteme herausgestellt. Parallel zur nicht-isothermischen und isothermischen DSC wurden Leitfähigkeitsmessungen durchgeführt, um den Endpunkt der Aushärtungsreaktion zu bestimmen. / The development and introduction of ecological construction methods and the use of sandwich materials make it necessary to develop new fixing systems and technologies. Dealing with the application in concrete and other substrates commercial chemical fixing systems show some disadvantages up to date. Especially the rather long curing time in order to realize the final bond strength, inhomogenities in the composite, the partial use of toxic substances and application limits of such systems in horizontal direction as well as hollow section materials has so far prevented the use of such composites for all-purpose applications. A new chemical fixing system, which consists of hexamethylene tetramine (hexa) cured novolac and inorganic filler, was developed for application in concrete. It is applied by a thermo-curing procedure. The uncatalyzed curable mixture has a high reactivity at temperature between 150-300 °C. Compared with commercial chemical fixing systems, the premixed curable mass has many benefits. First it has a unique storage stability and second, it is free of toxic and volatile substances. Another important aspect is, it is self-foaming. In this study was investigated the overall kinetics of the reaction during the curing process of these polymer composites. An appropriate method for this experiment proved to be the DSC in isothermal and non-isothermal mode and MDSC. This turned out to be a safe quality control technique for these systems. Parallel to the non-isothermal and isothermal DSC conductivity measurements have been performed to determine the end point of the curing reaction.

info:eu-repo/classification/ddc/620

ddc:620

Novel multidimensional fractionation techniques for the compositional analysis of impact polypropylene copolymers

Cheruthazhekatt, Sadiqali

03 1900

Thesis (PhD)--Stellenbosch University, 2013. / ENGLISH ABSTRACT: Impact Polypropylene Copolymers (IPCs) are extremely complex materials, consisting of a mixture of polypropylene homopolymer and copolymers having different comonomer (ethylene) contents and chemical composition distributions. IPC can only be effectively analysed by multidimensional analytical approaches. For this, initially, the individual components have to be separated according to any of their molecular characteristics, either by chemical composition distribution (CCD) or molar mass distribution (MMD), followed by further analysis of these separated fractions with conventional analytical techniques. The combination of preparative temperature rising elution fractionation (TREF) with several other analytical techniques have been reported for the thorough characterization of this material. However, even the combinations of these methods were of limited value due to the complex nature of this polymer. Therefore, novel analytical approaches are needed for a more detailed compositional analysis of IPCs. This work describes a number of multidimensional analytical techniques that are based on the combination of fractionation and hyphenated techniques. Firstly, preparative TREF was combined with high temperature size exclusion chromatography-FTIR (HT SEC-FTIR), HT SEC-HPer DSC (High Performance Differential Scanning Calorimetry) and high temperature two-dimensional liquid chromatography (HT 2D-LC) for the comprehensive analysis of a typical impact polypropylene copolymer and one of its midelution temperature TREF fractions. HT SEC-FTIR analysis provided information regarding the chemical composition and crystallinity as a function of molar mass. Thermal analysis of selected SEC fractions using a novel DSC method - High Speed or High Performance Differential Scanning Calorimetry (HPer DSC) - that allows measuring of minute amounts of material down to micrograms, yielded the melting and crystallization behaviour of these fractions which is related to the chemical heterogeneity of this complex copolymer. High temperature 2D-LC analysis provided the complete separation of this TREF fraction according to the chemical composition of each component along with its molar mass distribution. In a second step, the compositional characterization by advanced thermal analysis (HPer DSC, Flash DSC 1, and solution DSC) of the TREF-SEC fractions was extended to all semi-crystalline and higher temperature TREF fractions. By applying HPer DSC at scan rates of 5−200°C/min and Flash DSC 1 at scan rates of 10−1000°C/s, the metastability of one of the fractions was studied in detail. DSC measurements of TREF-SEC cross-fractions at high scan rates in p-xylene successfully connected reversely to the slow scan rate in TREF elution, if corrected for recrystallization. Finally, the exact chemical structure of all HT HPLC separated components was determined by coupling of HT HPLC with FTIR spectroscopy via an LCTransform interface. This novel approach revealed the capability of this hyphenated technique to determine the exact chemical composition of the individual components in the complex TREF fractions of IPCs. The HT HPLC–FTIR results confirmed the separation mechanism in HPLC using a solvent gradient of 1-decanol/TCB and a graphitic stationary phase at 160°C. FTIR analysis provided information on the ethylene and propylene contents of the fractions as well as on the ethylene and propylene crystallinities. / AFRIKAANSE OPSOMMING: Impak Polipropileen Kopolimere (IPKe) is uiters komplekse materiale, bestaande uit 'n mengsel van polipropileen homopolimeer en kopolimere met verskillende komonomeer (etileen) inhoud en chemiese samestelling verspreiding. IPKe kan slegs doeltreffend ontleed word deur multidimensionele analitiese benaderings te volg. Hiervoor moet die individuele komponente aanvanklik eers geskei word volgens enige van hul molekulêre eienskappe, hetsy deur die chemiese samestelling verspreiding (CSV) of molêre massa verspreiding (MMV), gevolg deur 'n verdere ontleding van hierdie geskeide fraksies met konvensionele analitiese tegnieke. Die kombinasie van voorbereidings temperatuur-verhogings eluasie fraksionering (TVEF) met verskeie ander analitiese tegnieke is gerapporteer vir die deeglike karakterisering van hierdie materiaal. Maar selfs die kombinasies van hierdie metodes was van beperkte waarde as gevolg van die komplekse aard van hierdie polimeer. Daarom word nuwe analitiese benaderings benodig vir 'n meer gedetailleerde komposisionele ontleding van IPKe. Hierdie studie beskryf 'n aantal multidimensionele analitiese tegnieke wat gebaseer is op die kombinasie van fraksionering en gekoppelde tegnieke. Eerstens is voorbereidings TVEF gekombineer met hoë temperatuur grootte-uitsluitingschromatografie-FTIR (HT GUC-FTIR), HT GUC-HPer DSK en hoë temperatuur twee-dimensionele vloeistof chromatografie (HT 2D-VC) vir die omvattende ontleding van 'n tipiese impak polipropileen kopolimeer en een van sy mid-eluasie temperatuur TVEF fraksies. HT GUC-FTIR analiese het inligting verskaf met betrekking tot die chemiese samestelling en kristalliniteit as 'n funksie van molêre massa. Termiese analiese van geselekteerde GUC fraksies deur gebruik te maak van 'n nuwe-DSK metode - Hoë Spoed of Hoë Prestasie Differensïele skandeer kalorimetrie (HPer DSK) - wat die meting van klein hoeveelhede materiaal tot by mikrogram hoeveelhede toelaat, het die smelt en kristallisasie gedrag van hierdie fraksies bepaal wat verwant is aan die chemiese heterogeniteit van hierdie komplekse kopolimeer. Hoë temperatuur 2D-LC analiese het die volledige skeiding van hierdie TVEF fraksie volgens die chemiese samestelling van elke komponent saam met die molêre massa verspreiding moontlik gemaak. In 'n tweede stap, is die komposisionele karakterisering deur gevorderde termiese analiese (HPer DSK, Flash DSK 1 en oplossing DSK) van die TVEF-GUC fraksies uitgebrei na alle semi-kristallyne en hoër temperatuur TVEF fraksies. Deur die gebruik van HPer DSK, teen ’n skandeerspoed van 5-200°C / min, en Flash DSK 1, teen ’n skandeerspoed van 10-1000°C / s, is die meta-stabiliteit van een van die fraksies in detail bestudeer. DSK metings van TVEF-GUC kruis-fraksies by 'n hoë skandeeerspoed in p-xyleen het suksesvol omgekeerd verbind aan die stadige skandeerspoed in TVEF eluasie, wanneer gekorrigeer vir dekristallisatie. Ten slotte is die presiese chemiese struktuur van al die HT HPVC geskeide komponente bepaal deur die koppeling van HT HPVC met FTIR spektroskopie deur middel van 'n LC-transform-koppelvlak. Hierdie nuwe benadering het die vermoë van die gekoppelde tegniek om die presiese chemiese samestelling van die individuele komponente in die komplekse TVEF fraksies of IPKe te bepaal aan die lig gebring. Die HT HPVC-FTIR resultate het die skeidingsmeganisme in HPVC bevestig deur die gebruik van ’n oplosmiddelgradiënt van 1-dekanol/TCB en 'n graphitiese stasionêre fase by 160°C. FTIR analiese verskaf inligting in verband met die etileen en propileen inhoud van die fraksies sowel as die etileen en propileen krystalliniteit.

Polypropylene

Copolymers

High performance liquid chromatography

Dissertations -- Polymer science

Theses -- Polymer science

Evaluation of physicochemical properties of modified algae protein adhesives

Borgen, Kelly

January 1900

Master of Science / Department of Biological and Agricultural Engineering / Donghai Wang / Algae proteins have similar amino acid compositions as conventional plant proteins, and are comparatively richer in the essential amino acids. Algae protein has the potential to be used in the development of a wide variety of products, including foods, animal feeds, bioplastics, and adhesives. The utilization of algae protein for value-added products would increase the economic feasibility of algae biodiesel. This research evaluated the adhesion, rheological, morphological, and thermal properties of adhesives made from algae protein extracted from Cladophora sp. and modified with either sodium hydroxide (pH 9, 10, 11) or sodium dodecyl sulfate (SDS, 0.5, 1, and 3%). Both alkali-modified and SDS-modified algae protein adhesives displayed improved dry shear strength compared to unmodified algae protein. However, only 3% SDS-modified algae protein significantly improved the water resistance as shown in wet and soak shear strength tests. Thermal analysis using differential scanning calorimetry showed that SDS modification caused complete denaturation of the algae protein. SDS modification also increased the viscosity of the adhesive and created rougher particle surface texture. These data suggest that SDS modification can effectively increase shear strength and water resistance of algae protein adhesives caused by protein denaturation and protein structure change.

Modified algae protein adhesives

Shear strength

Sodium dodecyl sulfate

Rheology

Differential scanning calorimetry

Scanning electron microscopy

Engineering (0537)

Engineering, Agricultural (0539)

Sustainability (0640)

Estudo da degradação de geomembrana de polietileno de alta densidade de 2,5 mm de espessura frente à gasolina, óleo diesel e álcool combustível / Degradation study of the high density polyetilene geomembrane of 2.5 mm thickness front to gasoline, diesel oil and alcohol fuel

Valentin, Clever Aparecido

10 December 2008

Os constantes vazamentos de combustíveis derivados do petróleo nos postos de abastecimento têm gerado grande preocupação em diversos países do mundo. Estes combustíveis apresentam em sua composição compostos orgânicos, entre eles os hidrocarbonetos poliaromáticos (HPAs) nocivos à saúde humana. Este trabalho visa ao estudo da eficiência de uma camada de impermeabilização, constituída por uma Geomembrana de Polietileno de Alta Densidade (PEAD) de 2,5 mm de espessura. Os estudos se basearam em análises físicas (Densidade), mecânicas (Tração e Permeabilidade) e térmicas (Calorimetria de Varredura Diferencial) da geomembrana exposta aos três combustíveis, além de analisar a estanqueidade por Difusão, na geomembrana intacta. Os resultados mostraram que: a densidade das geomembranas sofre pequenas variações, e que para um período de até 6 meses o parâmetro é mantido; as resistências mecânicas apresentam maior influência nas suas propriedades em relação ao óleo diesel e gasolina, e menor para o álcool; os testes de análise térmica mostram que as cadeias poliméricas mantiveram as ligações atômicas, baseado nas temperaturas de fusão e degradação; os testes de permeabilidade ao vapor d\'água mostram que a geomembrana exposta à gasolina apresenta tendência de aumento da permeabilidade em função do tempo; os resultados dos testes de impermeabilização a um grupo de compostos policíclicos aromáticos, mostram que a geomembrana apresenta desempenho menos satisfatório para os compostos antraceno e naftaleno. A geomembrana de polietileno de alta densidade de 2,5 mm é uma boa alternativa na prevenção da contaminação pelos compostos estudados, até um período aproximado de um ano, tendo em vista seu desempenho no período estudado. / The constant petrol fuel leaks in gas stations has been caused concern in many countries around the world. This fuel has toxic organic compounds in their composition, like Polyciclic Aromatic Hidrocarbons (PAHs) harmful to the human health. In this work the efficiency of the protection layer with a Hight Density Polyetilene Geomembrane (HDPE) 2.5 mm thickness was used. The study is based upon the physical (density), mecanical (Tensile and Permeability) and thermal tests (Differential Scanning Calorimetry) and was used for the three fuels, as well as the difusion test of intact geomembrane. The results show that the geomembrane density has changed a little bit, holding the standard values up to 6 months; the mecanical resistence decreases in diesel oil and gasoline, and increases in alcohol; the thermic analisys tests show that the polimeric chains maintain the same chemical bonds, based on the melting point and degradation temperature; the water vapor permeability test shows, as the time increases, the water vapor throught the geomembrane which was exposed to gasoline tends to increase; the results of impermeabilization test of a poliaromatic compound group shows that the geomembrane is less efective to antracene and naftalene compounds. The hight density polyethylene geomembrane of 2.5 mm thickness is a good alternative preventing contamination of water and soil, by the compounds under stusy, about up to one year, based on this time of study performance.

calorimetria de varredura diferencial

densidade

density

differential scanning calorimetry

difusão

geomembrana

geomembrane

HPAs

PAHs

permeabilidade ao vapor

permeability

polietileno

polyetilene

tensile

tração

Etapas críticas na liofilização do pericárdio bovino / Critical steps during bovine pericardium freeze-drying

Virgilio Tattini Junior

02 September 2008

Em um sistema biológico, a água é responsável por inúmeras reações metabólicas, assim como pela estabilidade estrutural dos constituintes celulares do material. A liofilização é um processo de secagem comumente utilizado para a conservação de materiais biológicos. Entretanto, devido a complexidade do processo e às mudanças térmicas aplicadas ao material, se as etapas da liofilização não forem bem conduzidas, poderão ocorrer danos estruturais irreversíveis. Este projeto tem como objetivo determinar as etapas críticas na liofilização do pericárdio bovino. Através das técnicas de caracterização térmica por calorimetria exploratória diferencial (DSC) e microscopia óptica acoplada a liofilização (FDM) determinaram-se as principais transições de fases do pericárdio bovino visando o aprimoramento do processo e a qualidade final do produto. Após a liofilização do material, utilizando-se diferentes protocolos de congelamento, concluiu-se que o pericárdio bovino apresenta suporte físico suficiente para ser liofilizado acima da temperatura de transição vítrea sem apresentar sinais de colapso estrutural. O protocolo de liofilização utilizando-se congelamento lento com o emprego do tratamento térmico apresentou os melhores resultados de umidade residual, tempo de liofilização e manutenção da estrutura conformacional do colágeno. / In biological system, water is responsible for many metabolic reactions as well as for structural stability of the material cellular constituents. Freeze-drying or lyophilization is a drying technique commonly used for the preservation of biological materials. However, given to the process complexity and to the thermal changes applied to the material, if all freeze-drying steps are not well determined and controlled, irreversible structural damages on the material may occur. The aim of this project is to determine the critical steps on the bovine pericardium tissue freeze-drying. Through two different thermal analysis techniques, Differential Thermal Analysis (DSC) and Freeze-drying microcopy (FDM), it was determined the main phase transitions of bovine pericardium to optimize the freeze-drying process and the quality of dried product. After freeze-drying under different freezing protocols it was concluded that bovine pericardium showed enough physical support to be dried above the glass transition temperature without showing any signs of structural collapse. The freeze-drying protocol using slow freezing rate and annealing showed the best results regarding residual moisture content, freeze-drying time and maintenance of the collagen conformational structure.

Bioprótese

Espectroscopia Raman

Liofilização

Microscopia

Pericárdio bovino

Tecidos biológicos

Biological tissues

Bovine pericardium

Differential scanning calorimetry

Freeze-drying

Microscopy

Raman spectroscopy

Estudo da degradação de geomembrana de polietileno de alta densidade de 2,5 mm de espessura frente à gasolina, óleo diesel e álcool combustível / Degradation study of the high density polyetilene geomembrane of 2.5 mm thickness front to gasoline, diesel oil and alcohol fuel

Clever Aparecido Valentin

10 December 2008

Os constantes vazamentos de combustíveis derivados do petróleo nos postos de abastecimento têm gerado grande preocupação em diversos países do mundo. Estes combustíveis apresentam em sua composição compostos orgânicos, entre eles os hidrocarbonetos poliaromáticos (HPAs) nocivos à saúde humana. Este trabalho visa ao estudo da eficiência de uma camada de impermeabilização, constituída por uma Geomembrana de Polietileno de Alta Densidade (PEAD) de 2,5 mm de espessura. Os estudos se basearam em análises físicas (Densidade), mecânicas (Tração e Permeabilidade) e térmicas (Calorimetria de Varredura Diferencial) da geomembrana exposta aos três combustíveis, além de analisar a estanqueidade por Difusão, na geomembrana intacta. Os resultados mostraram que: a densidade das geomembranas sofre pequenas variações, e que para um período de até 6 meses o parâmetro é mantido; as resistências mecânicas apresentam maior influência nas suas propriedades em relação ao óleo diesel e gasolina, e menor para o álcool; os testes de análise térmica mostram que as cadeias poliméricas mantiveram as ligações atômicas, baseado nas temperaturas de fusão e degradação; os testes de permeabilidade ao vapor d\'água mostram que a geomembrana exposta à gasolina apresenta tendência de aumento da permeabilidade em função do tempo; os resultados dos testes de impermeabilização a um grupo de compostos policíclicos aromáticos, mostram que a geomembrana apresenta desempenho menos satisfatório para os compostos antraceno e naftaleno. A geomembrana de polietileno de alta densidade de 2,5 mm é uma boa alternativa na prevenção da contaminação pelos compostos estudados, até um período aproximado de um ano, tendo em vista seu desempenho no período estudado. / The constant petrol fuel leaks in gas stations has been caused concern in many countries around the world. This fuel has toxic organic compounds in their composition, like Polyciclic Aromatic Hidrocarbons (PAHs) harmful to the human health. In this work the efficiency of the protection layer with a Hight Density Polyetilene Geomembrane (HDPE) 2.5 mm thickness was used. The study is based upon the physical (density), mecanical (Tensile and Permeability) and thermal tests (Differential Scanning Calorimetry) and was used for the three fuels, as well as the difusion test of intact geomembrane. The results show that the geomembrane density has changed a little bit, holding the standard values up to 6 months; the mecanical resistence decreases in diesel oil and gasoline, and increases in alcohol; the thermic analisys tests show that the polimeric chains maintain the same chemical bonds, based on the melting point and degradation temperature; the water vapor permeability test shows, as the time increases, the water vapor throught the geomembrane which was exposed to gasoline tends to increase; the results of impermeabilization test of a poliaromatic compound group shows that the geomembrane is less efective to antracene and naftalene compounds. The hight density polyethylene geomembrane of 2.5 mm thickness is a good alternative preventing contamination of water and soil, by the compounds under stusy, about up to one year, based on this time of study performance.

calorimetria de varredura diferencial

densidade

difusão

geomembrana

HPAs

permeabilidade ao vapor

polietileno

tração

density

differential scanning calorimetry

geomembrane

PAHs

permeability

polyetilene

tensile

Etapas críticas na liofilização do pericárdio bovino / Critical steps during bovine pericardium freeze-drying

Tattini Junior, Virgilio

02 September 2008

Em um sistema biológico, a água é responsável por inúmeras reações metabólicas, assim como pela estabilidade estrutural dos constituintes celulares do material. A liofilização é um processo de secagem comumente utilizado para a conservação de materiais biológicos. Entretanto, devido a complexidade do processo e às mudanças térmicas aplicadas ao material, se as etapas da liofilização não forem bem conduzidas, poderão ocorrer danos estruturais irreversíveis. Este projeto tem como objetivo determinar as etapas críticas na liofilização do pericárdio bovino. Através das técnicas de caracterização térmica por calorimetria exploratória diferencial (DSC) e microscopia óptica acoplada a liofilização (FDM) determinaram-se as principais transições de fases do pericárdio bovino visando o aprimoramento do processo e a qualidade final do produto. Após a liofilização do material, utilizando-se diferentes protocolos de congelamento, concluiu-se que o pericárdio bovino apresenta suporte físico suficiente para ser liofilizado acima da temperatura de transição vítrea sem apresentar sinais de colapso estrutural. O protocolo de liofilização utilizando-se congelamento lento com o emprego do tratamento térmico apresentou os melhores resultados de umidade residual, tempo de liofilização e manutenção da estrutura conformacional do colágeno. / In biological system, water is responsible for many metabolic reactions as well as for structural stability of the material cellular constituents. Freeze-drying or lyophilization is a drying technique commonly used for the preservation of biological materials. However, given to the process complexity and to the thermal changes applied to the material, if all freeze-drying steps are not well determined and controlled, irreversible structural damages on the material may occur. The aim of this project is to determine the critical steps on the bovine pericardium tissue freeze-drying. Through two different thermal analysis techniques, Differential Thermal Analysis (DSC) and Freeze-drying microcopy (FDM), it was determined the main phase transitions of bovine pericardium to optimize the freeze-drying process and the quality of dried product. After freeze-drying under different freezing protocols it was concluded that bovine pericardium showed enough physical support to be dried above the glass transition temperature without showing any signs of structural collapse. The freeze-drying protocol using slow freezing rate and annealing showed the best results regarding residual moisture content, freeze-drying time and maintenance of the collagen conformational structure.

Biological tissues

Bioprótese

Bovine pericardium

Differential scanning calorimetry

Espectroscopia Raman

Freeze-drying

Liofilização

Microscopia

Microscopy

Pericárdio bovino

Raman spectroscopy

Tecidos biológicos

Aplicação de métodos termo-analíticos e espectroscóspicos na avaliação do comportamento do fármaco isoniazida frente a adjuvantes tecnológicos / Application of thermo-analytical and spectroscopical methods on the evaluation of the behavior of isoniazid and pharmaceutical excipients

Velásquez Armijo, Cristián Jesús

January 2003

Os métodos termo-analíticos são ferramentas úteis na avaliação da compatibilidade entre fármacos e adjuvantes, com destaque à calorimetria exploratória diferencial. Neste trabalho foram avaliados a compatibilidade e o comportamento térmico entre a isoniazida e adjuvantes tecnológicos primários usualmente empregados em formas farmacêuticas sólidas. A compatibilidade foi examinada por meio da preparação de misturas físicas binárias do tipo fármaco/adjuvante. Foi investigada também a influência da granulação por via úmida e do processo de compactação para as misturas de isoniazida e adjuvantes com função de material de enchimento e carga e deslizante. A isoniazida apresentou um comportamento térmico não encontrado na literatura. Os adjuvantes avaliados foram: ácido esteárico, amido, celulose microcristalina, crospovidona, croscarmelose sódica, dióxido de silício coloidal estearato de magnésio, glicolato de amido sódico, hipromelose, lactose, manitol, polidona e talco. Para as misturas físicas, a maioria dos adjuvantes mostrou-se compatível com o fármaco em questão. Foram verificadas interações com o ácido esteárico, o glicolato de amido sódico, a lactose, o manitol e a povidona. A isoniazida mostrou a formação de uma mistura eutética com o manitol e de interação química com a lactose. A agregação por via úmida e o processo de compactação não mostraram influências adicionais na compatibilidade das misturas avaliadas. Os resultados observados foram confirmados por métodos não-térmicos como difratometria de raios X, espectroscopia de infravermelho e ressonância nuclear magnética. / Thermo-analytical methods, and specially Differential Scanning Calorimetry, are useful support for the evaluation of compatibility between drug substances and pharmaceutical excipients. In this work were studied the compatibility and the thermal behavior of isoniazid and pharmaceutical excipients, commonly used for the formulation of solid dosage forms. Colloidal silicon dioxide, corn starch, crospovidone, hypromellose, lactose, magnesium stearate, mannitol, microcrystalline cellulose, povidone, sodium croscarmellose, sodium starch glycolate, stearic acid and talc were the excipients employed in these experiments. The compatibility was analyzed testing binary physical drug/excipient admixtures. The effect of wet granulation and compression was also investigated, in this case especially between isoniazid, fillers and lubricant. For almost all excipients no incompatibilities with isoniazid were observed. Interactions were detected when the drug substance was added to stearic acid, sodium starch glycolate, lactose, mannitol and povidone. Isoniazid formed a euthetic mixture with mannitol, whereas a possible chemical reaction occurred between isoniazid and lactose. Wet granulation and compaction of the tested admixtures did not affect the results observed above. These observations were confirmed by non-thermal techniques, such as X-Ray diffractometry, infrared spectroscopy and nuclear magnetic resonance.

Isoniazida

Calorimetria

Adjuvantes farmaceuticos

Tecnologia farmaceutica

Differential scanning calorimetry

Thermo-analytical methods

Drug/excipient compatibility study

Thermal behavior

Isoniazid

Pharmaceutical excipients

Solid dosage form

Wet granulation

Compression

Photothermal studies on cryoprotectant media / Études photothermiques de milieux cryoprotecteurs

Mathew, Allen

11 July 2018

La mise en place, l'étalonnage et l'utilisation d'un nouveau banc expérimental basses températures basé sur une technique photothermique appelée photo pyroélectricité (PPE) sont décrits dans ce manuscrit. Les échantillons que nous avons étudiés en utilisant ce nouvel instrument sont le glycérol, le 1,2 propanediol et leurs mélanges binaires avec l'eau. Ce sont des cryoprotecteurs bien connus (CPAs) utilisés dans la cryoconservation, qui est une technique de préservation des cellules et tissus vivants en les refroidissant à des très basses températures. Le but ultime de la cryoconservation est d'éviter ou de maîtriser la formation de glace et d'atteindre un état vitreux ou amorphe. La vitesse de refroidissement, de chauffage et la concentration des CPAs utilisés sont les paramètres clés qui déterminent la formation de la glace. Par conséquent, l'étude des propriétés thermiques, en particulier près de la transition vitreuse (Tg) des solutions binaires des CPAs avec de l'eau est très importante pour comprendre leur comportement lors du refroidissement. La PPE a été utilisée pour étudier l'effusivité et le temps de relaxation ∝ caractéristique de la transition vitreuse. Le Tg et la fragilité (m) ont été déterminés à partir des données de la PPE en utilisant le modèle d'Havriliak Negami. L'état vitreux présente une très grande viscosité, de l'ordre de 10¹² Pa.s au voisinage du Tg. Le Tg et m peuvent être calculés à partir de l'évolution de la viscosité en fonction de la température ou par calorimétrie différentielle à balayage (DSC). Ainsi, des études à l'aide de ces deux techniques ont été menées et les résultats ont été comparés avec les données de la PPE. / The construction, calibration and application of a new low temperature instrument based on a photothermal technique called photo pyroelectricity (PPE) is described in this manuscript. The samples we studied using the new PPE instrument were glycerol, 1,2 propanediol and their binary mixtures with water. These liquids are well known cryoprotectants (CPAs) used in cryopreservation, which is a technique to preserve the living cells and tissues from biological degradation by cooling to sub zero temperatures. The ultimate goal in cryopreservation is to avoid or control the ice formation and attain a glassy or amorphous state.The rate of cooling and heating and the concentration of the CPAs used are the key parameters that determine the ice formation. Therefore, studying the temperature dependent thermal properties especially near their glass transition temperature (Tg) of the binary solutions of CPAs with water at different concentrations are highly important to understand their behavior while cooling. The PPE technique was used to study the effusity and the ∝ relaxation time near the glass transition phenomenon. The Tg and fragility (m) were determined from the PPE data using the Havriliak Negami model. The glassy state has a characteristic property of very high viscosity, of the order of 10¹² Pa.s at Tg. The Tg and m can be calculated from the temperature evolution of viscosity or from Differential Scanning Calorimetry (DSC) measurements. Therefore, viscosity and DSC studies were conducted on the samples and were compared with PPE data.

Photo pyroélectricité

Cryoconservation

Cryoprotecteur

Vitrification

Température de transition vitreuse

Fragilité

Viscosité

Photo pyrolectricity

Cryopreservation

Cryoprotectant

Vitrification

Glass transition temperature

Fragility

Viscosity

Differential scanning calorimetry

Characterisation of amorphous pharmaceutical materials

Grazier, Jeffery N.

January 2013

Small quantities of amorphous content can have a profound influence on the properties of a material, however their instability means that quantifying amorphous content over time is important for proving the stability of a drug. Quantifying amorphous content in α-lactose monohydrate by solid state 13C CP MAS NMR, has been carried out by use of proton saturation recovery relaxation and differentiating between spectra by partial least squares (PLS), however these techniques have not proved sensitive on their own, this work investigates their sensitivity in combination. Crystalline α-lactose monohydrate and a rapidly quenched melt were combined to create a set of calibration mixes, whose spectra were recorded using proton saturation recovery relaxations ranging from 2 to 60 seconds. This technique showed a limit of detection of 0.17% (LOD = intercept + 3xSy/x), with a relaxation delay of 15 s and was able to recognise amorphous materials generated by spray and freeze drying. The atmospheric effects on the proton saturation recovery relaxation times of different amorphous lactose preparations were investigated. This found that an oxygen atmosphere reduced the relaxation times, of amorphous lactose that was prepared from a rapidly quenched melt. The loss of moisture from spray dried and freeze dried samples to less than 1% removed the significance of this effect. Lactose is an important excipient in pharmaceuticals and a key ingredient of confectionary, very little research has been carried out in to the quantification of the isomers of different preparations of amorphous lactose. This work quantifies the isomer content by Gas Chromatography with Flame Ionisation Detection (GC-FID) using a DB-17 15m 0.53mm 1.00 μm column and derivatisation with N- (trimethylsilyl)imidazole.