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Response surface designs for specified factor levelsStoneman, David McNeel, January 1966 (has links)
Thesis (Ph. D.)--University of Wisconsin--Madison, 1966. / Typescript. Vita. Description based on print version record. Includes bibliographical references (p. 217-221).
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Investigation of factors affecting resilient modulus for hot mix asphaltJi, Su Jian January 2006 (has links)
Resilient modulus is an important property for asphalt concrete design and for mechanistic analysis of pavement response under traffic loading. This study investigates the different factors affecting the resilient modulus of hot mix asphalt. A fractional factorial design of experiment was carried out to investigate six factors each factor was studied at two levels. These factors are: the maximum nominal aggregate size, specimen diameter and thickness, the load pulse form and duration, and the compaction method. Two types of hot mix asphalts with different maximum aggregate sizes (10 mm and 14 mm) were studied. Gyratory and Marshall compaction methods were used to prepare the specimens. Sinusoidal and triangular load pulse forms were used in the measurement of the resilient modulus. This study attempts to examine how the different factors interrelate to affect the resilient modulus. In addition to this, two other investigations will be carried out. The first is the comparison of the strain backcalculated using the resilient modulus test results with the strain measured using strain gages and strain values obtained from finite element modelling (FEM), and determine whether the FEM or the closed form equation is the more accurate method for determining strain. The second is the investigation of the relationship between the flexural, complex and resilient modulus. Analysis of the factorial experimental design showed that the maximum nominal aggregate size is the most important factor affecting the resilient modulus, followed by the load duration, the specimen geometry represented by the thickness and diameter then the interactions between the different factors. The strain comparison suggested that the closed form equations were indeed a suitable approach to determine maximum horizontal strain during a resilient modulus test. The modulus comparison suggested that it is possible to predict either resilient, complex and flexural modulus given that only one of them is known, but only for AC10 specimens.
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Desenvolvimento de géis de papaína a 4,0% (p/p) com polissorbato 80 como agente solubilizanteNicoletti, Caroline Deckmann 17 March 2017 (has links)
Submitted by Biblioteca da Faculdade de Farmácia (bff@ndc.uff.br) on 2017-03-17T17:34:41Z
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Nicoletti, Caroline Deckmann [Dissertação, 2015].pdf: 2492191 bytes, checksum: 2cc1df517b27092f16baf567910a3c1a (MD5) / Made available in DSpace on 2017-03-17T17:34:41Z (GMT). No. of bitstreams: 1
Nicoletti, Caroline Deckmann [Dissertação, 2015].pdf: 2492191 bytes, checksum: 2cc1df517b27092f16baf567910a3c1a (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / A papaína é uma enzima proteolítica utilizada no tratamento de feridas. É parcialmente
solúvel em água e tem baixa estabilidade em preparações farmacêuticas, dessa forma os géis
com concentrações de papaína acima de 1% podem apresentar precipitados. O presente
trabalho teve como objetivo o desenvolvimento de géis de papaína a 4% (p/p) usando
tensoativos como agente solubilizante. Como fase inicial do estudo realizou-se a
determinação da Concentração Micelar Crítica (CMC) por meio da medida de tensão
superficial de geis de papaína a 4,0% (p/p) com e sem L-cisteína e diferentes concentrações
de polissorbato 80. Novas preparações foram desenvolvidas usando-se concentrações de
polissorbato e L-cisteína que resultavam na completa solubilização da papaína. O estudo de
estabilidade dos géis de papaína a 4,0% (p/p) com polissorbato 80 foi planejado e executado a
partir de desenho experimental fatorial 33 em amostras armazenadas sob refrigeração por 30
dias. As variáveis independentes estipuladas foram concentração de L-cisteína, concentração
de polissorbato 80 e o tempo de armazenagem; a variável dependente avaliada foi a
concentração de papaína ativa. Todas as amostras foram analisadas quanto à manutenção das
características sensoriais e físico-químicas. Durante o período de avaliação as preparações
conservaram-se como géis homogêneos, mantendo-se estáveis quanto aos valores de pH, de
viscosidade e de estabilidade termodinâmica. Estas amostras não apresentaram mudanças no
seu comportamento reológico. As preparações estudas apresentaram concentrações de papaína
ativa entre 90 e 110% apos 24 horas de preparo, mas não foi possível a manutenção desta
atividade durante o período de estudo. As avaliações estatísticas decorrentes do desenho
experimental fatorial resultaram em gráficos de superfície de resposta e de contorno, que
demonstraram que o tempo é o fator de maior influência sobre a perda da atividade da papaína
nas preparações em gel. A L-cisteína interfere favoravelmente para a manutenção da
atividade, mas sua ação isolada é incapaz de sobrepor-se ao efeito do tempo. A associação da
L-cisteína e do polissorbato 80 também apresenta ação favorável a manutenção da atividade
enzimática, que se torna evidente somente nas maiores concentrações estudadas para estes
adjuvantes / Papain is a proteolytic enzyme used in the treatment of wounds. It is partially soluble in water
and has low stability in pharmaceutical preparations thus gels with papain above 1%
concentration may have precipitated. This study aimed to the development of papain gels at
4% (w / w) using surfactants as solubilizing agent. As the initial phase of study was carried
out to determine the critical micellar concentration (CMC) by action of surface tension of
papain gels at 4.0% (w / w) with and without L-cysteine and different concentrations of
polysorbate 80. New preparations were developed using concentrations of polysorbate and Lcysteine
resulted in complete solubilization of papain. The stability study of papain gels at
4.0% (w / w) polysorbate 80 was planned and carried out from 33 factorial experimental
design for samples stored under refrigeration for 30 days. The independent variables were
prescribed concentration of L-cysteine, concentration of polysorbate 80 and the storage time;
the evaluated dependent variable was the concentration of active papain. All samples were
analyzed for the maintenance of sensorial and physicochemical characteristics. During the
evaluation period preparations presented as homogeneous gels, remaining stable as the pH,
viscosity and thermodynamic stability. These samples showed no changes in their rheological
behavior. The preparations studied showed ative papain concentrations between 90 and 110%
after 24 hours of preparation, but it was not possible to maintain this activity over the study
period. The statistical evaluations resulting from the factorial experimental design resulted in
response surface graphs and contour, showing that time is the most influential factor on the
loss of papain activity in preparations gel. L-cysteine favorably affects the maintenance of the
activity, but its action alone is unable to override the effect of the time. The combination of Lcysteine
and polysorbate 80 also presents favorable action to maintain the enzyme activity,
which becomes evident only at the highest concentrations investigated for these adjuvants
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