Manuel Luis Romero García scite author profile

Manuel Luis Romero García

5Publications

15Citation Statements Received

23Citation Statements Given

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Affiliations

University of Massachusetts Lowell, Universitat Politècnica de València

Publications

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The effect of the amphiprotic nature of human hair keratin on the adsorption of high charge density cationic polyelectrolytes

Jachowicz¹,

Berthiaume²,

García³

1985

Colloid & Polymer Sci

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Adsorption of the cationic polymers poly(methacrylamidopropyltrimethyl ammonium chloride) (PMAPTAC) and poly(1,1-dimethylpiperidinium-3,5-diallylmethylene chloride) (PDMPDAMC) on human hair was studied by measurements of the amount of polymer adsorbed and by the streaming potential method. Results reflect the amphoteric nature of the keratin surface and show that the excess of anionic sites at pH values above 4 is the main driving force for the adsorption of cationic polyelectrolytes. Lowering the pH below 4 or addition of neutral salt (KC1) reduces the amount of adsorbed polymer. It was shown that the adsorption of cationic polymer in the concentration range 0.01 to 0.1% and at neutral pH reverses the overall character of the surface from anionic to cationic. Keratin fibers modified in this manner do not exhibit amphoteric character and bear excess positive charge in the pH range 2-9.5. The value of the amount of the polymer adsorbed at saturation concentration (-2 rag/g) as well as the lack of molecular weight effect in the range (5 -10 4 -106) on the amount of polymer adsorbed suggest that polymer chains adopt a rather extended conformation on the fiber surface. Some data concerning the formation of a Complex between adsorbed cationic polymer and anionic detergents or polyelectrolyte~ are also presented.

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Relationship Between Triboelectric Charging and Surface Modification of Human Hair: Polymeric Versus Monomeric Long Alkyl Chain Quaternary Ammonium Salts

Jachowicz¹,

García²,

Wis-Surel³

1987

Textile Research Journal

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Triboelectric charging of hair modified by surface deposition of a series of monomeric and polymeric long alkyl chain quaternary ammonium salts was examined. The length of the hydrophobic alkyl chain in both monomeric and polymeric surfactants, the composition of copolymer-containing surfactant and nonsurfactant units, and the concentration of the treatment solution are the factors determining the sign and mag nitude of generated tribo-charges. The results were interpreted in terms of effective work function of modified fibers dependent upon surface concentration and com position of adsorbed species.

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Stability and collapse of amphiphilic copolymer aggregates in contact with hydrophilic mica surfaces

Gupta

Nguyen

et al. 2021

Journal of Dispersion Science and Technology

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FEM simulations to estimate the polymer thickness deposited over mechanical resonators

Morata

García²,

Santos³

et al.

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Measurements of polymer thicknesses deposited over resonant structures are difficult of carrying out though optical or mechanical techniques. So that, this work proposes to estimate the equivalent thickness of the sensitive layer using FEM simulations. In this way, comparing the resonant frcquency before and after the polymer (PEUT or PDMS) has been sprayed, thicknesses varied between 0,l pm and 6,5 pm.

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Efecto del spalling sobre la resistencia a flexión biaxial de pilares de hormigón armado expuestos a fuego.

Mansilla

Gabarda

Usach

et al. 2020

hya

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El spalling es un fenómeno que sufre el hormigón expuesto al fuego debido al aumento de presión en los poros por evaporación y donde su superficie se desconcha incluso de forma explosiva durante los primeros 30 minutos de exposición. Después puede producirse spalling en esquina, menos explosivo, donde el hormigón se desconcha y las armaduras quedan directamente expuestas, produciéndose una pérdida relevante de la sección resistente. Los parámetros que influyen en su aparición son: la humedad del hormigón, la velocidad de calentamiento, el estado tensional previo, la permeabilidad, la resistencia a compresión, o el recubrimiento y separación de las armaduras. Pueden encontrarse modelos predictivos basados en el cálculo de la presión de poro o métodos de elementos finitos acoplados donde se determina la evolución de la temperatura y presión de poro y, después, el mecanismo de fractura que produce spalling. Este trabajo se centra en evaluar las consecuencias de este fenómeno mediante un modelo secuencial de evaluación de la resistencia fuego. Se pretende evaluar los efectos del spalling sobre la resistencia a flexión biaxial de pilares de hormigón armado expuestos al fuego. Se trata de un modelo seccional de fibras con integración por celdas. El modelo es capaz de generar las superficies de interacción de los pilares a flexión biaxial y uniformemente expuestos por sus cuatro caras a la curva de fuego ISO 834. Cuando se produce spalling, el modelo elimina las fibras de hormigón afectadas y el mapa térmico se actualiza considerando la posible exposición de las armaduras después del desprendimiento del hormigón. La simetría seccional, tanto térmica como geométrica, se pierde y esto conlleva la resolución de un problema de flexión biaxial. Así, el modelo secuencial se encarga de obtener el mapa térmico seccional con spalling y, a continuación, su nueva respuesta mecánica.

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