Alginate based materials have become an important class of products in many fields from the pharmaceutical industry to tissue engineering, because of their ability to create stimuli responsive hydrogels.We present a new technical approach for obtaining a controlled gelling process, based on the quantities of Ca2+ rich alginate micro-beads added as crosslinkers. The gels have been evaluated in light of the amount of Ca2+ added to the alginate solution, and in light of the different dimensions of the micro-beads,using rheological measurements to assess the variation in the storage modulus (G'), loss modulus (G'') and complex viscosity as well as swelling and deswelling tests. The methodology was developed toobtain a material with specific characteristics for application in the field of conservation. The materialhad to be able to create a stable gel after being applied on the artwork surface and to confine the solvent action at the interface during cleaning operations.

Gelling process for sodium alginate: New technical approach by using calcium rich micro-spheres

VICINI, SILVIA;CASTELLANO, MAILA;MAURI, MARCO;MARSANO, ENRICO
2015-01-01

Abstract

Alginate based materials have become an important class of products in many fields from the pharmaceutical industry to tissue engineering, because of their ability to create stimuli responsive hydrogels.We present a new technical approach for obtaining a controlled gelling process, based on the quantities of Ca2+ rich alginate micro-beads added as crosslinkers. The gels have been evaluated in light of the amount of Ca2+ added to the alginate solution, and in light of the different dimensions of the micro-beads,using rheological measurements to assess the variation in the storage modulus (G'), loss modulus (G'') and complex viscosity as well as swelling and deswelling tests. The methodology was developed toobtain a material with specific characteristics for application in the field of conservation. The materialhad to be able to create a stable gel after being applied on the artwork surface and to confine the solvent action at the interface during cleaning operations.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11567/846237
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