Synthesis and characterization of acrylic rubber/silica hybrid composites prepared by sol‐gel technique

Bandyopadhyay, Abhijit; Bhowmick, Anil K.; Sarkar, Mousumi De

doi:10.1002/app.20681

Cited by 99 publications

(65 citation statements)

References 17 publications

(11 reference statements)

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“…The rubbery modulus increases, mainly from 10 wt% of silica content. This strong increase of the rubbery plateau modulus agrees well with the literature [91,111,117,131,148] and seems to be related with the percolation of the silica phase, forming a continuous network extended throughout the sample for silica contents higher than that threshold, which constrains the long distance cooperative motions of the copolymer chains. The fact that only for these silica contents a continuous densified silica structure was obtained after performing a pyrolysis and removal of the organic phase, is consistent with this observation.…”

Section: Characterization Of P(ema-co-hea)/sio 2 Nanocompositessupporting

confidence: 90%

“…The organic monomer polymerizes leaving an organic network that fills up both kinds of pores left by the silica structure (Figure 1.6 Although hydrolysis and condensations occur concurrently, the pH, but also the amount of added water, the hydrophilicity of the polymeric monomer [131] , and the sometimes necessary addition of an alcoholic common solvent (ethanol, isopropanol) to homogenize the solution [132] , all affect the relative rate and extent of these reactions and thus the final structures and properties of the materials [125] .…”

Section: Polymer/silica Nanohybrids Obtained By Sol-gel Processmentioning

confidence: 99%

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P(EMA-co-HEA)/SiO2 hybrid nanocomposites for guided dentin tissue regeneration: structure, characterization and bioactivity.

Vallés-Lluch¹

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Section: Characterization Of P(ema-co-hea)/sio 2 Nanocompositessupporting

confidence: 90%

Section: Polymer/silica Nanohybrids Obtained By Sol-gel Processmentioning

confidence: 99%

P(EMA-co-HEA)/SiO2 hybrid nanocomposites for guided dentin tissue regeneration: structure, characterization and bioactivity.

Vallés-Lluch¹

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“…[10] In organic-inorganic hybridizations, the size of the dispersed phase can be controlled on a nanometer or molecular-size scale in multi-component systems. [11][12][13][14] Hybridizations from organic and inorganic compounds can be carried out by the sol-gel method, in which starting materials are in solution and synthesized at the lowest possible temperatures. [15][16][17] By using the sol-gel method, it is possible to homogeneously hybridize the organic and inorganic components.…”

Section: Full Papermentioning

confidence: 99%

Water/Ethanol Selectivity of New Organic‐Inorganic Hybrid Membranes Fabricated from Poly(vinyl alcohol) and an Oligosilane

Uragami

Yanagisawa

Miyata

2007

Macro Chemistry & Physics

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To control the swelling of PVA membranes, mixtures of PVA and an inorganic oligosilane were prepared using sol‐gel reactions to yield new PVA/oligosilane hybrid membranes. In the separation of an ethanol/water azeotropic mixture during pervaporation, the effect of the oligosilane content on the water/ethanol selectivity of PVA/oligosilane hybrid membranes was investigated. The water/ethanol selectivity of PVA/oligosilane hybrid membranes was higher than that of PVA membranes, but the water/ethanol selectivity of hybrid membranes decreased with increasing oligosilane content. In order to increase the water/ethanol selectivity, PVA/oligosilane hybrid membranes were annealed. The water/ethanol selectivity of annealed PVA/oligosilane hybrid membranes was greater than un‐annealed hybrid membranes, and significantly governed by the oligosilane content, which could be attributed to both sorption and diffusion selectivities. The relationship between the structure of un‐annealed and annealed PVA/oligosilane hybrid membranes along with permeation and separation characteristics of an ethanol/water azeotropic mixture during pervaporation are discussed in detail.magnified image

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“…Conversely, in other cases, high amounts of nanosilica reduced the T g and the temperature for maximum mechanical damping. Furthermore, high amount of silica nanoparticles lead to a more brittle behavior [32][33][34][35][36].…”

Section: Introductionmentioning

confidence: 99%

Waterborne Acrylate-Based Hybrid Coatings with Enhanced Resistance Properties on Stone Surfaces

et al. 2018

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Abstract:The application of coating polymers to building materials is a simple and cheap way to preserve and protect surfaces from weathering phenomena. Due to its environmentally friendly character, waterborne coating is the most popular type of coating, and improving its performance is an important key of research. The study presents the results regarding the mechanical and photo-oxidation resistance of some water-based acrylic coatings containing SiO 2 nanoparticles obtained by batch miniemulsion polymerization. Coating materials have been characterized in terms of hydrophobic/hydrophilic behavior, mechanical resistance and surface morphology by means of water-contact angle, and scrub resistance and atomic force microscopy (AFM) measurements depending on silica-nanoparticle content. Moreover, accelerated weathering tests were performed to estimate the photo-oxidation resistance of the coatings. The chemical and color changes were assessed by Fourier-transform infrared spectroscopy (FTIR) and colorimetric measurements. Furthermore, the nanofilled coatings were applied on two different calcareous lithotypes (Lecce stone and Carrara Marble). Its properties, such as capillary water absorption and color modification, before and after accelerated aging tests, were assessed. The properties acquired by the addition of silica nanoparticles in the acrylic matrix can ensure good protection against weathering of stone-based materials.

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Synthesis and characterization of acrylic rubber/silica hybrid composites prepared by sol‐gel technique

Cited by 99 publications

References 17 publications

P(EMA-co-HEA)/SiO2 hybrid nanocomposites for guided dentin tissue regeneration: structure, characterization and bioactivity.

P(EMA-co-HEA)/SiO2 hybrid nanocomposites for guided dentin tissue regeneration: structure, characterization and bioactivity.

Water/Ethanol Selectivity of New Organic‐Inorganic Hybrid Membranes Fabricated from Poly(vinyl alcohol) and an Oligosilane

Waterborne Acrylate-Based Hybrid Coatings with Enhanced Resistance Properties on Stone Surfaces

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