Fluorine‐Containing Polymers, Poly(Vinylidene Fluoride)

Dohany, Julius E.

doi:10.1002/0471238961.1615122504150801.a01

Cited by 36 publications

(28 citation statements)

References 75 publications

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“…Furthermore, it was shown that the ratio of reverse tail-to-tail addition decreased from 50%, for the first addition of these adducts, to a limit similar to that of PVDF, i.e. 10%, when the chain length increased [1] Generally, the literature reports various defects of chain formation between 6%and 9% for PVDF [2][3][4] or for oligo poly(vinylidenefluoride)(PVDF) [5][6][7] and between 5% and 10% for VDF telomers [8][9][10][11][12]. Recent work has also reported a value of 2.5% from fractionated CF 3-(VDF)-I telomers [13].…”

Section: Introductionmentioning

confidence: 99%

Fluorine-19 solid state NMR study of vinylidenefluoride polymers using selective relaxation filters

Wormald

Améduri

Harris

et al. 2006

Solid State Nuclear Magnetic Resonance

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Section: Introductionmentioning

confidence: 99%

Fluorine-19 solid state NMR study of vinylidenefluoride polymers using selective relaxation filters

Wormald

Améduri

Harris

et al. 2006

Solid State Nuclear Magnetic Resonance

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“…The 15 dry coatings have a thickness of 25.7 AE 4.3 mm. Considering the atomic composition of some of the standard samples and their density (~1.4 g/cm 3 ), we calculated infinite thickness conditions for the XRF analysis by using the software 'XrfTable for Windows'. [11] Results of the calculation indicated that the smallest thickness required to meet infinite thickness conditions was 12 mm for the fluorine Ka line and 5.5 mm for the oxygen Ka line.…”

Section: Development Of Calibration Curves With Clear Coat Standardsmentioning

confidence: 99%

“…Paints using poly (vinylidene fluoride) in particular have a 50-year record history of outstanding performance linked to chemical resistance, durability, adhesion, and low dirt retention, as well as good moisture and fungus resistance. [1][2][3] Classic paint formulation on organic solvent technology, whereas modern paint formulation is based on latex technologies where the polymeric phases and pigments are suspended in an aqueous solvent, thus eliminating the negative environmental impact of the use of organic solvents. Such formulations involve multiple components addressing the need for longevity (weatherability), adhesion, color, and structural integrity.…”

mentioning

confidence: 99%

Fluoropolymer‐based clear and white paint coatings composition analysis by X‐Ray fluorescence

Ricou

Wood

2013

X-Ray Spectrometry

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A new method for the quantification of organic and inorganic phase fractions was developed for fluoropolymer/acrylic-blend paints -clear and white paint coatings -on aluminum panels by using wavelength dispersive X-ray fluorescence spectrometry (WDXRF). The method was developed for clear coat samples (only containing fluoropolymer and acrylic phases) as well as white paint samples by also measuring silica and titanium dioxide levels. Both WDXRF and X-ray photoelectron spectroscopy (XPS), a surface technique, were investigated. For clear coat samples, we found that WDXRF provided far superior quantitative results to XPS, likely related to the extreme surface sensitivity of XPS, in this case a drawback more than a strength. For white paint samples, the X-ray fluorescence spectrometry method achieved a relative accuracy typically better than 5% for the organic phases and better than 2% for the inorganic phases, for measurements on 8-mm diameter samples. Copyright © 2013 John Wiley & Sons, Ltd. IntroductionFluoropolymer-based coatings are used in a wide variety of applications including outdoor architectural coatings, [1][2][3] medical devices, [4] marine coatings, [5,6] or cookware, to name a few. In the architectural market, fluoropolymer-based paint formulations represent the high-end segment because of their chemical resistance and weatherability, allowing decades of unaltered outdoor color and performance. Paints using poly (vinylidene fluoride) in particular have a 50-year record history of outstanding performance linked to chemical resistance, durability, adhesion, and low dirt retention, as well as good moisture and fungus resistance. [1][2][3] Classic paint formulation on organic solvent technology, whereas modern paint formulation is based on latex technologies where the polymeric phases and pigments are suspended in an aqueous solvent, thus eliminating the negative environmental impact of the use of organic solvents. Such formulations involve multiple components addressing the need for longevity (weatherability), adhesion, color, and structural integrity. The analysis of dry paints (coatings) typically involves a number of techniques aimed at analyzing the organic and inorganic components of the paint. Spectroscopy techniques such as Fourier transform infrared/attenuated total reflectance, nuclear magnetic resonance (NMR), pyrolysis gas chromatography mass spectroscopy, matrix-assisted laser desorption/ionization mass spectroscopy, and thermal gravimetric analysis among others can contribute information to the identification and/or quantification of some of the components, organic or inorganic, that are part of the coating composition. [7,8] X-ray-based techniques could also be a valuable asset by providing information on the organic and inorganic paint components while achieving speed of analysis similar to vibrational techniques, an important aspect for quality control considerations. Christensen et al.[9] used energy-dispersive X-ray fluorescence to measure a series of elements ranging from aluminum to ...

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“…The commercial PVDF polymer is generally produced by polymerization process in emulsion or suspension using free radical initiators and forming a repeating unit of -CH 2 -CF 2 -. The spatial arrangement of the CH 2 and CF 2 groups along the polymer chain have the main effect on the unique properties of PVDF materials in generated from considering the crystalline structure [2]. One of considerable methods to produce PVDF fiber is electrospinning process.…”

Section: Introductionmentioning

confidence: 99%

Untitled

2017

JTEFT

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Poly Vinylidene Fluoride (PVDF) because of its piezoelectric properties has been applied in different applications such as smart textiles, medical application and membranes for energy harvesting. It was declared that nanofibres diameters and electrospinning parameters could be enhanced the piezoelectric properties of these materials. The main objective of this paper is applying the Genetic Algorithm (GA) to determine the optimum condition of solution parameters and processing conditions based on the desired diameter size of PVDF fibers to produce the fibers without any structural faults. In this method, The Fitness function was determined by a simple analytical model presented by Fridrikh. Toward approving the GA results the experimental tests were done. the effect of four parameters such as flow rate of the polymer solution, electrospinning voltage, electrospinning distance and polymer concentration on the fiber formation and fiber diameter size of electrospun PVDF fibers have been explored by Scanning Electron Microscopy (SEM) to attest the accuracy of the model. Assessment of experimental and theoretical results show that electrospinning parameters determined by GA method leads to achieve desire fiber diameters. Because of time and energy consuming of electrospinning process, the GA method may be useful to achieve desired fiber diameter by determining electrospinning parameters for polymers prior to fiber production.

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Fluorine‐Containing Polymers, Poly(Vinylidene Fluoride)

Cited by 36 publications

References 75 publications

Fluorine-19 solid state NMR study of vinylidenefluoride polymers using selective relaxation filters

Fluorine-19 solid state NMR study of vinylidenefluoride polymers using selective relaxation filters

Fluoropolymer‐based clear and white paint coatings composition analysis by X‐Ray fluorescence

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