Synthesis and Properties of Adhesive Polymer-Methylmethacrylate Materials

Khromiak, Ulyana; Levytskyi, Volodymyr; Stepova, Kateryna; Tarnawsky, Andry

doi:10.1155/2018/4905304

Cited by 16 publications

(12 citation statements)

References 15 publications

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“…The reaction condition was carried out at 65-75°C, with an agitation speed was 300 rpm during 4 hours of reaction time. These system reactions were applied by the latest study of the reaction between VAM and APS [9]. The reaction may run in a closed system to avoid the decomposition of APS at higher temperatures [10].…”

Section: Resultsmentioning

confidence: 99%

The Influence of Surfactant and Protective Colloid on Polyvinyl Acetate Emulsion Synthesized by Emulsion Polymerization Technique

Jaya

Hafizah

Manaf

et al. 2020

SPEKTRA

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A series of experiments have been carried out and reported. This report describes the stages of the polymerization reaction during emulsion Polyvinyl Acetate (PVAc) synthesis. PVAc was synthesized from the Vinyl Acetate Monomer (VAM) with Ammonium Peroxydisulphate (APS) as an inorganic thermal initiator in the aqueous media under reaction temperature was keep at 65 until 75oCs by agitation speed was 300 rpm respectively during 4 hours of reaction time. The protective colloid agents and several types of surfactants were added to improve the obtained emulsion PVAc performance. The polymerization reaction was carried out without the addition of a protective colloid agent. The surfactants were produced the emulsion PVAc with the properties of solid content 0.89%, density 1.02 g/ml, viscosity 0.0033 Poise, pH 2.8, conductivity 12 ms, respectively. While the polymerization reaction involved protective colloid agents by using Polyvinyl Alcohol (PVOH) was obtained properties of emulsion PVAc with Solid Content 4.36%, density 1.17 g/ml, viscosity 0.0216 Poise, pH 2.8, and conductivity 10 ms respectively. The same thing was shown when the surfactant was present in the polymerization reaction. The emulsion PVAc was synthesized with nonionic surfactant has solid content 8.20%, density 1.17 g/ml, viscosity 0.0099 Poise, pH 2.8, and conductivity 7 ms, the result is better rather than synthesized with anionic surfactant has solid content 2.65%, density 1.13 g/ml, viscosity 0.0068 Poise, pH 2.8, and conductivity 11 ms. According to the preliminary observations obtained, emulsion PVAc’s appearance is better when the protective colloid agents and the surfactant is present rather than without additional those substances. The physical properties of emulsion were depended on the addition of protective colloid agents and surfactants. In addition, the complete reaction indicated by solid content value was obtained from emulsion when the additional substances were present. All the testing parameters were observed using Viscometer Ostwald, Pycnometer, pH Meter, FTIR Spectrophotometer, Conductometer, and another supporting testing to explain the polymerization reaction stage of synthesis emulsion PVAc.

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Section: Resultsmentioning

confidence: 99%

The Influence of Surfactant and Protective Colloid on Polyvinyl Acetate Emulsion Synthesized by Emulsion Polymerization Technique

Jaya

Hafizah

Manaf

et al. 2020

SPEKTRA

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“…This is imperative because a predominantly weak associative effect would not necessarily guarantee the needed rheological impact in terms of recovery efficiency even if polymer injectivity is not affected. (Pu and Xu, 2009) Gudong HPAM 68.0 3022 (Zhijian et al, 1998) Bohai Bay HPAM 65.0 6070 (Mogollon and Lokhandwala, 2013) Xing Long Tai HPAM 56.6 3112 (Zhang et al, 1999) Bohai oil field HAPAM 65.0 32423 (Han et al, 2006) Henan oil field HPAM 75.0 5060 (Chen et al, 1998) Shengli HPAM 70.0 10000 (Gao, 2014) USA Cambridge Minnelusa PAM 55.6 Not specified (Vargo et al, 2000) Tambaredjo HPAM 36.0 Not Specified (Mogollon and Lokhandwala, 2013) Tanner PAM 80.0 66800 (P) a (Pitts et al, 2006) West Khiel HPAM 57.0 46,480 (P) a (Meyers et al, 1992) Canada Pelican HPAM 23.0 6800 (Mogollon and Lokhandwala, 2013) David pool PAM 31.0 6660 (I) b (Pitts et al, 2004 (Algi and Okay, 2014;Fang et al, 2016) 2-vinylnaphtahlene (Zeng et al, 2002) Methacrylic Acid (Fernyhough et al, 2009;Bang et al, 2017) N-vinylpyrrolidinone (Taghizadeh and Foroutan, 2004;Willersinn and Schmidt, 2017) 4-vinylbenzenesulfonate (Kang et al, 2015) 2-Acrylamido-2-methyl-1-propanesulfonic acid (Çavuş, 2010;Kundakci et al, 2011) Methyl methacrylate (Cilurzo et al, 2014;Khromiak et al, 2018) Poly(propylene glycol) methacrylate (Shemper et al, 2002) Sodium vinylsulfonate (Mori et al, 2010;Mori et al, 2012) Carboxymethyl cellulose (Han et al, 2010;Han et al, 2013) N-phenylacrylamide (Zhou and Lai, 2004) N-tert-Octylacrylamide (Zhu et al, 2012) N-dodecylacrylamide…”

Section: Conclusion and Recommendationsmentioning

confidence: 99%

Hydrophobically associating polymers for enhanced oil recovery – Part A: A review on the effects of some key reservoir conditions

Afolabi

Oluyemi

Officer

et al. 2019

Journal of Petroleum Science and Engineering

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Research advancement in polymer flooding for Enhanced Oil Recovery (EOR) has been growing over the last decade. This growth can be tied to increased funding towards the development of superior polymers such as hydrophobically associating polymers when oil prices were high and increasing concern that "easy oil" has been exploited with the focus now on "difficult to extract" oil. The use of hydrophobically associating polymers for EOR was discussed along with its limitations. In this context, the improved rheological properties of associating polymers cannot only be linked to the molecular structures arising from different synthesis methods. Equally, external parameters similar to conditions of oil reservoirs affect the rheological properties of these polymers. As such, this review placed critical emphasis on the molecular architecture of the polymer and the synthesis route and this was linked to the observed rheological properties. In addition, the influence of some key oilfield parameters such as temperature, salinity, pH, and reservoir heterogeneity on the rheological behaviour of hydrophobically associating polymers were reviewed. In this respect, the various findings garnered in understanding the correlation between polymer rheological properties and oilfield parameters were critically reviewed. For associating polymers, an understanding of the molecular architecture (and hence the synthesis method) is crucial for its successful design. However, this must be theoretically linked to the preferred EOR application requirements (based on oilfield parameters).

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“…The flow behaviour of HAPAM polymers investigated with the use of viscometers and rheometers has been reported in literature (Huaiping et al, 2008;Chen et al, 2012;Deen 2012;Guo et al, 2012;Deng et al, 2014;Li et al, 2017;Khromiak et al, 2018). The property of interest is the bulk polymer viscosity which is measured under steady-state conditions (Ponjavic et al, 2015).…”

Section: The Flow Of Hydrophobically Associating Polymers In Porous Mmentioning

confidence: 99%

Hydrophobically associating polymers for enhanced oil recovery – Part B: A review of modelling approach to flow in porous media

Afolabi

Oluyemi

Officer

et al. 2019

Journal of Molecular Liquids

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This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.

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Synthesis and Properties of Adhesive Polymer-Methylmethacrylate Materials

Cited by 16 publications

References 15 publications

The Influence of Surfactant and Protective Colloid on Polyvinyl Acetate Emulsion Synthesized by Emulsion Polymerization Technique

The Influence of Surfactant and Protective Colloid on Polyvinyl Acetate Emulsion Synthesized by Emulsion Polymerization Technique

Hydrophobically associating polymers for enhanced oil recovery – Part A: A review on the effects of some key reservoir conditions

Hydrophobically associating polymers for enhanced oil recovery – Part B: A review of modelling approach to flow in porous media

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