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Artículos de revistas sobre el tema "Acrylic latex"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 5 de febrero de 2022

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1

Li, Meng, Weifeng Liu, Qi Zhang, and Shiping Zhu. "Mechanical Force Sensitive Acrylic Latex Coating." ACS Applied Materials & Interfaces 9, no. 17 (2017): 15156–63. http://dx.doi.org/10.1021/acsami.7b04154.

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2

Montesinos-Gómez, Rosa, Rodolfo Reynoso, Francisco J. Rodríguez-Gómez, Yuri Reyes-Mercado, and Flavio Vázquez. "Latex film performance of styrene-acrylic particles functionalized with acrylic acid." Journal of Applied Polymer Science 113, no. 1 (2009): 553–57. http://dx.doi.org/10.1002/app.30130.

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3

Dragnevski, Kalin I., and Athene M. Donald. "Microstructural evolution of a novel acrylic latex." Progress in Organic Coatings 61, no. 1 (2008): 63–67. http://dx.doi.org/10.1016/j.porgcoat.2007.09.002.

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4

Kukanja, Dolores, Janvit Golob, and Matja? Krajnc. "Kinetic investigations of acrylic-polyurethane composite latex." Journal of Applied Polymer Science 84, no. 14 (2002): 2639–49. http://dx.doi.org/10.1002/app.10440.

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5

Jiang, Yong Jing, Lei Li, Hong Song Wang, Rui Wang, and Qian Tian. "Influence of Acrylic Emulsion on Polymer-Cement Waterproof Coating." Advanced Materials Research 1129 (November 2015): 263–69. http://dx.doi.org/10.4028/www.scientific.net/amr.1129.263.

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In this study, effects of polymer-cement (P/C) ratio, glass transition temperature (Tg); amounts of functional monomers (acrylic acid, hydroxypropyl methacrylate, ammonium polyacrylate, diacetone acrylamide) on properties of polymer cement mortar were investigated. According of the tensile test, breaking elongation (ε) and the tensile strength (δ) of polymer latex-cement composites with low P/C ratio were mainly depended on Tg, differential Tg value between layer and shell in acrylic latex (ΔTg) and the amounts of functional monomer. Additionally, at a low P/C ratio, it was found that the cros
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6

Soto, N., M. Sanmiguel, Y. Reyes, M. A. Domínguez, Y. Duda, and F. Vázquez. "On the Adhesive Properties of Vinyl-Acrylic Latex Particles Functionalized with Acrylic Acid." International Journal of Polymeric Materials 55, no. 3 (2006): 187–201. http://dx.doi.org/10.1080/009140390925107.

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7

Dragnevski, Kalin I., Athene M. Donald, Phil Taylor, Martin W. Murray, Elizabeth L. Bone, and Simon J. Davies. "Structure–property relationship in aging acrylic latex films." Progress in Organic Coatings 65, no. 1 (2009): 19–24. http://dx.doi.org/10.1016/j.porgcoat.2008.09.002.

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8

Córdoba, Carlos A., Sebastián E. Collins, Mario C. G. Passeggi, Santiago E. Vaillard, Luis M. Gugliotta, and Roque J. Minari. "Crosslinkable acrylic-melamine latex produced by miniemulsion polymerization." Progress in Organic Coatings 118 (May 2018): 82–90. http://dx.doi.org/10.1016/j.porgcoat.2018.01.013.

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9

Ulrich, Bridget, Timothy C. Frank, Alon McCormick, and E. L. Cussler. "Membrane-assisted VOC removal from aqueous acrylic latex." Journal of Membrane Science 452 (February 2014): 426–32. http://dx.doi.org/10.1016/j.memsci.2013.10.025.

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10

Wu, S., and M. D. Soucek. "Crosslinking of acrylic latex coatings with cycloaliphatic diepoxide." Polymer 41, no. 6 (2000): 2017–28. http://dx.doi.org/10.1016/s0032-3861(99)00370-5.

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11

Qian, Xiaoyan, Aiping Zhu, and Lijun Ji. "Organosilicone modified styrene-acrylic latex: preparation and application." Polymer Bulletin 70, no. 8 (2013): 2373–85. http://dx.doi.org/10.1007/s00289-013-0958-4.

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12

Agarwal, N., and R. J. Farris. "Mechanical properties of acrylic based latex blend coatings." Polymer Engineering & Science 40, no. 2 (2000): 376–90. http://dx.doi.org/10.1002/pen.11171.

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13

Chen, Lijun, Tantan Shao, Xin Zhang, Xiuming Wang, and Dawei Chen. "Properties and characterization of acrylic latex prepared with novel emulsifiers." Polymers from Renewable Resources 9, no. 3-4 (2018): 145–51. http://dx.doi.org/10.1177/2041247918796002.

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The polyacrylate latex has been successfully prepared by semicontinuous seeded emulsion polymerization with methyl methacrylate (MMA), butyl acrylate (BA), and acrylic acid (AA), which were initiated with potassium persulfate and emulsified with the novel green mixed surfactants of alkyl polyglycoside (APG1214) and disodium laureth sulfosuccinate (MES). The particle size of the latex was measured by Zetatrac dynamic light scattering detector. The structure of the latex was tested by Fourier-transform infrared spectroscopy. The film of latex was tested by differential scanning calorimetry and t
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14

Alomari, Munther, Arwa Almahasheer, Balasamy Rabindran Jermy, et al. "Impact of Poly (Styrene–Acrylic Acid) Latex Nanoparticles on Colorectal and Cervical Cancer Cells." Polymers 13, no. 13 (2021): 2025. http://dx.doi.org/10.3390/polym13132025.

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Polymer nanoparticles are a promising approach for cancer treatment and detection, due to their biocompatibility, biodegradability, targeting capabilities, capacity for drug loading and long blood circulation time. This study aims to evaluate the impact of poly (styrene–acrylic acid) latex particles on colorectal and cervical cancer cells for anti-tumor efficiency. Latex particles were synthesized by a surfactant-free radical emulsion polymerization process and the obtained polymer particles were characterized in terms of size, size distribution, morphology using scanning electron microscopy (
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15

Rane, Ajay Vasudeo, Vayyaprontavida Kaliyathan Abitha, Deepak Patil, and Vasudevan Pillai Rajamma Amma Remya. "Synthesis and Characterization of Siloxane Containing Styrene-Acrylic/Acrylic Latex Systems Through Emulsion Polymerization." Journal of Siberian Federal University. Chemistry 8, no. 4 (2015): 590–619. http://dx.doi.org/10.17516/1998-2836-2015-8-4-590-619.

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16

He, Lang, Yue Yu, Zhengwei Cai, Di Wang, and Xinlin Hong. "A novel alkali and cosolvent thickening mechanism for latex." New Journal of Chemistry 39, no. 11 (2015): 8984–92. http://dx.doi.org/10.1039/c5nj01945a.

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17

Homa, Piotr, Beata Tryba, and Andżelika Gęsikiewicz-Puchalska. "Impact of paint matrix composition and thickness of paint layer on the activity of photocatalytic paints." Polish Journal of Chemical Technology 19, no. 1 (2017): 113–19. http://dx.doi.org/10.1515/pjct-2017-0016.

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Abstract Silicate, acrylic and latex photocatalytic paints were analyzed in regards to impact of paint matrix composition and paint layer’s thickness on performance in two photocatalytic tests. These included performances in photocatalytic decomposition of benzo[a]pyrene (BaP) and assessment of photocatalytic activity through use of smart ink test. Silicate photocatalytic paints displayed lower photocatalytic activity in comparison to acrylic and latex photocatalytic paints in both tests, despite the similar content of nanocrystalline TiO2. Measurements of depth of UV light penetration through
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18

Yi, Wang, Chen Zhonghua, and Yu Fei. "Coalescing Aid Influences on Acrylic Latexes Property and Film Formation Process." Indian Journal of Materials Science 2016 (December 26, 2016): 1–8. http://dx.doi.org/10.1155/2016/1380791.

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The coalescing aid of propylene glycol phenyl ether (PPh) influences on the latexes system and its film formation process have been demonstrated in this paper. The latexes with different Tg are synthesized by seeded semicontinuous emulsion polymerization. The PPh have a significant impact on the water evaporation stage, in which PPh decreased the water evaporation rate for a low Tg latex system but accelerated the rate for a high Tg latex. This result was quantified using Routh-Russel model which was a useful model for the prediction of the latex particle deformation mechanisms. The different
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19

Shaffer, O. L., M. W. Sandor, and M. S. El-Aasser. "The Morphology of Carboxylated Composite Latex and Latex Film." Microscopy and Microanalysis 4, S2 (1998): 826–27. http://dx.doi.org/10.1017/s1431927600024259.

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Carboxylated latex has become very important in the formation of polymer films. In order to study the film and its properties it is important to know the morphology of the latex that is forming the film. The latex for this study has been examined by transmission electron microscopy(TEM) using positive preferential stains such as ruthenium tetroxide (RuO4) and cesium hydroxide(CsOH); and uranyl acetate(UAc) as a negative stain.The polybutyl acrylate(PBA)/ polymethylmethacrylate(PMMA) composite latex particles consist of a soft core phase and a hard second phase with varying amounts of acrylic a
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20

Carter, Matthew C. D., Liang Chen, Robert S. Moglia, et al. "Design and Fabrication of Polyolefin–Acrylic Hybrid Latex Particles." ACS Applied Polymer Materials 1, no. 11 (2019): 3185–95. http://dx.doi.org/10.1021/acsapm.9b00848.

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21

Xiong, Mingna, Limin Wu, Shuxue Zhou, and Bo You. "Preparation and characterization of acrylic latex/nano-SiO2 composites." Polymer International 51, no. 8 (2002): 693–98. http://dx.doi.org/10.1002/pi.968.

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22

He, Qiyang, Limin Wu, Guangxin Gu, and Bo You. "Preparation and Characterization of Acrylic/Nano-TiO2 Composite Latex." High Performance Polymers 14, no. 4 (2002): 383–96. http://dx.doi.org/10.1177/095400830201400405.

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23

Jinks, Douglas D., and Michael J. Matteson. "Drying of Latex Backcoated Acrylic Fabrics: Heat Transfer Coefficients." Textile Research Journal 58, no. 12 (1988): 681–88. http://dx.doi.org/10.1177/004051758805801201.

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Drying and curing tests were performed in a laboratory scale dryer on dyed tufted acrylic fabrics and the latex adhesive backcoating to obtain heat transfer coefficients as a function of the mass velocity of air flowing through the fabric. Treating the fabric as a packed bed of cylindrically shaped fibers, equations were developed making it possible to calculate the flow-through velocity Gtf from measured air velocities directed at the upper and lower faces of the fabric. Correlations obtained for the heat transfer coefficients were h = 2.22 Gtf0.47 for fabric drying and h = 4.84 Gtf0.32 for c
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24

Wang, Hongsheng, Fangfang Yang, Aiping Zhu, Ting Lu, Fantao Kong, and Lijun Ji. "Preparation and reticulation of styrene acrylic/epoxy complex latex." Polymer Bulletin 71, no. 6 (2014): 1523–37. http://dx.doi.org/10.1007/s00289-014-1139-9.

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25

Xue-min, Cui, Ouyang Shi-xi, Huang Yong, Yu Zhi-yong, Zhao Shi-ke, and Wang Chang-an. "Aqueous tape casting process with styrene-acrylic latex binder." Journal of Wuhan University of Technology-Mater. Sci. Ed. 19, no. 3 (2004): 90–93. http://dx.doi.org/10.1007/bf02835071.

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26

Klein, Guillaume, Vincent Le Houérou, René Muller, Christian Gauthier, and Yves Holl. "Friction properties of acrylic-carboxylated latex films—1: Effects of acrylic acid concentration and pH." Tribology International 53 (September 2012): 142–49. http://dx.doi.org/10.1016/j.triboint.2012.04.004.

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27

Zhou, Shuxue, Mingna Xiong, and Limin Wu. "The Properties of High Solid Acrylic Based Polyurethane and Acrylic Latex Embedded with Nano-silica." JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 36, no. 10 (2003): 1263–69. http://dx.doi.org/10.1252/jcej.36.1263.

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28

Barbosa, Joana V., Jorge Moniz, Adélio Mendes, Fernão D. Magalhães, and Margarida M. S. M. Bastos. "Incorporation of an acrylic fatty acid derivative as comonomer for oxidative cure in acrylic latex." Journal of Coatings Technology and Research 11, no. 5 (2014): 765–73. http://dx.doi.org/10.1007/s11998-014-9582-y.

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29

St Thomas, Claude, Ramiro Guerrero-Santos, and Franck D'Agosto. "Alkoxyamine-functionalized latex nanoparticles through RAFT polymerization-induced self-assembly in water." Polymer Chemistry 6, no. 30 (2015): 5405–13. http://dx.doi.org/10.1039/c5py00699f.

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30

Wang, Pei, Xia Zhen Zhang, Teng Yu, Li Na Heng, Xie Wei Chen, and Lian Liu. "Water-Based Coatings for Building Part II: Preparation and Physical Properties of Fluorosilicone Acrylic Emulsions." Applied Mechanics and Materials 174-177 (May 2012): 1223–26. http://dx.doi.org/10.4028/www.scientific.net/amm.174-177.1223.

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This paper presented the synthesis of fluorosilicone copolymer latex with dodecafluoroheptyl methacrylate(G04), vinyl triethoxysilane(DB-151), methyl methacrylate(MMA) acrylic acid(AA), butyl acrylate(BA) by emulsion copolymerization and characterized by FTIR. The physical properties are also measured by particle sizes and distributions, water absorption, pencil hardness, circle adhesion method, etc. The obtained fluorosilicone latex showed us excellent comprehensive performance compared to the common acrylate latex.
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31

Boussiron, Charlène, Mickaël Le Bechec, Julia Sabalot, Sylvie Lacombe, and Maud Save. "Photoactive rose bengal-based latex via RAFT emulsion polymerization-induced self-assembly." Polymer Chemistry 12, no. 1 (2021): 134–47. http://dx.doi.org/10.1039/d0py01128b.

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32

Shahani, A., D. A. Shiffler, S. K. Batra, and Charles A. Cannon. "Foamed Latex Bonding of Spunlace Fabrics to Improve Physical Properties." International Nonwovens Journal os-8, no. 2 (1999): 1558925099OS—80. http://dx.doi.org/10.1177/1558925099os-800217.

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Strength, abrasion resistance, load at 5% strain (modulus), and strain recovery of dry lay spunlace fabric are improved by the addition of small amounts (≤5%) of acrylic latex binder in the form of a collapsible foam. Bending rigidity is somewhat increased.
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33

Chen, Daoyuan, Mingjin Ding, Zhixiong Huang, and Yanbing Wang. "Styrene–Acrylic Emulsion with “Transition Layer” for Damping Coating: Synthesis and Characterization." Polymers 13, no. 9 (2021): 1406. http://dx.doi.org/10.3390/polym13091406.

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In order to study the dynamic mechanical properties of styrene–acrylic latex with a core/shell structure, a variety of latexes were synthesized by semi-continuous seeded emulsion polymerization based on “particle design” with the same material. The latexes were characterized by rotary viscosimeter, dynamic light scattering (DLS), Fourier transform infrared spectroscopy (FTIR), transmission electron microscope (TEM), dynamic mechanical analysis (DMA), and universal testing machine. The effects of difference at the glass transition temperature (Tg) of core and shell and the introduction of the “
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34

Pei, Shihong, Yue Zhao, and Zixu Wang. "Organosilicone Modified Styrene-Acrylic Latex: Preparation and Crude Oil Dehydration." Tenside Surfactants Detergents 55, no. 1 (2018): 71–77. http://dx.doi.org/10.3139/113.110534.

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35

Anagnostopoulos, Costas A., and Angelos Patsios. "Effect of acrylic latex on the properties of cement grouts." Proceedings of the Institution of Civil Engineers - Construction Materials 172, no. 3 (2019): 144–54. http://dx.doi.org/10.1680/jcoma.16.00012.

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36

Kumar. "Acrylic Rubber Latex in Ferrocement for Strengthening Reinforced Concrete Beams." American Journal of Engineering and Applied Sciences 3, no. 2 (2010): 277–85. http://dx.doi.org/10.3844/ajeassp.2010.277.285.

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37

Jiang, Yang, Yunchong Zhang, Lei Ding, et al. "Sag control of waterborne acrylic latex with regenerated nanocellulose suspension." Progress in Organic Coatings 123 (October 2018): 146–52. http://dx.doi.org/10.1016/j.porgcoat.2018.07.004.

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38

Plummer, Christopher J. G., Riccardo Ruggerone, Elodie Bourgeat-Lami, and Jan-Anders E. Månson. "Small strain mechanical properties of latex-based acrylic nanocomposite films." Polymer 52, no. 9 (2011): 2009–15. http://dx.doi.org/10.1016/j.polymer.2011.02.038.

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39

Çolak, Adnan. "Characteristics of acrylic latex-modified and partially epoxy-impregnated gypsum." Cement and Concrete Research 31, no. 11 (2001): 1539–47. http://dx.doi.org/10.1016/s0008-8846(01)00575-0.

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40

Mohanty, P. S., R. Kesavamoorthy, Kozo Matsumoto, Hideki Matsuoka, and K. A. Venkatesan. "Synthesis and Characterization of Charged Polystyrene−Acrylic Acid Latex Particles." Langmuir 22, no. 10 (2006): 4552–57. http://dx.doi.org/10.1021/la052995a.

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41

MAKUUCHI, Keizo, and Kyogo TSUSHIMA. "Radiation vulcanization of natural rubber latex with monofunctional acrylic monomers." NIPPON GOMU KYOKAISHI 61, no. 7 (1988): 478–82. http://dx.doi.org/10.2324/gomu.61.478.

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42

Shin, Jin-Sup, Doug-Youn Lee, and Jung-Hyun Kim. "Preparation of ethylene-modified latex using ethylene-acrylic acid resin." Macromolecular Symposia 151, no. 1 (2000): 509–14. http://dx.doi.org/10.1002/1521-3900(200002)151:1<509::aid-masy509>3.0.co;2-t.

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43

Wang, Ru, and Peiming Wang. "Function of styrene-acrylic ester copolymer latex in cement mortar." Materials and Structures 43, no. 4 (2009): 443–51. http://dx.doi.org/10.1617/s11527-009-9501-3.

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44

Chen, Lijun, and Wei Jiang. "Preparation and Properties of Fluorinated Acrylic Latex Modified with Rosin." Polymers from Renewable Resources 4, no. 3 (2013): 123–32. http://dx.doi.org/10.1177/204124791300400302.

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45

Hanus, Leo H., Robert U. Hartzler, and Norman J. Wagner. "Electrolyte-Induced Aggregation of Acrylic Latex. 1. Dilute Particle Concentrations." Langmuir 17, no. 11 (2001): 3136–47. http://dx.doi.org/10.1021/la000927c.

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46

Eckersley, Sarah T., Alan Plumtree, and Alfred Rudin. "High speed tensile performance and fractography of acrylic latex films." Journal of Applied Polymer Science 48, no. 10 (1993): 1689–700. http://dx.doi.org/10.1002/app.1993.070481001.

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47

Tamai, H., H. Kiyota, and T. Suzawa. "Surface properties of polymethylenediamine-fixed styrene/acrylic acid copolymer latex." Journal of Applied Polymer Science 45, no. 1 (1992): 85–89. http://dx.doi.org/10.1002/app.1992.070450110.

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48

Brown, RFG, and C. Carr. "Preparation of concentrated polydisperse acrylic latex dispersions by secondary nucleation." Surface Coatings International Part B: Coatings Transactions 86, no. 3 (2003): 217–20. http://dx.doi.org/10.1007/bf02699656.

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49

Hemalatha, Jadav, Chandramohan Kavitha, and Keereyadath Priya Dasan. "Nano ZnO/acrylic coating for antifouling applications." Science and Engineering of Composite Materials 19, no. 4 (2012): 357–60. http://dx.doi.org/10.1515/secm-2011-0147.

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AbstractFouling causes huge material and economic costs in maintenance of mariculture, shipping, naval vessels, and seawater pipelines, etc. Prevention of biofouling is an important property expected of coatings in these fields. In the present work, we prepared nano ZnO/acrylic latex by mechanical mixing as well as by the in situ method. The effect of nanoparticles on the drying of coatings and their antimicrobial nature were investigated.
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50

Ran, Qianping, Zhen Huang, Xin Shu, Yong Yang, and Zhiyong Zhang. "A novel and controllable route for preparing high solid-content and low-viscosity poly(acrylamide-co-acrylic acid) aqueous latex dispersions." RSC Advances 5, no. 70 (2015): 56645–52. http://dx.doi.org/10.1039/c5ra07410j.

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High solid-content and low-viscosity poly(acrylamide-co-acrylic acid) aqueous latex dispersions were obtained through a novel strategy, which involves swelling followed by diffusion and redox initialized polymerization inside the seed particle.
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