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Makale / Article

morfolojisinin gözlemlenmesi ve birincil özelliklerinin flame retardant and functional polymer composites is
(hidrofiliklik, alkalilik, toksik olmama, antibakteriyel becoming increasingly widespread.
etki vb.) kullanılması, malzemenin endüstriyel uygu-
lamalarda kendine daha fazla yer bulmasını sağlamış-
tır. Magnezyum hidroksitin membran ve biyomalzeme
üretimi, kimyasal bileşiklerin tespiti, alev geciktirici
ve fonksiyonel polimer kompozitlerin oluşturulması
gibi amaçlarla kullanımı giderek yaygınlaşmaktadır.

Kaynaklar / References
[1] Suihkonen, R., Nevalainen, K., Orell, O., Honkanen, M., Tang, L., Zhang, H., [17] El Bouraie, M., & Masoud, A.A. (2017). Adsorption of phosphate ions
Zhang, Z., & Vuorinen, J. (2012). Performance of epoxy filled with nano- and from aqueous solution by modified bentonite with magnesium hydroxide
micro-sized magnesium hydroxide. Journal of Materials Science, 47, 1480- Mg(OH)2. Applied Clay Science, 140, 157-164.
1488. [18] Leblanc, J. L. (2009). Filled polymers: science industrial applications.
[2] Song, G., Ma, S., Tang, G., Yin, Z., & Wang, X. (2010). Preparation and CRC Press.
characterization of flame retardant form stable-phase change materials [19] Jung, W. K., Koo, H. C., Kim, K. W., Shin, S., Kim, S. H., & Park, Y. H.
composed by EPDM, paraffin and magnesium hydroxide. Energy, 35(5), (2008). Antibacterial activity and mechanism of action of silver ion in
2179-2183. Staphylococcus aureus and Escherichia coli. Applied and Environmental
[3] Ma, H., Chen, Z., & Mao, Z. (2013). Controlled growth of magnesium Microbiology, 74(7), 2171-2178.
hydroxide crystals and its effect on the high-temperature properties of [20] Yiğit, N. Ç. (2022). Alev geciktirici polimerlerin sentezine yönelik
cotton/magnesium hydroxide composites. Vacuum, 95, 1-5. güncel yaklaşımlar, Journal of Innovative Engineering and Natural Science,
[4] Wang, Q. (2015). Preparation and surface modification of Mg(OH) / 2 2(2), 95-113.
siloxane nanocomposite flame retardant. Journal of Polymer Engineering, [21] Moreira, F. K., Pedro, D. C., Glenn, G. M., Marconcini, J. M., & Mattoso,
35(2), 113-117. L. H. (2013). Brucite nanoplates reinforced starch bionanocomposites.
[5] Liu, L., Hu, J., Zhuo, J., Jiao, C., Chen, X., & Li, S. (2014). Synergistic flame Carbohydrate Polymers, 92(2), 1743-1751.
retardant effects between hollow glass microspheres and magnesium [22] Sung, G., Kim, J. W., & Kim, J. H. (2016). Fabrication of polyurethane
hydroxide in ethylene-vinyl acetate composites. Polymer Degradation and composite foams with magnesium hydroxide filler for improved sound
Stability, 104, 87-94. absorption. Journal of Industrial Engineering Chemistry, 44, 99-104.
[6] Hewitt, F., Rhebat, D.E., Witkowski, A., & Hull, T.R. (2016). An [23] Kong, X. J., Liu, S. M., & Zhao, J. Q. (2008). Flame retardancy effects
experimental and numerical model for the release of acetone from of surface-modified metal hydroxides on linear low density polyethylene.
decomposing EVA containing aluminium, magnesium or calcium hydroxide Journal of Central South University of Technology, 15(6), 779-785.
fire retardants. Polymer Degradation and Stability, 127, 65-78. [24] Morgan, A.B., & Wilkie, C. A. (Eds.) (2007). Flame retardant polymer
[7] Yu, J. C., Xu, A., Zhang, L., Song, R., & L. Wu. (2004). Synthesis and nanocomposites. John Wiley & Sons.
characterization of porous magnesium hydroxide and oxide nanoplates. The [25] Hui, X., & Deng, X. R. (2006). Preparation and properties of superfine
Journal of Physical Chemistry B, 108(1), 64-70. Mg(OH)2 flame retardant. Transactions of Nonferrous Metals Society of
[8] Al-Hazmi, F., Umar, A. Dar, G. N., Al-Ghamdi, A. A., Al-Sayari, S. A., China, 16(2), 488-492.
Al-Hajry, A., Kim, S. H., Al-Tuwirqi, R. M., Alnowaiserb, F., & El-Tantawy, F. [26] Hu, Y., & Li, S. (2007). The effects of magnesium hydroxide on flash
(2012). Microwave assisted rapid growth of Mg(OH)2 nanosheet networks pyrolysis of polystyrene. Journal of Analytical and Applied Pyrolysis, 78(1),
for ethanol chemical sensor application. Journal of Alloys and Compounds, 32-39.
519, 4-8. [27] Balakrishnan, H., Hassan, A., Isitman, N. A., & Kaynak, C. (2012). On
[9] Stankic, S., Müller, M., Diwald, O., Sterrer, M., Knözinger, E., & Bernardi, the use of magnesium hydroxide towards halogen-free flame-retarded
J. (2005). Size-dependent optical properties of MgO nanocubes. Angewandte polyamide-6/polypropylene blends. Polymer Degradation and Stability,
Chemie International Edition, 44(31), 4917-4920. 97(8), 1447-1457.
[10] Yin, Y., Zhang, G., & Xia, Y. (2002). Synthesis and characterization [28] Liany, Y., Tabei, A., Farsi, M., & Madanipour, M. (2013). Effect of nanoclay
of MgO nanowires through a vapor-phase precursor method. Advanced and magnesium hydroxide on some properties of HDPE/wheat straw
Functional Materials, 12(4), 293-298. composites. Fibers and Polymers, 14(2), 304-310.
[11] Samodi, A., Rashidi, A., Marjani, K., & Ketabi, S. (2013). Effects of [29] Jurkowski, B., Jurkowska, B., & Rydarowski, H. (2010). The flammability
surfactants, solvents and time on the morphology of MgO nanoparticles of polymeric materials. Poznan University.
prepared by the wet chemical method. Materials Letters, 109, 269-274. [30] Pilarska, A. A., Klapiszewski, Ł., & Jesionowski, T. (2017). Recent
[12] Li, S., Zhou, B., Ren, B., Xing, L., Tan, L., Dong, L., & Li, J. (2016). development in the synthesis, modification and application of Mg(OH) and
2
Preparation of MgO nanomaterials by microemulsion-based oil/water MgO: a review. Powder Technology, 319, 373-407.
interface precipitation. Materials Letters, 171, 204-207. [31] Bassioni, G., Farid, R., Mohamed, M., Hammoudac, M. R., & Kühn F. E.
[13] Dong, C., He, G., Li, H., Zhao, R., Han, T., & Deng, Y. (2012). Antifouling (2021). Effect of different parameters on caustic magnesia hydration and
enhancement of poly(vinylidene fluoride) microfiltration membrane by magnesium hydroxide rheology: a review. Materials Advances, 2, 6519-6531.
adding Mg(OH) nanoparticles. Journal of Membrane Science, 387, 40-47. [32] Jarosinski, A., Radomski, P., Lelek, L., & Kulczycka, J. (2020). New
2
[14] Eliaz, R. E., & Kost, J. (2000). Characterization of a polymeric PLGA- production route of magnesium hydroxide and related environmental
injectable implant delivery system for the controlled release of proteins. impact. Sustainability, 12(21), 8822.
Journal of Biomedical Materials Research: an Official Journal of the Society [33] İnternet, https://www.mta.gov.tr/v3.0/bilgi-merkezi/brusit, Erişim
for Biomaterials, the Japanese Society for Biomaterials, and the Australian tarihi: 27.04.2024.
Society for Biomaterials and the Korean Society for Biomaterials, 50(3), [34] İnternet, https://www.starplas.com.tr/en/magnesium-hydroxide/,
388-396. Erişim tarihi: 28.04.2024.
[15] Li, H., Liu, S., Zhao, J., & Feng, N. (2016). Removal of reactive dyes from [35] İnternet, https://www.hoyonn.com/product/magnesium-hydroxide/,
wastewater assisted with kaolin clay by magnesium hydroxide coagulation Erişim tarihi: 28.04.2024.
process. Colloids and Surfaces A: Physicochemical and Engineering Aspects,
494, 222-227.
[16] Wang, K., Zhao, J., Li, H., Zhang, X., & Shi, H. (2016). Removal of
cadmium (II) from aqueous solution by granular activated carbon supported
magnesium hydroxide. Journal of the Taiwan Institute of Chemical
Engineers, 61, 287-291.
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