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    Journals >Journal of Inorganic Materials >Volume 34 >Issue 7 >Page 761 > Article
    • Journal of Inorganic Materials
    • Vol. 34, Issue 7, 761 (2019)
    Strontium Hydroxystannate Nanorods Encapsulated by Hybrid Polyphosphazene: Synthesis and Flame Retardancy on Epoxy Resin
    Chong ZHANG1, Xiao-Wei GENG1, Xiang-Di GAO1, Xin ZHANG1, Rao GUO1, Yu-Jing WANG1, Jian-Zhong XU1, and Hai-Yun MA1、2、*
    Author Affiliations
  • 1School of Chemistry and Environmental Sciences, Hebei University, Baoding 071002, China
  • 2Key Laboratory of Analytical Science and Technology of Hebei Province, Hebei University, Baoding 071002, China
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    DOI: 10.15541/jim20180493 Cite this Article
    Chong ZHANG, Xiao-Wei GENG, Xiang-Di GAO, Xin ZHANG, Rao GUO, Yu-Jing WANG, Jian-Zhong XU, Hai-Yun MA. Strontium Hydroxystannate Nanorods Encapsulated by Hybrid Polyphosphazene: Synthesis and Flame Retardancy on Epoxy Resin[J]. Journal of Inorganic Materials, 2019, 34(7): 761 Copy Citation Text show less
    Synthetic routes of the SrSn(OH)6 and PZS@SrSn(OH)6
    1. Synthetic routes of the SrSn(OH)6 and PZS@SrSn(OH)6
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    Morphologies and element distribution map of SrSn(OH)6 and PZS@SrSn(OH)6
    2. Morphologies and element distribution map of SrSn(OH)6 and PZS@SrSn(OH)6
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    TG (a) and DTG (b) curves of SrSn(OH)6, PZS and PZS@SrSn(OH)6 tested in N2 atmosphere
    3. TG (a) and DTG (b) curves of SrSn(OH)6, PZS and PZS@SrSn(OH)6 tested in N2 atmosphere
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    TG (a) and DTG (b) curves of EP nanocomposites tested in N2 atmosphere
    4. TG (a) and DTG (b) curves of EP nanocomposites tested in N2 atmosphere
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    LOI values and residue chars at the end of LOI tests of EP, EP/SrSn(OH)6 and EP/PZS@SrSn(OH)6 nanocomposites
    5. LOI values and residue chars at the end of LOI tests of EP, EP/SrSn(OH)6 and EP/PZS@SrSn(OH)6 nanocomposites
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    Heat release rate (HRR) (a), specimen mass (b), smoke production rate SPR (c), and CO production rate (d) curves of the samples in CONE tests
    6. Heat release rate (HRR) (a), specimen mass (b), smoke production rate SPR (c), and CO production rate (d) curves of the samples in CONE tests
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    Digital photos of the char residues for composites after cone calorimeter tests
    7. Digital photos of the char residues for composites after cone calorimeter tests
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    XRD (a), EDS (b) and FT-IR (c) spectra of the char residue of EP samples
    8. XRD (a), EDS (b) and FT-IR (c) spectra of the char residue of EP samples
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    SampleT5%/℃Tmax/℃Residue at 800 ℃/wt%Theoretical residue at 800 ℃/wt%
    PZS442.8507.948.2
    SrSn(OH)6217.3237.780.4
    PZS@SrSn(OH)6218.5487.569.4
    Pure EP364.2375.313.0
    3% EP/SrSn(OH)6354.0367.316.215.0
    3% EP/PZS@SrSn(OH)6360.0368.617.014.7
    Table 1. Thermogravimetric properties of PZS, SrSn(OH)6, PZS@SrSn(OH)6 and EP nanocomposites
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    SamplePure EP1wt% EP/SrSn(OH)63wt% EP/SrSn(OH)61wt% EP/PZS@SrSn(OH)63wt% EP/PZS@SrSn(OH)6
    Char residue/g5.613.212.413.819.2
    THR/(MJ·m-2)100.493.292.693.188.9
    PHRR/(kW·m-2)1141.1971.7888.9777.3809.7
    PSPR/(m2·s)0.330.250.240.220.21
    TSP/m227.623.723.925.121.2
    Table 2. Cone calorimetry data for EP composites
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    Abstract
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    Chong ZHANG, Xiao-Wei GENG, Xiang-Di GAO, Xin ZHANG, Rao GUO, Yu-Jing WANG, Jian-Zhong XU, Hai-Yun MA. Strontium Hydroxystannate Nanorods Encapsulated by Hybrid Polyphosphazene: Synthesis and Flame Retardancy on Epoxy Resin[J]. Journal of Inorganic Materials, 2019, 34(7): 761
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