Synthesis of Polyhydroxyurethanes-Experimental Verification of the Box-Behnken Optimization Model

被引:2
作者
Zalewski, Michal J. [1 ]
Maminski, Mariusz L. [2 ]
Parzuchowski, Pawel G. [1 ]
机构
[1] Warsaw Univ Technol, Fac Chem, 3 Noakowskiego St, PL-00664 Warsaw, Poland
[2] Warsaw Univ Life Sci WULS, Inst Wood Sci & Furniture, 159 Nowoursynowska St, PL-02776 Warsaw, Poland
来源
POLYMERS | 2022年 / 14卷 / 21期
关键词
PHU; polyhydroxyurethane; Box-Behnken design; model; optimization; THERMOPLASTIC POLYURETHANES; ETHYLENE CARBONATE; ROUTE; COPOLYMERS; POLYMERS;
D O I
10.3390/polym14214510
中图分类号
O63 [高分子化学(高聚物)];
学科分类号
070305 ; 080501 ; 081704 ;
摘要
Polyurethanes are one of the most important groups of polymers for numerous sectors of industry. Their production involves using dangerous components (diisocyanates), thus, in the search for safer synthetic routes, alternative methods yielding non-isocyanate polyurethanes (NIPU) have been investigated. In this study, the synthesis of polyhydroxyurethane from cyclic carbonates was performed. A three-factor, three-level Box-Behnken experimental design was constructed and the reaction time, temperature and reagents' molar ratio were the independent variables. The built model revealed that the viscosity was influenced by all three independent factors, while the mechanical properties and glass transition temperature of the PHUs were affected by the reagents' ratios. An experimental verification of the model proved its accuracy as the mechanical strength and glass transition temperature deviated from the modeled values, by 15% and 7%, respectively.
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页数:15
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共 40 条
  • [1] Chitosan Nanocarrier Entrapping Hydrophilic Drugs as Advanced Polymeric System for Dual Pharmaceutical and Cosmeceutical Application: A Comprehensive Analysis Using Box-Behnken Design
    Abosabaa, Sara A.
    ElMeshad, Aliaa N.
    Arafa, Mona G.
    [J]. POLYMERS, 2021, 13 (05) : 1 - 18
  • [2] Anastas P.T., 1998, Green Chemistry: Theory and Practice
  • [3] Synthesis of ω-amino-α-phenylcarbonate alkanes and their polymerization to [n]-polyurethanes
    Arce, Silvina M.
    Kolender, Adriana A.
    Varela, Oscar
    [J]. POLYMER INTERNATIONAL, 2010, 59 (09) : 1212 - 1220
  • [4] Environmentally-Friendly High-Density Polyethylene-Bonded Plywood Panels
    Bekhta, Pavlo
    Sedliacik, Jan
    [J]. POLYMERS, 2019, 11 (07)
  • [5] Structural effects of diacidic and glycolic moieties on physicochemical properties of aromatic polyesterdiols from glycolysis/esterification of poly(ethylene terephthalate) wastes
    Billiau-Loreau, M
    Durand, G
    Tersac, G
    [J]. POLYMER, 2002, 43 (01) : 21 - 28
  • [6] Solubility in CO2 and carbonation studies of epoxidized fatty acid diesters: towards novel precursors for polyurethane synthesis
    Boyer, Aurelie
    Cloutet, Eric
    Tassaing, Thierry
    Gadenne, Benoit
    Alfos, Carine
    Cramail, Henri
    [J]. GREEN CHEMISTRY, 2010, 12 (12) : 2205 - 2213
  • [7] EPOXY-RESINS WITH CYCLIC CARBONATE STRUCTURES - MODEL STUDIES FOR AMINE CURING
    BURGEL, T
    FEDTKE, M
    [J]. POLYMER BULLETIN, 1993, 30 (01) : 61 - 68
  • [8] An Efficient Nonisocyanate Route to Polyurethanes via Thiol-Ene Self-Addition
    Calle, Mariola
    Lligadas, Gerard
    Ronda, Juan C.
    Galia, Marina
    Cadiz, Virginia
    [J]. JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY, 2014, 52 (21) : 3017 - 3025
  • [9] Box-Behnken design: An alternative for the optimization of analytical methods
    Ferreira, S. L. C.
    Bruns, R. E.
    Ferreira, H. S.
    Matos, G. D.
    David, J. M.
    Brandao, G. C.
    da Silva, E. G. P.
    Portugal, L. A.
    dos Reis, P. S.
    Souza, A. S.
    dos Santos, W. N. L.
    [J]. ANALYTICA CHIMICA ACTA, 2007, 597 (02) : 179 - 186
  • [10] Poly(hydroxyurethane) Adhesives and Coatings: State-of-the-Art and Future Directions
    Gomez-Lopez, Alvaro
    Panchireddy, Satyannarayana
    Grignard, Bruno
    Calvo, Inigo
    Jerome, Christine
    Detrembleur, Christophe
    Sardon, Haritz
    [J]. ACS SUSTAINABLE CHEMISTRY & ENGINEERING, 2021, 9 (29) : 9541 - 9562
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