Phase separation behavior and morphology development of phenolic resin/PMMA/hexamethylenetetrarnine blends

被引:0
|
作者
Masanori Yamazaki
Akiko Nishijima
Kazuko Ikeda
Shoji Ichihara
机构
[1] Mitsubisi Chemical group Science and Technology Research Center,Department of Organic and Polymer Materials, Chemistry Faculty of Technology
[2] Inc,undefined
[3] Tokyo University of Agriculture & Technology,undefined
来源
Polymer Bulletin | 2004年 / 52卷
关键词
Methyl; Phenolic Resin; Pore Structure; Phase Separation; PMMA;
D O I
暂无
中图分类号
学科分类号
摘要
In order to obtain materials with nanopores which will be applicable for many fields, the structures of the cured blends of phenolic resin (PhN), poly(methyl methacrylate) (PMMA) and curing agent were studied. After PMMA was extracted from cured blends, the structures of cured phenolic resins were observed with SEM. As a results, it was found that nanosized continuous pore structures were formed in extremely wide composition region if curing temperature was high.
引用
收藏
页码:267 / 274
页数:7
相关论文
共 50 条
  • [41] Characterization of the phase-separation in PMMA/α-MSAN blends using the dynamic viscoelastic functions
    Zheng, Q
    Araki, O
    Masuda, T
    CHEMICAL JOURNAL OF CHINESE UNIVERSITIES-CHINESE, 1998, 19 (08): : 1339 - 1342
  • [42] EFFECT OF PMMA ON THE MORPHOLOGY AND ALPHA-]BETA PHASE-TRANSITION OF ORIENTED PVF2/PMMA BLENDS
    YANG, DC
    THOMAS, EL
    JOURNAL OF MATERIALS SCIENCE LETTERS, 1987, 6 (05) : 593 - 598
  • [43] Effect of blend composition on the morphology development of electrospun fibres based on PAN/PMMA blends
    Hong, Chang Kook
    Yang, Kap Seung
    Oh, Seung Hyun
    Ahn, Jou-Hyeon
    Cho, Baik-Hwan
    Nah, Changwoon
    POLYMER INTERNATIONAL, 2008, 57 (12) : 1357 - 1362
  • [44] Role of nanosilica localization on morphology development of HDPE/PS/PMMA immiscible ternary blends
    Javidi, Z.
    Tarashi, Z.
    Rostami, A.
    Nazockdast, H.
    EXPRESS POLYMER LETTERS, 2017, 11 (05): : 362 - 373
  • [45] Phase behavior, crystallization, and morphology in thermosetting blends of a biodegradable poly(ethylene glycol)-type epoxy resin and poly(ε-caprolactone)
    Guo, QP
    Slavov, S
    Halley, PJ
    JOURNAL OF POLYMER SCIENCE PART B-POLYMER PHYSICS, 2004, 42 (15) : 2833 - 2843
  • [46] Blends of amide modified polybutylene terephthalate and polycarbonate: phase separation and morphology
    vanBennekom, ACM
    vandenBerg, D
    Bussink, J
    Gaymans, RJ
    POLYMER, 1997, 38 (20) : 5041 - 5049
  • [47] Photovoltaic performance and morphology of polyfluorene blends: The influence of phase separation evolution
    Shikler, Rafi
    Chiesa, Marco
    Friend, Richard H.
    MACROMOLECULES, 2006, 39 (16) : 5393 - 5399
  • [48] On morphology and the competition between crystallization and phase separation in polypropylene–polyethylene blends
    LISONG Dong
    R. H. Olley
    D. C. Bassett
    Journal of Materials Science, 1998, 33 : 4043 - 4048
  • [49] Polymerization induced viscoelastic phase separation of porous phenolic resin from solution
    Yi, Xiaolin
    Kong, Lei
    Dong, Xia
    Zuo, Xiaobiao
    Kuang, Xiao
    Feng, Zhihai
    Wang, Dujin
    POLYMER INTERNATIONAL, 2016, 65 (09) : 1031 - 1038
  • [50] Phase separation in epoxy resin-reactive dendritic hyperbranched polymer blends
    Plummer, CJG
    Mezzenga, R
    Boogh, L
    Månson, JAE
    POLYMER ENGINEERING AND SCIENCE, 2001, 41 (01): : 43 - 52
12345