1.中国林业科学研究院木材工业研究所,北京 100091
2.韩师傅集成家居有限公司,山东临沂 276002
扫 描 看 全 文
冯云,屈伟,刘美宏等.三聚氰胺甲醛树脂增韧改性研究进展[J].木材科学与技术,2022,36(01):17-21.
FENG Yun,QU Wei,LIU Mei-hong,et al.Research Review on Toughening Modification of Melamine Formaldehyde Resin[J].Chinese Journal of Wood Science and Technology,2022,36(01):17-21.
三聚氰胺甲醛树脂(melamine formaldehyde resin,MF)具有耐磨、防水等特性,广泛应用于粘合剂、阻燃涂料、室外板材保护等领域,但由于交联密度大、柔性链短、脆性大的特点,限制了其应用。本文从外增韧与内增韧两方面总结MF树脂的增韧改性研究,并进行展望分析,为合成高性能的三聚氰胺甲醛树脂提供理论指导和依据。
Melamine formaldehyde (MF) resin is widely used in adhesives, flame retardant coatings, outdoor plate protection, and other fields, which are benefit from its wear resistant, waterproof, and other properties. However, due to the high cross-linking density and short flexible chain, the MF resin shows brittle characteristics, which limits its application scope. In this paper, the research on toughening modification of MF resin were reviewed with two aspects of external toughening and internal toughening. The development trend was also analyzed, in order to provide theoretical guidance and reference for the synthesis process of melamine formaldehyde resin with high performances.
三聚氰胺甲醛树脂浸渍胶膜纸增韧改性力学性能
melamine formaldehyde resinpaper impregnated thermosetting resinstoughening modificationmechanical property
Pizzi A. Wood adhesives: chemistry and technology [M]. 1989.
Ullah S, Bustam M A, Ahmad F, et al. Synthesis and characterization of melamine formaldehyde resins for decorative paper applications[J]. Journal of the Chinese Chemical Society, 2015, 62(2): 182-190.
CHAI Y B, ZHAO Y, YAN N. Synthesis and characterization of biobased melamine formaldehyde resins from bark extractives[J]. Industrial & Engineering Chemistry Research, 2014, 53(28): 11228-11238.
王宁, 李春风, 刘明利. 改性三聚氰胺甲醛树脂研究进展及应用[J]. 热固性树脂, 2020, 35(6): 62-65.
WANG N, LI C F, LIU L M. Research progress and application of modified melamine formaldehyde resin[J]. Thermosetting Resin, 2020, 35(6): 62-65.
汪小叶. 浸胶纸饰面胶合板和细木工板制备及表面性能研究[D]. 南京: 南京林业大学, 2017.
詹先旭, 谢序勤, 叶交友, 等. 浸渍胶膜纸饰面胶合板和细木工板生产工艺[J]. 木材工业, 2016, 30(2): 57-59.
ZHAN X X, XIE X Q, YE J Y, et al. Technology of surface decorated plywood and blockboard overlaid with impregnated paper[J]. China Wood Industry, 2016, 30(2): 57-59.
LIU Y S, LUAN X Y, FENG Y K, et al. Self-adhesive epoxy modified silicone materials for light emitting diode encapsulation[J]. Polymers for Advanced Technologies, 2017, 28(11): 1473-1479.
JIN F L, FENG L, SHI Q B, et al. Physico-mechanical and fire properties of polyurethane/melamine-formaldehyde interpenetrating polymer network foams[J]. Macromolecular Research, 2016, 24(9): 773-776.
Kumar A, Katiyar V. Modeling and experimental investigation of melamine-formaldehyde polymerization[J]. Macromolecules, 1990, 23(16): 3729-3736.
Tsvetkov V E, Zueva M Y. Synthesis and properties of modified melamine formaldehyde impregnating oligomers[J]. Polymer Science Series D, 2011, 4(3): 164-166.
Merline D J, Vukusic S, Abdala A A. Melamine formaldehyde: curing studies and reaction mechanism[J]. Polymer Journal, 2013, 45(4): 413-419.
王荣兴. 浸渍胶膜纸用三(2-羟乙基)异氰尿酸酯改性三聚氰胺甲醛树脂的研究[D]. 北京: 中国林业科学研究院, 2018.
ZHENG Y X, LV W. Rattan cane modified with polyethylene glycol melamine-urea-formaldehyde resin[J]. BioResources, 2015, 10(3): 4663-4673.
Mülhaupt R. Flexibility or toughness?-The design of thermoset toughening agents [J]. CHIMIA International Journal for Chemistry, 1990, 44(2): 43-52.
张本刚, 吴志刚, 雷洪. 三聚氰胺树脂增韧改性研究进展[J]. 绿色科技, 2018(8): 185-187.
海潇涵, 王祺铭, 时君友, 等. 无机纳米粒子改性SMF树脂涂层耐磨性研究[J]. 林产工业, 2019, 56(11): 33-37.
HAI X H, WANG Q M, SHI J Y, et al. Study on abrasion resistance of sucrose-melamine-formaldehyde resin coatings modified by nano-inorganic particles[J]. China Forest Products Industry, 2019, 56(11): 33-37.
周腊, 于志明, 张扬. 纳米TiO2的表面改性及MF/纳米TiO2复合树脂的制备[J]. 化工新型材料, 2015, 43(2): 50-52.
ZHOU L, YU Z M, ZHANG Y. Surface modification of nano-TiO2 and preparation of melamine formaldehyde resins/nano-TiO2 composite[J]. New Chemical Materials, 2015, 43(2): 50-52.
ZHOU Y S, YU J R, WANG X X, et al. Preparation of KH570-SiO2 and their modification on the MF/PVA composite membrane[J]. Fibers and Polymers, 2015, 16(8): 1772-1780.
XIONG Z, CHEN N, WANG Q. Preparation and properties of melamine formaldehyde resin modified by functionalized nano-SiO2 and polyvinyl alcohol[J]. Polymers and Polymer Composites, 2021, 29(2): 96-106.
Ranjbaran S, Nazerian M, Kermanian H, et al. High strength papers impregnated with urea/melamine formaldehyde resin/nanosilica nanocomposite coatings: the effects of paper type, blend ratio and nano-content[J]. Materials Today Communications, 2020, 25: 101300.
Utembe W, Potgieter K, Stefaniak A B, et al. Dissolution and biodurability: Important parameters needed for risk assessment of nanomaterials[J]. Particle and Fibre Toxicology, 2015, 12: 11.
Ede J, Ong K, Goergen M, et al. Risk analysis of cellulose nanomaterials by inhalation: current state of science[J]. Nanomaterials, 2019, 9(3): 337.
Oomen A G, Steinhäuser K G, Bleeker E A J, et al. Risk assessment frameworks for nanomaterials: Scope, link to regulations, applicability, and outline for future directions in view of needed increase in efficiency[J]. NanoImpact, 2018(9): 1-13.
Laux P, Tentschert J, Riebeling C, et al. Nanomaterials: certain aspects of application, risk assessment and risk communication[J]. Archives of Toxicology, 2018, 92(1): 121-141.
夏学禹, 顾雪萍, 冯连芳, 等. 三聚氰胺甲醛泡沫增韧改性研究进展[J]. 高分子材料科学与工程, 2019, 35(4): 182-190.
XIA X Y, GU X P, FENG L F, et al. Advances on toughening modification of melamine foam[J]. Polymer Materials Science & Engineering, 2019, 35(4): 182-190.
李曼曼. 基于半互穿网络体系的三聚氰胺甲醛树脂改性研究[D]. 南京: 南京理工大学, 2015.
XU W X, YU C H, ZHAO X S, et al. Melamine formaldehyde/polyvinyl alcohol composite fiber: Structures and properties controlled by reaction-induced phase separation[J]. Journal of Applied Polymer Science, 2016, 133(4): 42918. DOI:10.1002/app.42918http://dx.doi.org/10.1002/app.42918.
王玉忠, 杨君驰, 曹志杰, 等. 用纤维材料改性的三聚氰胺甲醛泡沫及其制备方法: CN103030924A[P]. 2013-04-10.
ZHOU X J, PENG J D, WANG W L, et al. A novel route to enhance the ductile performance of MF resins by addition of polyamide amine (PA)[J]. European Journal of Wood and Wood Products, 2020, 78(4): 835-837.
崔举庆, 谢明君, 杨苏, 等. 二乙二醇醚增韧改性三聚氰胺-尿素-甲醛树脂的性能[J]. 林业工程学报, 2017, 2(6): 10-14.
CUI J Q, XIE M J, YANG S, et al. Properties of diethylene glycol ether toughening modified melamine-urea-formaldehyde resin[J]. Journal of Forestry Engineering, 2017, 2(6): 10-14.
Yari H, Mohseni M, Messori M. Toughened acrylic/melamine thermosetting clear coats using POSS molecules: Mechanical and morphological studies[J]. Polymer, 2015, 63(20): 19-29.
琚晓晖, 齐鲁. 有机硅改性三聚氰胺甲醛树脂的性能[J]. 纤维复合材料, 2006, 23(1): 12-14.
JU X H, QI L. Study on properties of melamine-formaldehyde resin modified with organosilicon[J]. Fiber Composites, 2006, 23(1): 12-14.
CHAI Y Q, ZHAO T B, GAO X, et al. Low cracking ratio of paraffin microcapsules shelled by hydroxyl terminated polydimethylsiloxane modified melamine-formaldehyde resin[J]. Colloids and Surfaces, A Physicochemical and Engineering Aspects, 2018(538): 86-93.
李文环. 三聚氰胺浸渍树脂胶共聚改性及性能研究[D]. 杭州: 浙江农林大学, 2016.
Weiser J, Reuther W, Fikentscher R, et al. Modified melamine-formaldehyde resins: US5322915[P]. 1994-06-21.
彭立民. 浸渍胶膜纸饰面胶合板和细木工板生产与质量分析[J]. 中国人造板, 2018, 25(5): 22-24.
PENG L M. Analysis of production and quality to surface decorated plywood and blockboard with paper impregnated thermosetting resins[J]. China Wood-Based Panels, 2018, 25(5): 22-24.
彭立民, 樊正强, 庞小仁. 浸渍胶膜纸饰面胶合板与细木工板用浸渍胶膜纸研究[J]. 中国人造板, 2020, 27(2): 18-21.
PENG L M, FAN Z Q, PANG X R. The study of impregnated paper on surface decorated plywood and blockboard with paper impregnated thermosetting resins[J]. China Wood-Based Panels, 2020, 27(2): 18-21.
曾月鸿. 提高三聚氰胺甲醛浸渍树脂耐磨性的研究[D]. 福州: 福建农林大学, 2010.
相关作者
相关机构
京公网安备11010802024621
微信公众号