松香改性酚醛树脂的浅色化研究
摘要
松香改性酚醛树脂是平版油墨用连接料树脂的主要代表,也是印刷油墨中用量最大的一类树脂。为满足国际、国内对工业品高质化的需求,只有浅色的松香改性酚醛树脂才具有更好的应用前景与国际市场竞争力。
本文选用多种催化剂、浅色剂及抗氧剂合成松香改性酚醛树脂,研究相关反应的机理和树脂性能的变化规律,降低树脂色泽,探索生产浅色松香改性酚醛树脂的较佳工艺路线。
本文通过紫外分光光度计测定合成的松香改性酚醛树脂中游离酚的含量,研究了游离酚含量与树脂色泽的关系,表明:游离酚含量过高,树脂色泽会随之加深。通过对树脂产品的红外谱图分析发现,松香改性酚醛树脂产品中存在醌式结构,且醌式结构越多,树脂色泽越深,以上研究的综合分析表明,游离酚及树脂本身氧化成醌式结构是松香改性酚醛树脂色泽加深的主要原因。
本文还考察了多种不同的催化剂、浅色剂、抗氧剂及其复合体系作用下的松香改性酚醛树脂保温酯化反应进程,研究表明单一催化剂体系中磷酸酯类A效果最优,但仍不能满足快速酯化的要求,选用复合催化体系时,磷酸酯类A与AT215或受阻酚酯类物质四[β-(3,5-二叔丁基-4-羟基苯基)丙酸]季戊四醇酯的配合均较显著的加快了保温酯化进程,而由磷酸酯类A、硫代受阻酚B及有机酸按一定比例配合组成的复合催化剂体系对松香改性酚醛树脂酯化催化效率最高,且三者之间的配比催在一个最佳值使得其对松香改性酚醛树脂的协同酯化催化作用最大。
本研究还考察了不同的催化剂、浅色剂、抗氧剂及其复合体系作用下树脂综合性能的变化规律,研究表明,不同的催化剂、浅色剂及抗氧剂对松香改性酚醛树脂酯化反应过程中物料的色泽及最终产品色泽均有明显影响:单一催化剂体系中,丁基锡酸所得树脂色泽较浅、透明性较好,但酯化效率偏低;磷酸酯类A在催化酯化同时,还具有改善树脂色泽作用;次亚磷酸具有明显浅色效果,当其加入量占松香的1%可使树脂色泽降低2个色号。复合催化体系SKW与次亚磷酸的匹配具有最佳浅色效果。不同催化剂、浅色剂及抗氧剂体系作用下所得松香
浙江大学硕士学位论文 *
改性酚醛树脂的软化点、粘度,正庚烷值明显不同。但它们一般均随保温酯化时
间而提高。
本研究通过对松香改性酚醛树脂催化体系的选择、酯化阶段原料配比和操作
工艺的调整,确定:SKW复合催化体系用量占松香重量的1.0%,次亚磷酸用量
占松香重量的1刀%,醇羟基与松香梭基摩尔比为1刀500;复合催化剂中的硫代
受阻酚组分B在保温酯化2小时后加入,次亚磷酸在保温酯化3小时后加入,
酯化升温时间减为3小时,是生产浅色松香改性酚醛树脂的一条较佳工艺路线。
The rosin modified phenolic resin, a mainly important one among all resins used as bands for offset inks, has the call for printing ink. With the development of industry which is demainding the high-qulity for product more and more, light colored rosin modified phenolic resin will become the only one which would have the better application prospect and competition in the international market than other.
The esterification reaction in the presence of several catalysts , lightening agents, antioxidants for the synthesis of rosin modified phenolic resin was carried out in the research. The correlative reaction mechanism and the principle of the change of the resins properties were studied. The preferred synthetic process of light colored rosin modified phenolic resin was developed.
In this thesis the content of free phenol in the rosin modified phenolic resins were determined by UV spectrophotometry. Meanwhile, the relationship between the content of free phenol and the color of the obtained resin was studied. It was shown that when the content of free phenol in the final resin was higher, the color of the obtained resin was deeper. The structure similar to quinone was discovered in the rosin modified phenolic resin, moreover, when the content of this structure was higher, the color of the obtained resin was deeper. The overall analysis of the above was shown that the presence of the structure similar to quinone which was resulted from the oxidation of free phenol in the obtained resin was the main cause for the deeper color of the rosin modified phenolic resin.
In the presence of different kinds of catalysts , lightening agents, antioxidants, the esterification reaction course of rosin modified phenolic resin was also researched. It was shown that the substances belonging to phosphonate behaved the highest esterification catalytic efficiency among all the single catalysts system, but its catalytic efficiency was not good enough for the demand of shortening esterification time. Among the mutiply catalysts system, the phosphonate and AT215 or pentaerythrityl tetrakis [p-(3,5-di-tert-butyl-4-hydroxyphen)propionate] using together accelerate the esterification reaction obviously. The complex catalysts system SKW which was composed of salt of phosphonate, the phenol sulfide compound, a organic acid, showed the highest esterification catalytic efficiency among all. Moreover, the ratio of the three chemicals existed a optimum value which resulted in the highest cooperating esterification catalytic efficiency.
Changes in the properties of the resin obtained by using different catalysts , lightening agents, antioxidants were also studied in the thesis. Results showed that the color of the resin in esterification reaction and the final products varied obviously with different catalysts, lightening agents, antioxidants. The resin with butyl stannonic acid as catalysts which showed lower esterification catalytic efficiency had relatively lighter color and better transparence than other single catalysts system, by comparison, substance A belonging to phosphonate used as catalysts could also improve the color of the obtained resin. The color of the obtained resin was decreased over 2 grades in the presence of phosphinic acid used as lightening agents in an amount of
1.0 wt% based on the wight of rosin. The resin obtained by using the complex catalysts system SKW and phosphinic acid together had the lightest color among all. It was also found that the properties of the resin including n-heptane tolerance degree, softening point, viscosity varied obviously with different catalysts , lightening agents, antioxidants but they were all increased generally with time of temperature holding stage.
In the research, by selecting new kind of catalysts system and adjusting ratio of raw materials in the temperature holding stage of esterification and changing operation process of synthesis of rosin modified phenolic resin, the color of the obtained resin is 3 grades lighter than that required by China enterprise's standard.
本文选用多种催化剂、浅色剂及抗氧剂合成松香改性酚醛树脂,研究相关反应的机理和树脂性能的变化规律,降低树脂色泽,探索生产浅色松香改性酚醛树脂的较佳工艺路线。
本文通过紫外分光光度计测定合成的松香改性酚醛树脂中游离酚的含量,研究了游离酚含量与树脂色泽的关系,表明:游离酚含量过高,树脂色泽会随之加深。通过对树脂产品的红外谱图分析发现,松香改性酚醛树脂产品中存在醌式结构,且醌式结构越多,树脂色泽越深,以上研究的综合分析表明,游离酚及树脂本身氧化成醌式结构是松香改性酚醛树脂色泽加深的主要原因。
本文还考察了多种不同的催化剂、浅色剂、抗氧剂及其复合体系作用下的松香改性酚醛树脂保温酯化反应进程,研究表明单一催化剂体系中磷酸酯类A效果最优,但仍不能满足快速酯化的要求,选用复合催化体系时,磷酸酯类A与AT215或受阻酚酯类物质四[β-(3,5-二叔丁基-4-羟基苯基)丙酸]季戊四醇酯的配合均较显著的加快了保温酯化进程,而由磷酸酯类A、硫代受阻酚B及有机酸按一定比例配合组成的复合催化剂体系对松香改性酚醛树脂酯化催化效率最高,且三者之间的配比催在一个最佳值使得其对松香改性酚醛树脂的协同酯化催化作用最大。
本研究还考察了不同的催化剂、浅色剂、抗氧剂及其复合体系作用下树脂综合性能的变化规律,研究表明,不同的催化剂、浅色剂及抗氧剂对松香改性酚醛树脂酯化反应过程中物料的色泽及最终产品色泽均有明显影响:单一催化剂体系中,丁基锡酸所得树脂色泽较浅、透明性较好,但酯化效率偏低;磷酸酯类A在催化酯化同时,还具有改善树脂色泽作用;次亚磷酸具有明显浅色效果,当其加入量占松香的1%可使树脂色泽降低2个色号。复合催化体系SKW与次亚磷酸的匹配具有最佳浅色效果。不同催化剂、浅色剂及抗氧剂体系作用下所得松香
浙江大学硕士学位论文 *
改性酚醛树脂的软化点、粘度,正庚烷值明显不同。但它们一般均随保温酯化时
间而提高。
本研究通过对松香改性酚醛树脂催化体系的选择、酯化阶段原料配比和操作
工艺的调整,确定:SKW复合催化体系用量占松香重量的1.0%,次亚磷酸用量
占松香重量的1刀%,醇羟基与松香梭基摩尔比为1刀500;复合催化剂中的硫代
受阻酚组分B在保温酯化2小时后加入,次亚磷酸在保温酯化3小时后加入,
酯化升温时间减为3小时,是生产浅色松香改性酚醛树脂的一条较佳工艺路线。
The rosin modified phenolic resin, a mainly important one among all resins used as bands for offset inks, has the call for printing ink. With the development of industry which is demainding the high-qulity for product more and more, light colored rosin modified phenolic resin will become the only one which would have the better application prospect and competition in the international market than other.
The esterification reaction in the presence of several catalysts , lightening agents, antioxidants for the synthesis of rosin modified phenolic resin was carried out in the research. The correlative reaction mechanism and the principle of the change of the resins properties were studied. The preferred synthetic process of light colored rosin modified phenolic resin was developed.
In this thesis the content of free phenol in the rosin modified phenolic resins were determined by UV spectrophotometry. Meanwhile, the relationship between the content of free phenol and the color of the obtained resin was studied. It was shown that when the content of free phenol in the final resin was higher, the color of the obtained resin was deeper. The structure similar to quinone was discovered in the rosin modified phenolic resin, moreover, when the content of this structure was higher, the color of the obtained resin was deeper. The overall analysis of the above was shown that the presence of the structure similar to quinone which was resulted from the oxidation of free phenol in the obtained resin was the main cause for the deeper color of the rosin modified phenolic resin.
In the presence of different kinds of catalysts , lightening agents, antioxidants, the esterification reaction course of rosin modified phenolic resin was also researched. It was shown that the substances belonging to phosphonate behaved the highest esterification catalytic efficiency among all the single catalysts system, but its catalytic efficiency was not good enough for the demand of shortening esterification time. Among the mutiply catalysts system, the phosphonate and AT215 or pentaerythrityl tetrakis [p-(3,5-di-tert-butyl-4-hydroxyphen)propionate] using together accelerate the esterification reaction obviously. The complex catalysts system SKW which was composed of salt of phosphonate, the phenol sulfide compound, a organic acid, showed the highest esterification catalytic efficiency among all. Moreover, the ratio of the three chemicals existed a optimum value which resulted in the highest cooperating esterification catalytic efficiency.
Changes in the properties of the resin obtained by using different catalysts , lightening agents, antioxidants were also studied in the thesis. Results showed that the color of the resin in esterification reaction and the final products varied obviously with different catalysts, lightening agents, antioxidants. The resin with butyl stannonic acid as catalysts which showed lower esterification catalytic efficiency had relatively lighter color and better transparence than other single catalysts system, by comparison, substance A belonging to phosphonate used as catalysts could also improve the color of the obtained resin. The color of the obtained resin was decreased over 2 grades in the presence of phosphinic acid used as lightening agents in an amount of
1.0 wt% based on the wight of rosin. The resin obtained by using the complex catalysts system SKW and phosphinic acid together had the lightest color among all. It was also found that the properties of the resin including n-heptane tolerance degree, softening point, viscosity varied obviously with different catalysts , lightening agents, antioxidants but they were all increased generally with time of temperature holding stage.
In the research, by selecting new kind of catalysts system and adjusting ratio of raw materials in the temperature holding stage of esterification and changing operation process of synthesis of rosin modified phenolic resin, the color of the obtained resin is 3 grades lighter than that required by China enterprise's standard.
引文
1.石玉香,松香改性壬基酚醛树脂的研究,《陕西化工》,1998,27(1):21~22.
2.张锦强、龚张水,平版油墨用松香改性酚醛树脂的现状与将来,《油墨》,2001(2):12~17.
3.袁雯、乔锦丽、马国章,松香改性t-辛基苯酚酚醛树脂的合成,《太原理工大学学报》,1999,30(5):514~516.
4.姜筱梅,王伟民,催化剂用量和多元醇对松香改性酚醛树脂性能的影响,《杭州化工》,2001,31(2):22~25.
5.龚张水、吴国强、张锦强,松香改性酚醛树脂合成工艺,《杭州化工》,1999,29(1):31~34.
6.王正青、于旭祥、张健,一步法合成松香改性酚醛树脂,《高分子材料科学与工程》,1998,14(2):41~43.
7.钟国华,松香的结构、氧化和脱色,《广西林业科学》,1997,26(2):77~78,98.
8.梁旭银、丁礼金、叶青、陈平泉,浅色松香改性酚醛树脂生产工艺的研究,《林产化工通讯》,1996(5):7~9.
9.刘红军、高德华,松香改性苯酚、甲醛树脂制备工艺的研究,《林产化学与工业》,1994,7(3):55~59.
10.吴宗华、陈少平,脂松香热氧化机理的研究,《林产化学与工业》,2000,20(3):13~16.
11.郝强、哈成勇,松香催化酯化反应研究进展,《林产化学与工业》,2000,20(1):80~85.
12.常东亮、哈成勇、袁金伦,高活性酯化催化剂烷基锡酸的研究,《广东化工》,1999(2):118~119.
13.常东亮、哈成勇、袁金伦,一种催化酯化松香的方法,CN 1060200,2001.
14.常东亮、哈成勇、袁金伦,烷基锡酸催化松香酯化反应的研究,《林产化学与工业》,1999,19(3):21~24.
15.哈成勇、郝强、袁金伦,稀土金属氧化物催化松香及其衍生物酯化的方法,CN 1074444,2001.
16.郝强、哈成勇,稀土金属氧化物催化松香酯化反应的研究,《林产化学与工业》,2000,20(3):17~21.
17.郝强、哈成勇、稀土及其负载型催化剂催化松香酯化动力学规律研究,《广州化学》,2000,25(2):18~26.
18.常东亮、哈成勇、王宇纲,一种催化酯化马来海松酸的方法,CN 1073545,2001.
19.林捷、张建军、代彪然,浅色改性松香酚醛树脂的制造方法,CN 1077461,1993.
20.刘国祯,王兴凤,曾广建,浅色松香酯的扩大试验与性能研究,《粘接》,1994,15(4):19~22.
21.李连德,浅色松香改性301树脂的研制,《林产化工通讯》,1996,30(2):25~26.
22.梁丽霞、陈婉仪、刁建波,浅色酚醛树脂工艺技术,《林产工业》,1994,21(3):26~27.
23. Johnson, Robert W.Jr.,Method for the preparation of light-colored rosin esters, EP 0,459,760,1991.
24.王真琴,雕百块的研制,《兰化科技》,1996,14(2):74~77.
25. Robert W. Johnson,Jr.,Savannah,Ga., Method of preparing rosin ester from polyol with phosphorous acid catalyst,USP4,690,783,1987.
26.盛永宁,抗氧剂在合成树脂及聚氨酯固化剂生成中的应用,《涂料工业》,1998(10):19~21.
27.江燕斌、梁一鹏、钱宇、谭本祝、俞天翔,纸浆漂白过程中连二亚硫酸钠稳定性的研究,《造纸科学与技术》,2001,20(2):11~13.
28.寿慧钰、孙荣财,抗氧剂1425合成工艺及应用,《塑料工业》,1999,27(3):42~43.
29.丁健桦、乐长高、秦华,酯合成中催化剂的研究及进展,《化工生产与技术》,2000,7(2):21~23.
30.刘海宇、欧阳海烨,油墨及油墨树脂,《贵州化工》,1997(3):16~22.
31.李瑞珍,印刷油墨用树脂,《杭州化工》,1992(1):38~42.
32.黄雪红,硫酸铈作为松香酯化催化剂的研究,《林产化学与工业》,1994,14(1):57~60.
33.程珍发、解洪柱、卢渊、钟丽丽、梁经伦,2116#松香改性酚醛树脂生成新工艺,《林产化工通讯》,2002,36(1):16~18.
34.王兴凤、范德明、刘国桢、林莉、曾广建,油墨用浅色松香酚醛树脂2116#、2118#的研制,《林产化学与工业》,1994,14(特刊):55~59.
35.刘国桢、范德明、王兴凤、曾广建、林莉、阮胜超,油墨用高粘度浅色松香酯的研究,《林产化学与工业》,1994,14(特刊):17~20.
36.周文富、赖文忠、池毓习、康为炜,松香乙萘酚醛树脂合成研究,《林产化学与工业》,1999,19(3):61~66.
37.常东亮、哈成勇,有机锡化合物催化合成应用进展,《合成化学》,1999,7(2):128~137.
38.刘国正,改进的亚磷酸二乙酯法合成亚甲基二膦酸四乙酯,《应用化学》,1995,12(5):103~104.
39.吕广镛,浅色胶粘剂用的复合防老剂,《华南师范大学学报(自然科学版)》,1997(1):69~74.
40.陈秀仁、张怀有、田锡义,二甲基亚砜的性质和应用,《辽宁化工》,2000,29(1):31~35.
41.周文富、莫越奇、贾德民,浅色油酸、松香改性双酚A酚醛树脂的合成与结构,《林产化学与工业》,2000,20(1):57~64.
42.赵秋苓,松香改性酚醛树脂的合成,《山西化工》,1997(3):13~14.
43.石玉香、王丽秋,松香改性壬基酚、甲醛树脂的合成反应,《辽宁化工》,2001,30(3):99~102.
44.高德华、金淳、张小林、蒋剑春、郑文辉、孙曙光、万钧辉、黄蒲云、裴绍元,浅色松香酯制造工艺研究中试报告,《林产化学与工业》,1988,8(4):1~9.
45.黎跃、谭海珠、叶江青,氢化松香热稳定性的研究,《精细化工》,2000,17(6):352~355.
46.赵颖,松香改性辛基酚醛树脂的研究,《辽宁化工》,2001,30(8):340~341.
47. WHALEN,DAVID, Light Color, Color Stable Rosin Esters and Methods for Preparing Same, USP 5,830,992,1998.
48. Okoshi,Noboru (Chiba,JP), Process for producing oil-modified and rosin-modi-fied phenolic resin for printing inks, USP 4,391,640,1983.
49. Crews, Everett(Charleston, SC), Hayden, Viscosity-stable high solids rosin phen-
-olic resin solutions, U S P 5,423,908,1995.
50. James Minn, Hattiesburg, Miss., Sodium hrdroxymethane sulfonate to improve the color stability of rosin resins,USP 5,021,548,1991.
51. Robert W. Johnson, Jr.,Savannah,Ga., Method of preparing holt-melt stable rosin ester with organic ester of hypophorous acid catalyst ,U S P 4,693,847,1987.
52. William Richard Smith, preparation of color improved tall oil rosin pentaerythritol esters,USP 3,780,013,1973.
53. Jordan ,Thomas C.,Rosin-based resin ink vehicles, USP 5,902,389,1999.
54. Matzinger, Method for preparing phenolic rosin resins,USP 5,969,071,1999.
55. Bender, Phenolic-resin-modified natural resin acid esters,a process for their preparation and their use as binder resins in printing inks, USP 5,597,884,1997.
56.林捷、张建军、郑俊周,用松脂制造松香改性酚醛树脂的方法,CN 1077462,1993.
57.窦跃利,松香改性酚醛树脂,《上海涂料》,1993(1):52—59.
58.王正青、陈平、曹贵平、于旭祥、胡黎明,高级胶印油墨树脂的合成与改性研究,《高分子材料科学与工程》,1996,12(5):57~60.
59.王建平,用铵盐作合成酚醛树脂催化剂的初步研究,《漳州师院学报》,1995(4):89~92.
60.李子强,降低酚醛树脂溶液中游离酚的研究,《矿冶》,1996,5(1):24~27.
61.王正青、于旭祥、陈平、胡黎明,松香改性酚醛树脂的合成反应,《功能高分子学报》,1996,9(3):402~408.
62.陆玉侠、陈玲、张春华,用分光光度计测定磺酸色泽,《安徽化工》,1996,(1):50~51.
63.王桂闯,紫外分光光度法测定酚醛树脂中游离酚,《光谱仪器与分析》,1999(1):24~26.
64.吴国强,松香改性酚醛树脂的改良,《杭州化工》,1997,27(3):31~33.
65. Matzinger, Michael D.,Phenolic rosin compositions ,USP 6,172,174, 2001.
2.张锦强、龚张水,平版油墨用松香改性酚醛树脂的现状与将来,《油墨》,2001(2):12~17.
3.袁雯、乔锦丽、马国章,松香改性t-辛基苯酚酚醛树脂的合成,《太原理工大学学报》,1999,30(5):514~516.
4.姜筱梅,王伟民,催化剂用量和多元醇对松香改性酚醛树脂性能的影响,《杭州化工》,2001,31(2):22~25.
5.龚张水、吴国强、张锦强,松香改性酚醛树脂合成工艺,《杭州化工》,1999,29(1):31~34.
6.王正青、于旭祥、张健,一步法合成松香改性酚醛树脂,《高分子材料科学与工程》,1998,14(2):41~43.
7.钟国华,松香的结构、氧化和脱色,《广西林业科学》,1997,26(2):77~78,98.
8.梁旭银、丁礼金、叶青、陈平泉,浅色松香改性酚醛树脂生产工艺的研究,《林产化工通讯》,1996(5):7~9.
9.刘红军、高德华,松香改性苯酚、甲醛树脂制备工艺的研究,《林产化学与工业》,1994,7(3):55~59.
10.吴宗华、陈少平,脂松香热氧化机理的研究,《林产化学与工业》,2000,20(3):13~16.
11.郝强、哈成勇,松香催化酯化反应研究进展,《林产化学与工业》,2000,20(1):80~85.
12.常东亮、哈成勇、袁金伦,高活性酯化催化剂烷基锡酸的研究,《广东化工》,1999(2):118~119.
13.常东亮、哈成勇、袁金伦,一种催化酯化松香的方法,CN 1060200,2001.
14.常东亮、哈成勇、袁金伦,烷基锡酸催化松香酯化反应的研究,《林产化学与工业》,1999,19(3):21~24.
15.哈成勇、郝强、袁金伦,稀土金属氧化物催化松香及其衍生物酯化的方法,CN 1074444,2001.
16.郝强、哈成勇,稀土金属氧化物催化松香酯化反应的研究,《林产化学与工业》,2000,20(3):17~21.
17.郝强、哈成勇、稀土及其负载型催化剂催化松香酯化动力学规律研究,《广州化学》,2000,25(2):18~26.
18.常东亮、哈成勇、王宇纲,一种催化酯化马来海松酸的方法,CN 1073545,2001.
19.林捷、张建军、代彪然,浅色改性松香酚醛树脂的制造方法,CN 1077461,1993.
20.刘国祯,王兴凤,曾广建,浅色松香酯的扩大试验与性能研究,《粘接》,1994,15(4):19~22.
21.李连德,浅色松香改性301树脂的研制,《林产化工通讯》,1996,30(2):25~26.
22.梁丽霞、陈婉仪、刁建波,浅色酚醛树脂工艺技术,《林产工业》,1994,21(3):26~27.
23. Johnson, Robert W.Jr.,Method for the preparation of light-colored rosin esters, EP 0,459,760,1991.
24.王真琴,雕百块的研制,《兰化科技》,1996,14(2):74~77.
25. Robert W. Johnson,Jr.,Savannah,Ga., Method of preparing rosin ester from polyol with phosphorous acid catalyst,USP4,690,783,1987.
26.盛永宁,抗氧剂在合成树脂及聚氨酯固化剂生成中的应用,《涂料工业》,1998(10):19~21.
27.江燕斌、梁一鹏、钱宇、谭本祝、俞天翔,纸浆漂白过程中连二亚硫酸钠稳定性的研究,《造纸科学与技术》,2001,20(2):11~13.
28.寿慧钰、孙荣财,抗氧剂1425合成工艺及应用,《塑料工业》,1999,27(3):42~43.
29.丁健桦、乐长高、秦华,酯合成中催化剂的研究及进展,《化工生产与技术》,2000,7(2):21~23.
30.刘海宇、欧阳海烨,油墨及油墨树脂,《贵州化工》,1997(3):16~22.
31.李瑞珍,印刷油墨用树脂,《杭州化工》,1992(1):38~42.
32.黄雪红,硫酸铈作为松香酯化催化剂的研究,《林产化学与工业》,1994,14(1):57~60.
33.程珍发、解洪柱、卢渊、钟丽丽、梁经伦,2116#松香改性酚醛树脂生成新工艺,《林产化工通讯》,2002,36(1):16~18.
34.王兴凤、范德明、刘国桢、林莉、曾广建,油墨用浅色松香酚醛树脂2116#、2118#的研制,《林产化学与工业》,1994,14(特刊):55~59.
35.刘国桢、范德明、王兴凤、曾广建、林莉、阮胜超,油墨用高粘度浅色松香酯的研究,《林产化学与工业》,1994,14(特刊):17~20.
36.周文富、赖文忠、池毓习、康为炜,松香乙萘酚醛树脂合成研究,《林产化学与工业》,1999,19(3):61~66.
37.常东亮、哈成勇,有机锡化合物催化合成应用进展,《合成化学》,1999,7(2):128~137.
38.刘国正,改进的亚磷酸二乙酯法合成亚甲基二膦酸四乙酯,《应用化学》,1995,12(5):103~104.
39.吕广镛,浅色胶粘剂用的复合防老剂,《华南师范大学学报(自然科学版)》,1997(1):69~74.
40.陈秀仁、张怀有、田锡义,二甲基亚砜的性质和应用,《辽宁化工》,2000,29(1):31~35.
41.周文富、莫越奇、贾德民,浅色油酸、松香改性双酚A酚醛树脂的合成与结构,《林产化学与工业》,2000,20(1):57~64.
42.赵秋苓,松香改性酚醛树脂的合成,《山西化工》,1997(3):13~14.
43.石玉香、王丽秋,松香改性壬基酚、甲醛树脂的合成反应,《辽宁化工》,2001,30(3):99~102.
44.高德华、金淳、张小林、蒋剑春、郑文辉、孙曙光、万钧辉、黄蒲云、裴绍元,浅色松香酯制造工艺研究中试报告,《林产化学与工业》,1988,8(4):1~9.
45.黎跃、谭海珠、叶江青,氢化松香热稳定性的研究,《精细化工》,2000,17(6):352~355.
46.赵颖,松香改性辛基酚醛树脂的研究,《辽宁化工》,2001,30(8):340~341.
47. WHALEN,DAVID, Light Color, Color Stable Rosin Esters and Methods for Preparing Same, USP 5,830,992,1998.
48. Okoshi,Noboru (Chiba,JP), Process for producing oil-modified and rosin-modi-fied phenolic resin for printing inks, USP 4,391,640,1983.
49. Crews, Everett(Charleston, SC), Hayden, Viscosity-stable high solids rosin phen-
-olic resin solutions, U S P 5,423,908,1995.
50. James Minn, Hattiesburg, Miss., Sodium hrdroxymethane sulfonate to improve the color stability of rosin resins,USP 5,021,548,1991.
51. Robert W. Johnson, Jr.,Savannah,Ga., Method of preparing holt-melt stable rosin ester with organic ester of hypophorous acid catalyst ,U S P 4,693,847,1987.
52. William Richard Smith, preparation of color improved tall oil rosin pentaerythritol esters,USP 3,780,013,1973.
53. Jordan ,Thomas C.,Rosin-based resin ink vehicles, USP 5,902,389,1999.
54. Matzinger, Method for preparing phenolic rosin resins,USP 5,969,071,1999.
55. Bender, Phenolic-resin-modified natural resin acid esters,a process for their preparation and their use as binder resins in printing inks, USP 5,597,884,1997.
56.林捷、张建军、郑俊周,用松脂制造松香改性酚醛树脂的方法,CN 1077462,1993.
57.窦跃利,松香改性酚醛树脂,《上海涂料》,1993(1):52—59.
58.王正青、陈平、曹贵平、于旭祥、胡黎明,高级胶印油墨树脂的合成与改性研究,《高分子材料科学与工程》,1996,12(5):57~60.
59.王建平,用铵盐作合成酚醛树脂催化剂的初步研究,《漳州师院学报》,1995(4):89~92.
60.李子强,降低酚醛树脂溶液中游离酚的研究,《矿冶》,1996,5(1):24~27.
61.王正青、于旭祥、陈平、胡黎明,松香改性酚醛树脂的合成反应,《功能高分子学报》,1996,9(3):402~408.
62.陆玉侠、陈玲、张春华,用分光光度计测定磺酸色泽,《安徽化工》,1996,(1):50~51.
63.王桂闯,紫外分光光度法测定酚醛树脂中游离酚,《光谱仪器与分析》,1999(1):24~26.
64.吴国强,松香改性酚醛树脂的改良,《杭州化工》,1997,27(3):31~33.
65. Matzinger, Michael D.,Phenolic rosin compositions ,USP 6,172,174, 2001.