河南科学
河南科學
하남과학
HENAN SCIENCE
2013年
3期
268-271
,共4页
张彦昌%曹金丽%王冬梅%李天仚%赵献增
張彥昌%曹金麗%王鼕梅%李天仚%趙獻增
장언창%조금려%왕동매%리천헌%조헌증
硼酸%酚醛树脂%乙二醇
硼痠%酚醛樹脂%乙二醇
붕산%분철수지%을이순
boric acid%phenolic resin%ethylene glycol
以碳酸钠为催化剂,通过改变原料配比并加入合适溶剂,制备了液态硼改性酚醛树脂.对配方工艺进行了优化、对产物结构进行了鉴定,同时研究了残炭率随单因素变化的关系.结果表明,固定硼酸苯酚比的情况下,随着甲醛用量的增加,残炭率C2先增大后减小;固定甲醛苯酚比的情况下,在硼酸苯酚摩尔比为0.3∶1时,残炭率C2最大,综合分析最佳配方为:苯酚∶甲醛∶硼酸=1∶1.4∶0.3.
以碳痠鈉為催化劑,通過改變原料配比併加入閤適溶劑,製備瞭液態硼改性酚醛樹脂.對配方工藝進行瞭優化、對產物結構進行瞭鑒定,同時研究瞭殘炭率隨單因素變化的關繫.結果錶明,固定硼痠苯酚比的情況下,隨著甲醛用量的增加,殘炭率C2先增大後減小;固定甲醛苯酚比的情況下,在硼痠苯酚摩爾比為0.3∶1時,殘炭率C2最大,綜閤分析最佳配方為:苯酚∶甲醛∶硼痠=1∶1.4∶0.3.
이탄산납위최화제,통과개변원료배비병가입합괄용제,제비료액태붕개성분철수지.대배방공예진행료우화、대산물결구진행료감정,동시연구료잔탄솔수단인소변화적관계.결과표명,고정붕산분분비적정황하,수착갑철용량적증가,잔탄솔C2선증대후감소;고정갑철분분비적정황하,재붕산분분마이비위0.3∶1시,잔탄솔C2최대,종합분석최가배방위:분분∶갑철∶붕산=1∶1.4∶0.3.
@@@@The boron phenolic resin has been synthesized using sodium carbonate as catalyst and boric acid, phenol,formaldehyde as raw materials. The reaction system was added into a certain amount of ethylene glycol after it had been distilled for the aim to prepared solution shaped product. The carbon residue,thermal properties and hardening time have been investigated. The result shows that the resin has a better combination property when the mole rate of formaldehyde∶phenol∶boric acid is 1∶1.4∶0.3.
