沈阳化工大学学报
瀋暘化工大學學報
침양화공대학학보
JOURNAL OF SHENYANG INSTITUTE OF CHEMICAL TECHNOLOGY
2011年
4期
321-325
,共5页
硼酸三丁酯%粘合促进剂%硼酰化钴%橡胶%钢丝
硼痠三丁酯%粘閤促進劑%硼酰化鈷%橡膠%鋼絲
붕산삼정지%점합촉진제%붕선화고%상효%강사
tributyl borate%adhesion promoter%cobalt boracylate%rubber%wire%adhesion
研究硼酸三丁酯、硼酰化钴的合成方法,考察各种因素对合成硼酸三丁酯、硼酰化钴的影响,并对硼酰化钴的应用性能进行研究.结果表明:合成的硼酸三丁酯的最佳反应配比为1∶6.5(m(硼酸)∶m(正丁醇)),最佳反应温度为110℃.合成硼酰化钴时按照先长链酸后短链酸的加料顺序,并且硼酰化反应之前的反应体系中必须无水.硼酰化钴对硫化具有很好的促进作用,对断裂伸长率影响不大,加入硼酰化钴后胶料定伸应力上升,抗拉强度下降.在未老化、热空气老化及盐水老化条件下,胶料与钢丝的粘合强度均有所提高.
研究硼痠三丁酯、硼酰化鈷的閤成方法,攷察各種因素對閤成硼痠三丁酯、硼酰化鈷的影響,併對硼酰化鈷的應用性能進行研究.結果錶明:閤成的硼痠三丁酯的最佳反應配比為1∶6.5(m(硼痠)∶m(正丁醇)),最佳反應溫度為110℃.閤成硼酰化鈷時按照先長鏈痠後短鏈痠的加料順序,併且硼酰化反應之前的反應體繫中必鬚無水.硼酰化鈷對硫化具有很好的促進作用,對斷裂伸長率影響不大,加入硼酰化鈷後膠料定伸應力上升,抗拉彊度下降.在未老化、熱空氣老化及鹽水老化條件下,膠料與鋼絲的粘閤彊度均有所提高.
연구붕산삼정지、붕선화고적합성방법,고찰각충인소대합성붕산삼정지、붕선화고적영향,병대붕선화고적응용성능진행연구.결과표명:합성적붕산삼정지적최가반응배비위1∶6.5(m(붕산)∶m(정정순)),최가반응온도위110℃.합성붕선화고시안조선장련산후단련산적가료순서,병차붕선화반응지전적반응체계중필수무수.붕선화고대류화구유흔호적촉진작용,대단렬신장솔영향불대,가입붕선화고후효료정신응력상승,항랍강도하강.재미노화、열공기노화급염수노화조건하,효료여강사적점합강도균유소제고.
The synthesis of tributyl borate and cobalt boroacylate were studied,various factors on the synthesis of tributyl borate and cobalt boroacylate were investigated and the application of cobalt boroacylate properties was researched.The results showed that the synthesis of tributyl borate the optimum ratio was 1∶6.5(mass ratio),the reaction temperature was 110 ℃.Cobalt boroacylate synthesis of long chain acid must be done according to the first after the short-chain acid.The acylation reaction system must be no water.Cobalt boroacylate promoted positive effects on sulfide,,and had little effect on the elongation at break.After adding cobalt boroacylate plastic correctly predicted modulus increased,and the tensile strength decreased.Before aging,the aging of hot air aging and saline conditions,the plastic material and wire bonding strength were all improved.