{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"研究了2种改性材料对膨胀防火涂料热降解和防火性能的影响.防火涂料由聚磷酸铵(APP)-季戊四醇(PER)-三聚氰胺(MEL)膨胀阻燃体系、两种树脂基体和溶剂组成.可膨胀石墨(EG)和氧化铁(Fe2O3)作为改性材料添加于涂料中,以提高涂料的防火性能和热稳定性.对于EG、Fe2O,和EG/Fe2O3对涂料防火性能、膨胀炭质层的热稳定性采用热质(TGA)、X-光电子能谱(xps)和扫描电镜(SEM)进行了系统的分析.实验结果表明:对于膨胀炭质层而言,Fe2O3提高了其热稳定性,EG影响了其微观结构,而EG/Fe2O3,则结合了2种材料的优点使涂料的防火性能得到了进一步提高.","authors":[{"authorName":"李国新","id":"c61c10c7-ed96-4e8f-a591-01c186906832","originalAuthorName":"李国新"},{"authorName":"何廷树","id":"512c1743-8045-41db-a91c-e02dc5969273","originalAuthorName":"何廷树"},{"authorName":"梁国正","id":"9685c454-b6f6-463e-840b-973e787c20b1","originalAuthorName":"梁国正"}],"doi":"10.3969/j.issn.0253-4312.2010.05.011","fpage":"37","id":"65fd1431-847a-4d89-a558-6613828d15de","issue":"5","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"428cdabe-fc7a-4c69-8d2d-04596c7998bf","keyword":"膨胀防火涂料","originalKeyword":"膨胀防火涂料"},{"id":"2826af60-7628-4c14-96be-a93980e758e6","keyword":"热降解","originalKeyword":"热降解"},{"id":"d82c0f00-fc65-4bcb-9c31-fd837e5c5b7c","keyword":"防火性能","originalKeyword":"防火性能"},{"id":"6991c618-46af-450f-864c-fc890f4dbf0a","keyword":"可膨胀石墨","originalKeyword":"可膨胀石墨"},{"id":"62916cdc-7347-4310-984b-025bde2f254c","keyword":"氧化铁","originalKeyword":"氧化铁"}],"language":"zh","publisherId":"tlgy201005011","title":"Fe2O3与可膨胀石墨对膨胀防火涂料热降解与防火性能的影响","volume":"40","year":"2010"},{"abstractinfo":"将可膨胀石墨(EG)加入到APP/PER/MEL防火涂料中,得到EG改性涂料.运用隔热实验分析和热重分析(TGA)测试APP/PER/MEL涂料和EG改性涂料的耐火极限、残炭率.结果表明:EG掺量为1%~7%,可延长耐火极限5~35 min;掺入5%的EG可使涂料800℃时残炭率提高约12%.通过扫描电镜(SEM)分析和Flymn-Wall-Ozawa、Kissinger方法计算热降解过程中两个阶段的活化能,推测EG能延长耐火极限和提高残炭率的原因为EG自身的膨胀形成\"蠕虫\"状结构改善了炭层的微观结构,并大幅度提高了热降解过程的热稳定性.","authors":[{"authorName":"李国新","id":"7f493ad8-d81e-418e-bd00-bbcb596732a6","originalAuthorName":"李国新"},{"authorName":"梁国正","id":"e4c33920-98af-49d3-8bba-82588e87c04f","originalAuthorName":"梁国正"},{"authorName":"杨秦莉","id":"f9cecd89-3875-4427-b914-73c625e2555e","originalAuthorName":"杨秦莉"},{"authorName":"宋学锋","id":"bba8c0f6-92df-4553-8a43-234919bd11b4","originalAuthorName":"宋学锋"}],"doi":"10.3969/j.issn.0253-4312.2006.11.004","fpage":"11","id":"7f2e4cd3-4260-4939-b1ad-b46e79fed257","issue":"11","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"3fe33850-1780-4640-8b3a-081958ddffea","keyword":"可膨胀石墨","originalKeyword":"可膨胀石墨"},{"id":"59c6ee19-7ebe-4ddb-9dbe-ed56e5d9f0b7","keyword":"膨胀防火涂料","originalKeyword":"膨胀防火涂料"},{"id":"f8add5d9-5db7-497c-826c-0e95753c6e10","keyword":"热降解","originalKeyword":"热降解"},{"id":"7b1d962b-7a1c-4c2f-94e7-cf8c569241ba","keyword":"活化能","originalKeyword":"活化能"}],"language":"zh","publisherId":"tlgy200611004","title":"可膨胀石墨改性APP/PER/MEL防火涂料的热降解研究","volume":"36","year":"2006"},{"abstractinfo":"研究了乳液的玻璃化温度对防火涂料阻燃性能的影响.试验发现:不同玻璃化温度的不同类型乳液制备的防火涂料,阻燃性能不同,玻璃化温度越低其阻燃性能越好;玻璃化温度相近的防火涂料,阻燃性能相近;不同玻璃化温度的同一类型乳液防火涂料,阻燃性能不同.乳液玻璃化温度对防火涂料的阻燃性能有关键作用.","authors":[{"authorName":"游潘丽","id":"3bf9edd6-e6df-4f2d-be51-81b562516f87","originalAuthorName":"游潘丽"},{"authorName":"郑群茹","id":"1f9e5c9d-0ea8-4dfe-8dc9-4ab4d834d9ee","originalAuthorName":"郑群茹"}],"doi":"10.3969/j.issn.0253-4312.2006.11.008","fpage":"26","id":"2b2efd58-8edf-40b6-ab47-bce9e261b4bc","issue":"11","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"ea0ddd83-1ebb-458f-868e-1c24e975fc3a","keyword":"玻璃化温度","originalKeyword":"玻璃化温度"},{"id":"aa70baad-2913-40a7-bc30-6f6e0ffda858","keyword":"乳液","originalKeyword":"乳液"},{"id":"b3e7471a-4d71-449a-a7b9-a4c26344c1fd","keyword":"阻燃性能","originalKeyword":"阻燃性能"},{"id":"db3f040e-b95f-47ae-9f5c-c3a5b30a3c1d","keyword":"膨胀防火涂料","originalKeyword":"膨胀防火涂料"}],"language":"zh","publisherId":"tlgy200611008","title":"膨胀防火涂料阻燃性能与乳液玻璃化温度研究","volume":"36","year":"2006"},{"abstractinfo":"通过对防火涂料贮存后耐水性差、贮存返粗、增稠原因的研究,发现涂料基料和阻燃剂是产生涂料贮存稳定性差的主要原因.采用乳液共混改性基料和微波辐射技术改性膨胀阻燃剂,显著提高了防火涂料的贮存稳定性,耐水性能由12 h提高到32 h,阻燃时间由23 min提高到58 min.","authors":[{"authorName":"游潘丽","id":"bf6f1a1b-caca-4681-a458-31659112fe96","originalAuthorName":"游潘丽"},{"authorName":"姚亚东","id":"288af068-4e8a-477d-af44-561e0a1b87a0","originalAuthorName":"姚亚东"},{"authorName":"尹光福","id":"8aabee03-23f8-47b7-a0cf-5a79c2141df9","originalAuthorName":"尹光福"},{"authorName":"杨振华","id":"bf8c0ff9-b7f1-447f-a151-b125a950e75a","originalAuthorName":"杨振华"},{"authorName":"程小伟","id":"9f98e835-93eb-4d4c-8d93-ff1f78a3a045","originalAuthorName":"程小伟"},{"authorName":"李协吉","id":"76a0b316-9739-41bb-92bd-02ed0ea79e73","originalAuthorName":"李协吉"}],"doi":"10.3969/j.issn.0253-4312.2006.04.007","fpage":"24","id":"0b592e24-56d7-44d6-8560-46dd1ab3a658","issue":"4","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"dad778ee-5f80-4cfa-b7e0-e217e41e47f4","keyword":"膨胀防火涂料","originalKeyword":"膨胀防火涂料"},{"id":"f0593d16-de60-4f19-a2e0-ca1d94b6ee24","keyword":"贮存稳定性","originalKeyword":"贮存稳定性"},{"id":"86988903-668f-4289-9b53-35062de9abb2","keyword":"耐水性","originalKeyword":"耐水性"},{"id":"6b6418e7-29bc-4d3b-bd57-697b585ebcda","keyword":"乳液共混改性","originalKeyword":"乳液共混改性"},{"id":"da803259-8760-4985-9da3-cb3ff438d1d6","keyword":"微波辐射","originalKeyword":"微波辐射"}],"language":"zh","publisherId":"tlgy200604007","title":"防火涂料贮存稳定性和耐水性研究","volume":"36","year":"2006"},{"abstractinfo":"研制了一种可在潮湿环境中使用,环境友好的膨胀型隧道防火涂料.列出了膨胀型隧道防火涂料的主要生产原料,并将膨胀型隧道防火涂料与传统隧道防火涂料作了对比,指出膨胀型隧道防火涂料的优点是涂层薄、耐火极限高、施工速度快、损耗小、养护期短.","authors":[{"authorName":"何世家","id":"016df68c-772b-460c-bd5f-96cbae6fd5e3","originalAuthorName":"何世家"}],"doi":"10.3969/j.issn.0253-4312.2009.01.017","fpage":"52","id":"4b68d244-1a5d-4f5c-84c2-9407c85d2155","issue":"1","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"12584ef9-7004-45f0-80d8-676767f3c7e6","keyword":"防火涂料","originalKeyword":"防火涂料"},{"id":"fcb0a817-58c5-4d46-b520-90eb202c5d55","keyword":"隧道火灾","originalKeyword":"隧道火灾"},{"id":"7c3fbc0b-97ba-442b-a81a-b7280832f66d","keyword":"防火保护","originalKeyword":"防火保护"}],"language":"zh","publisherId":"tlgy200901017","title":"膨胀型隧道防火涂料的研究","volume":"39","year":"2009"},{"abstractinfo":"介绍了膨胀型防火涂料阻燃防火机理,并对涂料膨胀发泡层的品质进行了研究,对今后研制高效优质的膨胀型防火涂料提供有价值的参考.","authors":[{"authorName":"覃文清","id":"fb74ef78-7fb8-4deb-a1be-4b076c8a7046","originalAuthorName":"覃文清"},{"authorName":"李风","id":"f3681219-f0f4-4b69-9e5c-a9c56f2b7ae1","originalAuthorName":"李风"}],"doi":"10.3969/j.issn.0253-4312.2003.06.005","fpage":"12","id":"59ec3ec0-6765-4aec-a458-9d7ba8722a3b","issue":"6","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"f5ce639b-dba8-4d29-bf7c-7cf331b47082","keyword":"防火涂料","originalKeyword":"防火涂料"},{"id":"ee05552f-bb0e-4ad0-aaaa-342cb1d9b204","keyword":"防火性能","originalKeyword":"防火性能"},{"id":"fc2d6947-ebff-4d79-9788-e9cd24b397e6","keyword":"阻燃隔热","originalKeyword":"阻燃隔热"},{"id":"e5274808-79e2-4124-89bf-fd1a0e5bb405","keyword":"膨胀发泡","originalKeyword":"膨胀发泡"}],"language":"zh","publisherId":"tlgy200306005","title":"膨胀型防火涂料膨胀发泡层质量对涂料防火性能的影响","volume":"33","year":"2003"},{"abstractinfo":"简述了防火涂料的分类;从粘结剂和各种防火助剂(包括脱水成炭催化剂、成炭剂、发泡剂、防火填料和颜料等)方面综述了膨胀型防火涂料的研究进展,同时介绍了可膨胀石墨在膨胀型防火涂料中的应用特点;分析了膨胀型防火涂料的发展趋势.","authors":[{"authorName":"单月圆","id":"8f4c6520-9823-40ed-a0ae-832ee24b39ce","originalAuthorName":"单月圆"},{"authorName":"焦宝祥","id":"38816b08-1c1f-4302-ade5-57bce0b34c99","originalAuthorName":"焦宝祥"}],"doi":"","fpage":"446","id":"1c929581-e2d6-4740-ad6c-68190686e95d","issue":"z2","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"2dd1c003-103d-4860-8235-a6c6364356b3","keyword":"防火涂料","originalKeyword":"防火涂料"},{"id":"a9a35163-7d65-42e7-8dec-43c141e3beb7","keyword":"膨胀型","originalKeyword":"膨胀型"},{"id":"c447147b-1845-482d-a506-0b621f136c13","keyword":"阻燃体系","originalKeyword":"阻燃体系"}],"language":"zh","publisherId":"cldb2009z2131","title":"膨胀型防火涂料的研究进展","volume":"23","year":"2009"},{"abstractinfo":"通过对制备防火涂料的各组分的热学性能测试,分析了膨胀型防火涂料的防火机理.研究结果表明:聚磷酸铵、三聚氰胺、季戊四醇三者分解温度范围符合膨胀炭质层的形成条件,具有很好的协调性.当温度达到220℃时,脱水催化剂聚磷酸铵首先分解释放无机酸,随着温度的逐渐升高,生成的酸与炭化剂季戊四醇发生酯化反应;在酯化反应前或酯化过程中,涂层发生软化熔融,同时发泡剂三聚氰胺受热分解产生大量不燃性气体,使软化熔融的涂层鼓泡膨胀,随着反应的不断进行,最后形成“蜂窝状”的膨胀炭质层.","authors":[{"authorName":"李昭","id":"7e699ab5-4a04-4670-b596-82e72ceec342","originalAuthorName":"李昭"}],"doi":"","fpage":"8","id":"5528adab-d471-4670-a521-93ef32224c88","issue":"11","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"97880728-20a3-4cc5-9345-f02080c4ca61","keyword":"防火涂料","originalKeyword":"防火涂料"},{"id":"995762f3-d90a-432d-bc4a-55f3c14ea16e","keyword":"防火机理","originalKeyword":"防火机理"},{"id":"5f41d075-45a7-4aca-be75-079a69f80ea8","keyword":"炭质层","originalKeyword":"炭质层"}],"language":"zh","publisherId":"tlgy201511002","title":"膨胀型防火涂料的防火机理研究","volume":"45","year":"2015"},{"abstractinfo":"通过微型电炉实验,研究了膨胀型钢结构防火涂料的酸碱性对其防火隔热性能的影响.结果表明:随着膨胀型钢结构防火涂料的酸性增强,其炭化体的膨胀速度和膨胀高度随之增加,防火隔热性能随之下降.当膨胀型钢结构防火涂料的碱性增加到一定程度时,其酸催化脱水剂、成炭剂和发气剂之间的协同作用发挥得最佳,使其形成具有较好隔热结构的炭化体,提高膨胀型钢结构防火涂料的防火隔热性能;当膨胀型钢结构防火涂料的碱性继续增加时,其炭化体的膨胀速度和膨胀高度随之下降,防火隔热性能也随之下降.","authors":[{"authorName":"冯雍","id":"21ca9eec-5ed8-44fd-8fff-acb8799b85c6","originalAuthorName":"冯雍"},{"authorName":"师华","id":"dbfebd89-f211-45b3-aa45-1241424278c3","originalAuthorName":"师华"},{"authorName":"熊家锦","id":"e8e9c3d2-bcfd-422f-b43e-c41dfb732445","originalAuthorName":"熊家锦"},{"authorName":"陆峰","id":"05989a50-1123-4ddc-9e67-a9252a7f25d6","originalAuthorName":"陆峰"}],"doi":"10.3969/j.issn.0253-4312.2006.10.005","fpage":"16","id":"e089dce1-fea2-4bc2-8432-ac2606333e3a","issue":"10","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"6bb3a508-927a-459f-bea0-ac179397c4ff","keyword":"膨胀型","originalKeyword":"膨胀型"},{"id":"6f364d14-3a6e-4014-85f7-c051a7e5a235","keyword":"钢结构防火涂料","originalKeyword":"钢结构防火涂料"},{"id":"581ef241-0a60-4375-a1bb-409343ffa3a1","keyword":"防火隔热","originalKeyword":"防火隔热"}],"language":"zh","publisherId":"tlgy200610005","title":"膨胀型钢结构防火涂料的酸碱性对防火隔热性能的影响","volume":"36","year":"2006"},{"abstractinfo":"综述了膨胀型防火涂料的发展历程、分类、制备工艺流程及其阻燃机理.对膨胀型防火涂料基体树脂和各种防火助荆(包括成碳剂、脱水成碳催化剂、发泡剂、防火填料和颜料及其它助剂等)的选择方法进行了分析.指出了膨胀型防火涂料的发展动向.","authors":[{"authorName":"顾军渭","id":"44ebd515-50c9-45dd-90ba-395f04160b5b","originalAuthorName":"顾军渭"},{"authorName":"张广成","id":"b0f67768-39f0-41c6-b436-48b81cacafe5","originalAuthorName":"张广成"},{"authorName":"李颖","id":"fb2f41fc-4334-4938-b6b1-dba21651ec42","originalAuthorName":"李颖"},{"authorName":"董善来","id":"3158ac88-d559-498b-b422-681652aaebed","originalAuthorName":"董善来"},{"authorName":"李洪春","id":"138a7715-aabb-4673-b304-9e11303996e4","originalAuthorName":"李洪春"},{"authorName":"贾丙雷","id":"05f1cfea-8375-4ce2-bd75-91eb5c14e4ca","originalAuthorName":"贾丙雷"},{"authorName":"吕丽","id":"5ccf55e8-6011-4023-828e-52d3d04533cc","originalAuthorName":"吕丽"}],"doi":"10.3969/j.issn.1004-227X.2005.10.015","fpage":"51","id":"51181008-8970-4813-a6aa-5f9cb3039318","issue":"10","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰 "},"keywords":[{"id":"91e3c0ac-1eaf-468d-8d19-61a48128efca","keyword":"防火涂料","originalKeyword":"防火涂料"},{"id":"30d2dc46-9f65-41f1-9e53-d4da8a6403c3","keyword":"膨胀型","originalKeyword":"膨胀型"},{"id":"79f410a1-fcb3-446f-ba30-bad303750af4","keyword":"阻燃机理","originalKeyword":"阻燃机理"},{"id":"300363a8-7f5e-47d1-aa41-0a9d67f50f49","keyword":"树脂","originalKeyword":"树脂"},{"id":"d9d6fe10-0945-4690-863c-c5b97be421d7","keyword":"助剂","originalKeyword":"助剂"}],"language":"zh","publisherId":"ddyts200510015","title":"膨胀型防火涂料的研究进展","volume":"24","year":"2005"}],"totalpage":725,"totalrecord":7243}