{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"利用TG/DTG方法对含锆沥青缩聚行为进行研究,并与基础沥青进行对比.结果表明:含锆沥青与基础沥青反应特征相似,但比基础沥青分解起始温度高,黏度大;随着升温速率的提高,含锆沥青起始和终止的分解温度升高,DTG峰形变尖锐,峰位向高温方向移动;含锆沥青与基础沥青表观活化能相当,表明在现有锆含量下,含锆沥青的反应活性与基础沥青相比没有明显变化.","authors":[{"authorName":"肖春","id":"d61c765a-8cb3-4559-b7d0-1c617dd96a18","originalAuthorName":"肖春"},{"authorName":"谷炎","id":"abd49352-4d32-472a-8edd-440b65f5b527","originalAuthorName":"谷炎"},{"authorName":"张玲","id":"26f03bfd-50f9-47ff-a696-542ea31b5f30","originalAuthorName":"张玲"},{"authorName":"邹武","id":"d79bd30e-4fec-422c-b88a-469b2b02d5da","originalAuthorName":"邹武"},{"authorName":"程文","id":"228c2cc3-e68a-441c-8b12-6015e82c288c","originalAuthorName":"程文"}],"doi":"10.3969/j.issn.1007-2330.2014.06.007","fpage":"30","id":"9c0ba06d-cb4b-4d50-bb10-a215cdde495c","issue":"6","journal":{"abbrevTitle":"YHCLGY","coverImgSrc":"journal/img/cover/YHCLGY.jpg","id":"77","issnPpub":"1007-2330","publisherId":"YHCLGY","title":"宇航材料工艺 "},"keywords":[{"id":"90dececc-f0d0-4bee-bbdc-587c453fc0ce","keyword":"锆","originalKeyword":"锆"},{"id":"41c72bdb-4520-4ec9-b1b1-2e661c9a4200","keyword":"沥青","originalKeyword":"沥青"},{"id":"0bad7dde-3c47-4d7f-836f-f444c889a5f1","keyword":"缩聚","originalKeyword":"热解缩聚"}],"language":"zh","publisherId":"yhclgy201406007","title":"含锆沥青缩聚行为研究","volume":"44","year":"2014"},{"abstractinfo":"本文研究了用庚烷(C_7H_(16))和丁二烯(C_4H_6)气相浸渍碳制备不渗石墨,石墨的透气率降低几个数量级。用乙炔(C_2H_2)和丙烯(C_3H_6)在流化床中裂解在颗粒状材料上沉积疏松和致密碳层,这两层碳可以起微型压力容器的作用。最后,介绍气相生长碳纤维的研究。","authors":[{"authorName":"朱钧国","id":"c7692363-b1a9-4323-9d0b-49be291f9169","originalAuthorName":"朱钧国"},{"authorName":"徐世江","id":"0032dd4e-3ada-43f2-ac3e-008758f5bae5","originalAuthorName":"徐世江"},{"authorName":"杨冰","id":"2922faa3-91a4-4cd9-9b44-48c668dfb552","originalAuthorName":"杨冰"},{"authorName":"张秉忠","id":"7f20e803-cc30-43fb-960b-5f2386c36ffb","originalAuthorName":"张秉忠"},{"authorName":"王庆敏","id":"53e86e0e-269d-48a2-a0cd-b8eef362bff0","originalAuthorName":"王庆敏"},{"authorName":"刘少民","id":"0b46e766-e11c-4805-93d1-4c7c9cb6b397","originalAuthorName":"刘少民"}],"categoryName":"|","doi":"","fpage":"15","id":"f4213cc8-5d47-4e04-85e2-0bae7dbd9b62","issue":"2","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[],"language":"zh","publisherId":"1005-3093_1988_2_5","title":"碳研究","volume":"2","year":"1988"},{"abstractinfo":"通过同步氢化/缩聚反应,制得中间相沥青(MP);重点研究了四氢萘(THN)用量对MP性质的影响。研究表明THN增加,MP的软化点(SP)随之降低,H/C随之提高,不溶分随之减少;偏振光显微镜研究表明THN用量少于8%时,MP的形貌为分布不均的各向异性与各向同性两种沥青的混合物;而随着THN的增加,各向异性沥青逐渐趋于以中间相小球形态,并且较为均匀地分布到各向同性沥青基质之中。MP经保温处理后,纺丝性能得到改善,最终制得横截面呈无规结构的沥青基碳纤维。","authors":[{"authorName":"舒欣","id":"208da206-b649-4fa5-8c3a-36c0d6ce38eb","originalAuthorName":"舒欣"},{"authorName":"姚艳波","id":"95b0ccf4-67e3-43e3-addd-c56f2a526e7a","originalAuthorName":"姚艳波"},{"authorName":"夏文丽","id":"a62e8e40-cef0-469e-bf84-62b12b770577","originalAuthorName":"夏文丽"},{"authorName":"刘安华","id":"311a3cdb-1686-4ab2-a45d-b84c1fec2f47","originalAuthorName":"刘安华"},{"authorName":"董炎明","id":"62811c77-e5e3-420c-b9a0-b2bfaa5b9a2d","originalAuthorName":"董炎明"}],"doi":"","fpage":"2185","id":"7b38de75-8688-4d8e-864b-f03980ca95cf","issue":"12","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"365958f1-9318-4d53-8eb4-1fedd4a55a2a","keyword":"中间相沥青","originalKeyword":"中间相沥青"},{"id":"cd94c09e-7d94-4102-a020-ca0834eca77b","keyword":"氢化","originalKeyword":"氢化"},{"id":"cc6a406b-6e0d-4079-ae9d-52284bb30530","keyword":"缩聚","originalKeyword":"热缩聚"},{"id":"3d6030e3-d74c-46de-a8c5-beb8ce09edb3","keyword":"碳纤维","originalKeyword":"碳纤维"}],"language":"zh","publisherId":"gncl201112017","title":"同步氢化/缩聚法制备中间相沥青","volume":"42","year":"2011"},{"abstractinfo":"通过对不同结构炭的显微结构、显微图像分析,消光角的测试,将炭的微观结构分为粗糙层结构RL、光滑层结构SL、再生层状结构ReL和各向同性结构ISO.其中RL消光角最大在16-21之间;SL的消光角居中;ReL经常与SL相伴,也存在生长锥,但较之RL的柱状生长锥,ReL的生长锥不仅宽短,而且在整个生长面上可以连续再生,而RL中的柱状生长锥是贯穿整个生长面、不可再生的;ISO不具有光学活性,其消光角为零.","authors":[{"authorName":"于澍","id":"809ea2fb-60cf-44d4-a60a-111ca209f86a","originalAuthorName":"于澍"},{"authorName":"张红波","id":"54f9f17c-229e-4286-9e80-d20d845ea7d9","originalAuthorName":"张红波"},{"authorName":"张传福","id":"38d5b4fc-3751-4b7e-8e69-1a8eff2e15e9","originalAuthorName":"张传福"},{"authorName":"廖寄乔","id":"fc73f857-23a6-4754-8bab-3725feedcfce","originalAuthorName":"廖寄乔"},{"authorName":"邓艳","id":"116a86f5-1796-424c-850a-771a014a424d","originalAuthorName":"邓艳"}],"doi":"10.3969/j.issn.1005-5053.2007.01.013","fpage":"57","id":"1f9ec3be-7c77-4323-895c-cef378f4c10a","issue":"1","journal":{"abbrevTitle":"HKCLXB","coverImgSrc":"journal/img/cover/HKCLXB.jpg","id":"41","issnPpub":"1005-5053","publisherId":"HKCLXB","title":"航空材料学报"},"keywords":[{"id":"63f859b8-0335-44e2-9886-0680c9f90f3e","keyword":"炭","originalKeyword":"热解炭"},{"id":"d090a1ea-32a9-47e0-99e0-98ba3a3900f4","keyword":"粗糙层","originalKeyword":"粗糙层"},{"id":"7d191354-0166-4a67-b086-30e0e63df7dc","keyword":"光滑层","originalKeyword":"光滑层"},{"id":"087a06c4-2d70-48f1-9814-4d39e850fbfb","keyword":"再生层状结构","originalKeyword":"再生层状结构"},{"id":"e8e68384-85b4-47c3-9d1a-fa3dc2cf8730","keyword":"消光角","originalKeyword":"消光角"}],"language":"zh","publisherId":"hkclxb200701013","title":"炭的表征","volume":"27","year":"2007"},{"abstractinfo":"利用分析-质谱联用技术进行了塑料和橡胶垃圾的实验研究,探讨了这两种聚合物机理,并采用Freman-Carroll法定量分析了垃圾动力学.塑料和橡胶主要解气体产物是烃类CnHm(n≤4~5),CO2和CH4,塑料过程以脱链解聚吸热反应为主;而橡胶过程分为两个阶段,前期以交联缩聚放热反应为主,后期以脱链解聚吸热反应为主,过程总热效应为放热.","authors":[{"authorName":"赵巍","id":"ebf166d4-0b9d-4d69-a73c-abd24584b9e2","originalAuthorName":"赵巍"},{"authorName":"汪琦","id":"8e7d9861-f9c9-4233-bb5e-72eee8650596","originalAuthorName":"汪琦"},{"authorName":"邹宗树","id":"b7414af5-4dd2-4fc3-b10e-3d0eb38d1e86","originalAuthorName":"邹宗树"},{"authorName":"刘小青","id":"97502929-a92e-4ada-9ad4-8a0c0b223fdb","originalAuthorName":"刘小青"},{"authorName":"郑红霞","id":"b58a027f-ea04-46ed-907d-91597589e877","originalAuthorName":"郑红霞"}],"doi":"","fpage":"1977","id":"5ef85ca6-2ce7-49af-90dc-422a88e513d2","issue":"11","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"e4213cc3-1780-481f-b5fe-23bf71c0caf8","keyword":"分析-质谱联用","originalKeyword":"热分析-质谱联用"},{"id":"416f6f58-d9e2-42e9-bf61-9c2f110aee04","keyword":"鳆料垃圾","originalKeyword":"鳆料垃圾"},{"id":"a7fbc654-6a15-44b8-a86b-e8da2ca4a216","keyword":"橡胶垃圾","originalKeyword":"橡胶垃圾"},{"id":"bf8169a5-8b41-446a-8c8d-0fc719b026c4","keyword":"","originalKeyword":"热解"},{"id":"50f7eb1c-d128-4e4a-be04-20269a11d1f9","keyword":"动力学","originalKeyword":"动力学"}],"language":"zh","publisherId":"gcrwlxb200811046","title":"塑料和橡胶垃圾的机理及动力学分析","volume":"29","year":"2008"},{"abstractinfo":"对废轮胎在中试回转窑中进行中温热(450~650℃)所得油进行了GC-MS研究.通过对油化学组成的全面分析,讨论了轮胎反应,尤其是较高热温度和较长气相停留时间下的二次反应途径.通过与不同反应器的比较研究,进一步得出了微负压回转窑技术的反应特点,并为回转窑油的应用提供了重要参考依据.","authors":[{"authorName":"张志霄","id":"732e0078-5da8-47c7-9214-dc16d3d78ff3","originalAuthorName":"张志霄"},{"authorName":"池涌","id":"4b482e45-1851-40bb-86b5-f1c4f2b73de7","originalAuthorName":"池涌"},{"authorName":"高雅丽","id":"8e7f3075-8eb2-4188-b727-cb2ed8966a6b","originalAuthorName":"高雅丽"},{"authorName":"严建华","id":"41645e58-b656-4666-b4d0-3163b2e8faff","originalAuthorName":"严建华"},{"authorName":"阎大海","id":"e4dac16b-22df-4ffe-9d2a-87a5f8fb34e1","originalAuthorName":"阎大海"},{"authorName":"岑可法","id":"b807485e-966c-4e65-8ddd-c7063286256b","originalAuthorName":"岑可法"}],"doi":"","fpage":"159","id":"a6b045a3-37e8-4ed0-91a7-ac223fe69986","issue":"1","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"0a4c44af-57e4-4bf4-9471-201e74339605","keyword":"废轮胎","originalKeyword":"废轮胎"},{"id":"504e34bd-cc1d-47fe-9652-7f53da0f1669","keyword":"","originalKeyword":"热解"},{"id":"0596424d-8f03-4075-9e7e-51d8edd8bab4","keyword":"芳香烃","originalKeyword":"芳香烃"}],"language":"zh","publisherId":"gcrwlxb200501046","title":"废轮胎油的成分分析及二次反应","volume":"26","year":"2005"},{"abstractinfo":"采用重分析仪研究了固相缩聚后SA型透明聚酰胺(简称SATPA)的降解过程,并用Kissinger方法、Flynn-Wall-Ozawa方法,Coats-Redfern方法联合对其降解机理进行了探讨.研究结果表明,固相后缩聚SATPA起始降解温度均在440℃左右,其热稳定性良好.在氮气气氛中,固相后缩聚SATPA的降解反应为一步反应,降解机理为一维相界控制反应.","authors":[{"authorName":"蒋爱云","id":"d3a032d0-e5b4-4409-b8f4-bc557c1978fe","originalAuthorName":"蒋爱云"},{"authorName":"赵磊","id":"b8558fda-ee01-4c4f-8ed7-73921202af70","originalAuthorName":"赵磊"},{"authorName":"李新法","id":"968adfde-9648-4f71-8f5e-a5631a3a1785","originalAuthorName":"李新法"},{"authorName":"陈金周","id":"329fbede-3636-4f36-bf4e-3c752406bb29","originalAuthorName":"陈金周"}],"doi":"","fpage":"7","id":"5151b355-6efc-4c9a-9cc9-334e5c335427","issue":"2","journal":{"abbrevTitle":"HCCLLHYYY","coverImgSrc":"journal/img/cover/HCCLLHYYY.jpg","id":"42","issnPpub":"1671-5381","publisherId":"HCCLLHYYY","title":"合成材料老化与应用"},"keywords":[{"id":"a6c630c1-0492-4c70-84fa-c86fa263ec95","keyword":"SA型透明聚酰胺","originalKeyword":"SA型透明聚酰胺"},{"id":"aea0b4d9-e975-413f-85d2-8b3a672cd3b5","keyword":"固相缩聚","originalKeyword":"固相缩聚"},{"id":"eb26fcc4-5571-43d3-b4c1-b4a4f75c657b","keyword":"降解","originalKeyword":"热降解"},{"id":"235b78e5-5fb2-4ff4-b7bf-9edb6ebe69b5","keyword":"降解机理","originalKeyword":"降解机理"},{"id":"681f1f77-89d1-494e-ac9c-faae69f0d5d6","keyword":"TG","originalKeyword":"TG"}],"language":"zh","publisherId":"hccllhyyy201302003","title":"固相后缩聚SA型透明聚酰胺的降解及机理研究","volume":"42","year":"2013"},{"abstractinfo":"云南省昭通褐煤在固定床气化炉内,分别以10,16,36℃/min的升温速率连续升温至500℃,对不同温度范围产生的煤气性质进行了分析.升温速率和温度对煤气的组成和热值都产生一定的影响.","authors":[{"authorName":"金会心","id":"903d1f7b-d7f0-4ead-90d5-a0fec97a138e","originalAuthorName":"金会心"},{"authorName":"王华","id":"52bf6a28-a9d5-43d6-ab31-063def9b0f13","originalAuthorName":"王华"},{"authorName":"郭森魁","id":"a8645e78-62e4-4cbd-aa7b-a475ff1572a9","originalAuthorName":"郭森魁"}],"doi":"10.3321/j.issn:0412-1961.2000.04.024","fpage":"441","id":"6a9c024d-0dd3-4936-ad0f-7718072cf7e6","issue":"4","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"78cc772c-39f5-4c73-bc6a-9274dadc446a","keyword":"褐煤","originalKeyword":"褐煤"},{"id":"0d5f5bed-f16f-4c12-8b7a-87e637d4eecb","keyword":"升温速率","originalKeyword":"升温速率"},{"id":"f1feed9b-0c5e-4f91-8878-d0890e42c440","keyword":"温度","originalKeyword":"热解温度"},{"id":"3638cc7d-1236-42b1-94e0-adfb0e0c57a7","keyword":"煤气成分","originalKeyword":"煤气成分"},{"id":"8ea3c412-273a-42da-8831-5fc297ea99b3","keyword":"煤气热值","originalKeyword":"煤气热值"}],"language":"zh","publisherId":"jsxb200004024","title":"褐煤煤气的性质","volume":"36","year":"2000"},{"abstractinfo":"云南省昭通褐煤在固定广西壮族自治区气化炉内, 分别以10, 16, 36℃/min的升温速度连续升温至500℃,对不同温度范围产生的煤气性质进行了分析, 升温速率和温度对煤气的组成和热值都产生一定的影响.","authors":[{"authorName":"金会心","id":"2274b163-e8ab-4414-bbb6-668bc17b712c","originalAuthorName":"金会心"},{"authorName":"王华","id":"2da21321-6da1-43eb-8f8c-5d15abf3915d","originalAuthorName":"王华"}],"categoryName":"|","doi":"","fpage":"441","id":"a0390b22-9bda-462f-bef3-394db24bc6d4","issue":"4","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"711c01ec-5c9a-452a-9fac-1e16f5bb84d9","keyword":"褐煤","originalKeyword":"褐煤"},{"id":"aee10adb-8de1-4b99-a81c-bf4d61436756","keyword":"null","originalKeyword":"null"},{"id":"6c823a44-75ee-40f5-8b7b-a9b30df46112","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_2000_4_20","title":"褐煤煤气的性质","volume":"36","year":"2000"},{"abstractinfo":"控制CVD工艺条件得到球状炭, 通过对沉积中间体的定性分析,证实了此过程中存在\"缩聚机理\". 运用热力学和晶体成核-长大理论,解释了温度对炭形貌和沉积过程的影响.","authors":[{"authorName":"李国荣","id":"d8feaa77-3b23-4534-b9dc-7ef11bf787cf","originalAuthorName":"李国荣"},{"authorName":"黄永秋","id":"1179f931-12a2-4139-a02b-4b9320b1cb80","originalAuthorName":"黄永秋"},{"authorName":"潘鼎","id":"2b2bd345-d796-4c7b-b252-4fb2acaf6635","originalAuthorName":"潘鼎"}],"doi":"10.3969/j.issn.1001-4381.2004.07.013","fpage":"51","id":"99b71727-cb16-4743-819d-c046c6a79ea6","issue":"7","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"f5c18cf1-13eb-47d0-ada7-8332a51e2a41","keyword":"炭","originalKeyword":"热解炭"},{"id":"170d3aa7-921d-45ef-b3e0-5a6fcaeb2d9c","keyword":"化学气相沉积","originalKeyword":"化学气相沉积"},{"id":"8e7d22d8-d0f1-4b7a-afbb-9b30dd470891","keyword":"沉积机理","originalKeyword":"沉积机理"}],"language":"zh","publisherId":"clgc200407013","title":"n-C7H16/CCl4体系CVD-炭的形貌与形成机理","volume":"","year":"2004"}],"totalpage":2753,"totalrecord":27529}