{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"以金红石和铝灰为原料,以铝灰中的金属铝为还原剂,采用铝热还原氮化法合成TiN-Al2O3复合粉体,研究了合成温度(600 ~1 400℃)和铝灰配入量(比理论量少20%、理论量、比理论量多20%、比理论量多50%)对合成产物的物相组成和显微结构的影响,并分析了反应机制.结果表明:1)以铝灰和金红石为原料,以铝灰中的金属铝为还原剂,通过铝热还原氮化法可制得TiN-Al2O3复合粉体,其主要物相为TiN、α-Al2O3以及少量倍长石和MgAl2O4.2)提高合成温度或增加铝灰配入量均有利于铝热还原氮化反应的进行.3)合成产物中α-Al2O3呈板片状和柱状;TiN主要呈粒状,粒径为亚微米级,能在TiN-Al2O3复相材料中起补强增韧的作用.","authors":[{"authorName":"刘海涛","id":"64724603-2e34-46a1-a63b-b03c16dfd810","originalAuthorName":"刘海涛"},{"authorName":"闵鑫","id":"18f500d8-9a63-4acd-9792-dc5eb609ae88","originalAuthorName":"闵鑫"},{"authorName":"姬海鹏","id":"ac49624c-e6e3-4dcb-aa8c-44dd01bcb469","originalAuthorName":"姬海鹏"},{"authorName":"徐友果","id":"e9aeed22-a7b7-4ce0-81dc-0d8105cea421","originalAuthorName":"徐友果"},{"authorName":"房明浩","id":"af8e3634-5066-486b-8d12-172aa23eff07","originalAuthorName":"房明浩"},{"authorName":"刘艳改","id":"0913d1e7-6824-4c12-ab58-ff6afd9301fe","originalAuthorName":"刘艳改"},{"authorName":"黄朝晖","id":"300d1741-256d-4f1c-be35-07c94ae4db7f","originalAuthorName":"黄朝晖"}],"doi":"10.3969/j.issn.1001-1935.2013.02.005","fpage":"101","id":"43ab6811-0d18-4422-9e2d-99abeadc4242","issue":"2","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料 "},"keywords":[{"id":"502d7f2d-8cde-4a79-997a-e9f5d7b4f095","keyword":"铝灰","originalKeyword":"铝灰"},{"id":"3e9e773e-74b9-4e86-9360-c915b64303d2","keyword":"金红石","originalKeyword":"金红石"},{"id":"10225900-9958-4634-b24f-f92f785a1ea4","keyword":"铝热还原氮化法","originalKeyword":"铝热还原氮化法"},{"id":"7812c6c7-cc61-4231-87e1-2eabef9bb851","keyword":"TiN-Al2O3复合粉体","originalKeyword":"TiN-Al2O3复合粉体"},{"id":"83303c5a-198d-4fac-b5ce-6afc5841b072","keyword":"物相组成","originalKeyword":"物相组成"}],"language":"zh","publisherId":"nhcl201302005","title":"金红石和铝灰铝热还原氮化合成TiN-Al2O3的物相研究","volume":"47","year":"2013"},{"abstractinfo":"对PAN,PVDF和PES 3种材质中空纤维超滤提取姬松茸多糖过程中的污染行为和清洗方法进行了研究.结果表明,引起膜污染的主要成分为蛋白质和少量多糖分子,其中PVDF膜组件对污染物吸附量最小,而且最易清洗.结合反向冲洗或加气冲洗,NaOH溶液的清洗效果最好.实验获得的清洗工艺条件为:反向冲洗+0.1%NaOH溶液在0.08 MPa压差下运行40 min,3种膜纯水通量恢复率达到93.4%~99.9%.","authors":[{"authorName":"韩永萍","id":"7ab282bc-7b20-44ec-bcbb-91ebe5713922","originalAuthorName":"韩永萍"},{"authorName":"何江川","id":"173a13c8-f39e-425e-9535-392245e58085","originalAuthorName":"何江川"},{"authorName":"缪刚","id":"6c872282-653b-4a46-8cd4-dbc1406e2751","originalAuthorName":"缪刚"}],"doi":"10.3969/j.issn.1007-8924.2006.04.014","fpage":"57","id":"ed18d331-47b5-477e-8742-f227691a9f0d","issue":"4","journal":{"abbrevTitle":"MKXYJS","coverImgSrc":"journal/img/cover/MKXYJS.jpg","id":"54","issnPpub":"1007-8924","publisherId":"MKXYJS","title":"膜科学与技术 "},"keywords":[{"id":"16b000ee-ec5f-4541-a006-c70201df8c18","keyword":"超滤","originalKeyword":"超滤"},{"id":"2b707611-b405-4a42-b58a-5e8d69159a3a","keyword":"姬松茸多糖","originalKeyword":"姬松茸多糖"},{"id":"cf0866bf-bee7-4ae5-a75e-9c5c9ff46c2a","keyword":"膜污染","originalKeyword":"膜污染"},{"id":"3747e322-f9a5-4a54-8ade-1e4040470259","keyword":"清洗","originalKeyword":"清洗"}],"language":"zh","publisherId":"mkxyjs200604014","title":"超滤姬松茸多糖的膜污染与清洗研究","volume":"26","year":"2006"},{"abstractinfo":"\"海砂屋\"是使用了不合格海砂作为混凝土砂料的建筑物.在地震灾害中,\"海砂屋\"可能造成严重的后果.须引起重视并加强管理.","authors":[{"authorName":"洪乃丰","id":"902f2b01-f969-4f02-8d6c-cf161a16672e","originalAuthorName":"洪乃丰"}],"doi":"","fpage":"426","id":"f8f8c533-2df6-4a56-b672-6c4b457df77e","issue":"7","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"235c7a6f-aead-451b-9531-256af4faaef1","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"fsyfh200807024","title":"震后反思\"海砂屋\"","volume":"29","year":"2008"},{"abstractinfo":"受河床生态环境保护的需要,可供应的建筑用河砂资源日益匮乏,海底砂已经成为我国部分沿海城市建筑用砂的重要来源.分别采用淡化海砂、原状海砂和河砂,对比分析了海砂特性及海砂混凝土的力学性能.试验研究表明,珠江口海砂及盐田海砂均属于级配良好的混凝土细集料,海砂中所含的氯离子和少量的贝壳并不影响混凝土的工作性、抗压强度、抗折强度及弹性模量,不考虑氯离子对混凝土钢筋的腐蚀时,原状海砂均也可等同于河砂使用.","authors":[{"authorName":"刘伟","id":"248c310a-d9c5-4c34-909d-0221c6a1885b","originalAuthorName":"刘伟"},{"authorName":"谢友均","id":"a01dfaeb-ae27-4a15-a85d-419e87552ad7","originalAuthorName":"谢友均"},{"authorName":"董必钦","id":"98a74a92-53e3-4ce8-bb83-dc7da0fb11c0","originalAuthorName":"董必钦"},{"authorName":"邢锋","id":"4be63209-049d-411d-a0aa-f7fb08b30118","originalAuthorName":"邢锋"}],"doi":"","fpage":"15","id":"76838501-9779-46aa-a731-88f29ba63d3d","issue":"1","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"d6a0064e-3dd3-425a-9ba2-728a791fde77","keyword":"海砂","originalKeyword":"海砂"},{"id":"6ca44e15-7e54-42fa-a083-ffb3a8e42970","keyword":"混凝土","originalKeyword":"混凝土"},{"id":"7d6fc6bb-34fb-4ba0-8b49-a8514a90bdf5","keyword":"强度","originalKeyword":"强度"},{"id":"6a7ce904-ab5b-4836-ac6f-3182303be972","keyword":"弹性模量","originalKeyword":"弹性模量"}],"language":"zh","publisherId":"gsytb201401004","title":"海砂特性及海砂混凝土力学性能的研究","volume":"33","year":"2014"},{"abstractinfo":"通过90天碳钢实海暴露试验,观察碳钢在不同腐蚀阶段的腐蚀形貌,检测了青岛海水环境中实海暴露的碳钢内锈层中的硫酸盐还原菌数量,对腐蚀机理进行了浅析。","authors":[{"authorName":"杨海洋","id":"818d03d0-447f-4e89-84fe-d835600ee10d","originalAuthorName":"杨海洋"},{"authorName":"黄桂桥","id":"3c6b67e7-2a88-4aca-9062-ca0bb3491c1b","originalAuthorName":"黄桂桥"},{"authorName":"张波","id":"b78353e6-c6af-496e-8af4-81a212774683","originalAuthorName":"张波"},{"authorName":"韩东锐","id":"524534d6-c472-40d9-a98c-650ee26469a2","originalAuthorName":"韩东锐"}],"doi":"","fpage":"712","id":"799ea727-7f63-4540-a322-569e09c977bc","issue":"8","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"25454229-4e8a-45d0-825e-2e0ad1e8af20","keyword":"碳钢","originalKeyword":"碳钢"},{"id":"3b9b21d0-7740-4211-bc4f-73b044aa52f8","keyword":"海洋环境","originalKeyword":"海洋环境"},{"id":"d464d289-87ac-4ce5-ba5e-a0aab62eb2b7","keyword":"硫酸盐还原菌","originalKeyword":"硫酸盐还原菌"}],"language":"zh","publisherId":"fsyfh201208018","title":"实海环境碳钢的微生物腐蚀浅析","volume":"33","year":"2012"},{"abstractinfo":"对A3钢在模拟海泥环境中进行了埋片试验和电化学试验,以研究海底管道在含硫酸盐还原菌(SRB)海泥中的腐蚀行为.结果表明,A3钢在砂泥中的腐蚀速率明显高于在海砂中的腐蚀速率,随温度的升高,A3钢在海砂中的腐蚀速率升高;且随温度的升高、SRB和SO42-含量的增加,A3钢在砂泥中的腐蚀速率随之升高;在无菌海泥中A3钢的腐蚀速率随温度升高而增大,主要是由于作为阴极去极化剂的氧的扩散速度随温度升高而增大;在有菌海泥中SO42-能参与阴极去极化而加速A3钢的腐蚀.","authors":[{"authorName":"魏爱军","id":"a4e7de56-640b-40aa-912a-3f9ec1403dd9","originalAuthorName":"魏爱军"},{"authorName":"霍富永","id":"11bd45f2-48ec-45e5-84ac-815580e3bf07","originalAuthorName":"霍富永"},{"authorName":"熊相军","id":"994eeb66-8f06-4860-aba9-ae59593fee6c","originalAuthorName":"熊相军"},{"authorName":"蒋华义","id":"1c90631d-7c09-45d2-b990-79d68c0fca0a","originalAuthorName":"蒋华义"},{"authorName":"杨海龙","id":"65fcafd2-fb2a-405e-8492-b9684c765cde","originalAuthorName":"杨海龙"}],"doi":"","fpage":"99","id":"a9bdf35b-9129-411d-9874-f53a8caef080","issue":"2","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"7741dd41-3221-4abe-ae20-9e91db64cb61","keyword":"A3钢","originalKeyword":"A3钢"},{"id":"5daa3f0b-741f-487b-9eea-08743de02c62","keyword":"海泥","originalKeyword":"海泥"},{"id":"dfc6487b-6bf5-4f98-98f1-02225eb77d55","keyword":"SRB","originalKeyword":"SRB"},{"id":"ae94162f-56d5-4fb4-a3d5-01880741a96a","keyword":"腐蚀","originalKeyword":"腐蚀"}],"language":"zh","publisherId":"fsyfh200902008","title":"A3钢在海泥中的腐蚀行为","volume":"30","year":"2009"},{"abstractinfo":"海管在停运期间,所采用的封存介质对海管会造成腐蚀,影响海管解封后的使用.通过模拟海管的工作环境,利用极化电阻法和失重法对封存期间选用的缓蚀剂进行筛选,确定最佳缓蚀剂及最佳加注浓度.结果表明,封存介质为淡水时,HYH-1312B缓蚀剂效果最好,从缓蚀性和经济性方面考虑,HYH-1312B的最佳加注浓度为40 mg·L-1.","authors":[{"authorName":"谢协民","id":"6742de93-0ce7-4bb9-854a-e50cd075ee83","originalAuthorName":"谢协民"},{"authorName":"李晓磊","id":"7309449d-665c-47aa-99ee-809ebdbe12b8","originalAuthorName":"李晓磊"},{"authorName":"殷立云","id":"348b7ac6-a8c9-4823-bd5b-373a46263d74","originalAuthorName":"殷立云"},{"authorName":"张艺膑","id":"a139ed42-120a-4333-a00b-ed142a6839cf","originalAuthorName":"张艺膑"},{"authorName":"李强","id":"fffa1794-7b2d-4343-b4d4-e0437267500f","originalAuthorName":"李强"},{"authorName":"孙爱平","id":"68be21f6-b2c7-445c-9d1c-5e09c9b2a6ec","originalAuthorName":"孙爱平"},{"authorName":"李丹平","id":"21ce4f9d-1452-4998-8aed-93c66ceab8c3","originalAuthorName":"李丹平"}],"doi":"","fpage":"526","id":"395950cd-72ea-4c8a-824c-c88fce570939","issue":"6","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"5523165b-10fa-477d-884b-bf0814e769d7","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"},{"id":"87d21e6e-3005-49eb-9179-25e10d8951ce","keyword":"极化电阻","originalKeyword":"极化电阻"},{"id":"e1a51c18-5475-4723-8c2a-9ad6e66de239","keyword":"缓蚀率","originalKeyword":"缓蚀率"}],"language":"zh","publisherId":"fsyfh201306018","title":"海管管线封存期间缓蚀剂筛选","volume":"34","year":"2013"},{"abstractinfo":"针对海砂矿和高炉布袋灰在化学成分和粒度分布方面的互补性,对海砂矿/高炉布袋灰的协同利用进行可行性研究,通过海砂矿/高炉布袋灰复合压块还原试验,考察了还原温度和矿灰比对产物金属化率、残碳量和抗压强度的影响.研究结果表明:二者协同利用具有良好的可行性,试验以还原温度1 200℃、矿灰比(海砂矿:高炉布袋灰质量比)3.2最佳,在此条件下氩气气氛中还原30 min,产物金属化率和抗压强度分别可达91.21%和150.1N/个.","authors":[{"authorName":"刘依然","id":"f9eaa46b-af07-4cf6-bc74-464b33fd018a","originalAuthorName":"刘依然"},{"authorName":"张建良","id":"d9b9094b-a588-4145-851c-4bf6cc73fa79","originalAuthorName":"张建良"},{"authorName":"王振阳","id":"c92e9429-f4ef-4ea1-8ca5-939ca65f0cc4","originalAuthorName":"王振阳"},{"authorName":"刘征建","id":"33b8cb27-435e-4f28-a2a7-4418a7f94ca9","originalAuthorName":"刘征建"},{"authorName":"邢相栋","id":"b68133cc-557b-45b0-8c62-c0ad84aa41e8","originalAuthorName":"邢相栋"}],"doi":"10.7513/j.issn.1004-7638.2015.05.017","fpage":"87","id":"61b9682d-670b-4daa-a5b2-683bf57331c6","issue":"5","journal":{"abbrevTitle":"GTFT","coverImgSrc":"journal/img/cover/gtft1.jpg","id":"28","issnPpub":"1004-7638","publisherId":"GTFT","title":"钢铁钒钛"},"keywords":[{"id":"fa532a42-25f7-42f6-9b00-a817e1d7fd94","keyword":"海砂矿","originalKeyword":"海砂矿"},{"id":"4e3eb9dc-3de5-4e0c-a090-51599331397e","keyword":"高炉布袋灰","originalKeyword":"高炉布袋灰"},{"id":"52e45560-2b37-4c75-b025-863c332bdb4a","keyword":"复合压块","originalKeyword":"复合压块"},{"id":"f1087163-8997-480c-876e-8f640e4943b4","keyword":"金属化率","originalKeyword":"金属化率"}],"language":"zh","publisherId":"gtft201505017","title":"海砂矿和高炉粉尘复合造块还原试验","volume":"36","year":"2015"},{"abstractinfo":"分析了芳香族、脂肪族和聚天冬氨酸酯聚脲涂层对海工混凝土抗冻性、抗氯离子侵蚀性和耐腐蚀性的影响,总结了聚脲涂层技术在海工混凝土防护领域的研究工作进展.现有的研究表明,聚脲涂层能显著提高海工混凝土的耐久性能,并为混凝土保护涂层性能的评价和研究提供参考依据,促进混凝土涂层防护技术的发展.","authors":[{"authorName":"黄微波","id":"74ae3935-e25b-440f-a9bf-791a20ecce0f","originalAuthorName":"黄微波"},{"authorName":"李志高","id":"4662fd0a-27f7-4c78-beae-b495f4238f7f","originalAuthorName":"李志高"},{"authorName":"吕平","id":"408e10dc-de4c-4fa1-aeee-0c1cc880df1a","originalAuthorName":"吕平"}],"doi":"","fpage":"82","id":"8268f2eb-f54f-415b-be62-42c051711547","issue":"1","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"5517cefa-c7e0-4d1d-8e3b-10f02c51966b","keyword":"海工混凝土","originalKeyword":"海工混凝土"},{"id":"0e6b0838-ab37-4b83-85d8-4ddfa5ca8c8e","keyword":"喷涂聚脲","originalKeyword":"喷涂聚脲"},{"id":"326d0016-3a5d-41d4-a4cd-e8d362203964","keyword":"腐蚀与防护","originalKeyword":"腐蚀与防护"},{"id":"dfaed137-1c18-4747-a2e8-9f2ecf11f25c","keyword":"研究进展","originalKeyword":"研究进展"}],"language":"zh","publisherId":"fsyfh201001023","title":"海工混凝土聚脲涂层防护研究进展","volume":"31","year":"2010"},{"abstractinfo":"研究了不同相结构双相黄铜的扩散机制,计算出黄铜在实海暴露过程中锌在β相的体扩散系数和α相晶界的扩散系数.证实了合金元素Sn对黄铜脱锌的抑制作用,揭示出脱锌深度与腐蚀速度之间的相关性.","authors":[{"authorName":"刘增才","id":"1cfd4196-91e7-4fa6-a6e4-e62dbb4af5a3","originalAuthorName":"刘增才"},{"authorName":"林乐耘","id":"296e8944-5423-4182-89fb-567e64f41d46","originalAuthorName":"林乐耘"},{"authorName":"徐杰","id":"33e4f0a9-b3d0-4032-a8f1-2d882f266115","originalAuthorName":"徐杰"},{"authorName":"赵月红","id":"a3db460f-32f8-428f-885c-698636b36419","originalAuthorName":"赵月红"}],"doi":"10.3321/j.issn:1005-3093.2000.z1.032","fpage":"145","id":"a0e5336b-f730-48ed-945b-5d1f03f4b0f3","issue":"z1","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"6475fdae-0c2d-4ccf-8de6-a84580a44b78","keyword":"实海暴露","originalKeyword":"实海暴露"},{"id":"9ab381fd-d889-41bb-bff2-d11497bc23c7","keyword":"双相黄铜","originalKeyword":"双相黄铜"},{"id":"bcb5d4bb-339a-499f-bc1f-192ee617c44a","keyword":"腐蚀脱锌","originalKeyword":"腐蚀脱锌"},{"id":"5670dd9f-6120-49be-9e16-5f359cac0296","keyword":"沿晶扩散","originalKeyword":"沿晶扩散"},{"id":"14ba83aa-830c-4901-af1e-76f83a73c7f6","keyword":"相关性","originalKeyword":"相关性"}],"language":"zh","publisherId":"clyjxb2000z1032","title":"实海暴露双相黄铜脱锌的扩散机制","volume":"14","year":"2000"}],"totalpage":28,"totalrecord":275}