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  4. 活性剂对CO2气体保护焊焊缝成形及飞溅的影响

材料开发与应用, 2006, 21(1): 24-30. doi: 10.3969/j.issn.1003-1545.2006.01.007

活性剂对CO2气体保护焊焊缝成形及飞溅的影响

袁玉兰 1, , 王惜宝 2, , 朱冬妹 脱石为原料,采取共聚法制备镍铝基柱化剂,并用湿法工艺合成镍铝基柱撑蒙石,采用X射线衍射、傅里叶红外光谱分析以及N2吸附-等分析方法对柱撑蒙石的热处理(300~700℃)产物进行研究.研究结果表明:随着焙烧温度的升高,镍铝柱撑蒙石层间的聚合羟基阳离子发生脱水羟基反应,羟基阳离子释放的质子进入Si-O八面体层,与Si-O-Al键反应形成Si-OH和Al-OH键.柱撑蒙石随焙烧温度的升高,结晶性变差,当温度达到600℃时,(001)面衍射峰已不明显,层结构受到严重破坏,比表面积大幅减小.d(001)由1.9023 nm减小至1.3591 nm,比表面积由156.39 m2/g减小到71.02 m2/g,而平均孔径由5.126 nm增加至9.362 nm.","authors":[{"authorName":"刘晓文","id":"b173df6c-2e1f-498f-83c2-7d75f8debb8c","originalAuthorName":"刘晓文"},{"authorName":"高海青","id":"33276e62-bda3-40d4-b748-e72c641f45a9","originalAuthorName":"高海青"},{"authorName":"赵皇","id":"331d4631-61d8-4bca-a45c-0098f1575d5a","originalAuthorName":"赵皇"},{"authorName":"刘晓旭","id":"a5bec69e-639f-41f2-bda1-e1ae1e29cb40","originalAuthorName":"刘晓旭"}],"doi":"","fpage":"44","id":"9d4b48c8-971f-44b3-b76b-893a187ebb29","issue":"6","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"fd9e9625-ff7c-49f0-8c5b-8345513e3b4c","keyword":"镍铝基柱撑蒙石","originalKeyword":"镍铝基柱撑蒙脱石"},{"id":"ea2620ae-c031-4fb0-a1d0-6228ffe7a9da","keyword":"X射线衍射","originalKeyword":"X射线衍射"},{"id":"284c850d-d3ff-41f1-837a-2f02259dedd3","keyword":"红外光谱","originalKeyword":"红外光谱"},{"id":"654b7310-dd08-4fc5-9f64-73fcc7bf650c","keyword":"氮气吸附-","originalKeyword":"氮气吸附-脱附"},{"id":"09c71a63-e6b4-436f-a09a-4523b50ad9e5","keyword":"热行为","originalKeyword":"热行为"}],"language":"zh","publisherId":"cldb201406012","title":"镍铝基柱撑蒙石的热行为研究","volume":"28","year":"2014"},{"abstractinfo":"研究了硫酸溶液中三种不同的含氮有机缓蚀剂与Ⅰ-在铁电极上的联合吸附和阳极行为。结果表明,联合吸附能明显提高吸附层的稳定性;阳极粒子浓度的关系可为判断联合吸附模型和粒子竞争吸附能力提供有用信息;吸附层稳定性越高,其阳极速度越快。","authors":[{"authorName":"汪的华","id":"8ca8df0d-238c-4f1d-a770-e536f6d69ddf","originalAuthorName":"汪的华"},{"authorName":"卜宪章","id":"47e9a111-5397-47ad-a5a8-f6d943cec067","originalAuthorName":"卜宪章"},{"authorName":"邹津耘","id":"6f8699bf-7225-428d-9f87-fade024bf6f1","originalAuthorName":"邹津耘"}],"categoryName":"|","doi":"","fpage":"15","id":"cd4ad48e-be7f-4487-9f50-57a069aeb967","issue":"1","journal":{"abbrevTitle":"ZGFSYFHXB","coverImgSrc":"journal/img/cover/中国腐蚀封面19-3期-01.jpg","id":"81","issnPpub":"1005-4537","publisherId":"ZGFSYFHXB","title":"中国腐蚀与防护学报"},"keywords":[{"id":"97edc50a-289f-45c0-bb34-1db4ae2a19a1","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"},{"id":"0478f159-1e72-44c7-87ae-3fae267f7849","keyword":"iron","originalKeyword":"iron"},{"id":"77154044-5bf3-4464-bff3-2b5a0a9373a1","keyword":"joint adsorption","originalKeyword":"joint adsorption"},{"id":"05d14700-2630-48fb-8dcc-3a92ed6f4acc","keyword":"Anodic desorption","originalKeyword":"Anodic desorption"}],"language":"zh","publisherId":"1005-4537_1999_1_9","title":"有机缓蚀剂和Ⅰ的联合吸附与阳极","volume":"19","year":"1999"},{"abstractinfo":"研究了活性炭纤维(ACF)前处理及再生前后动态吸附氙的性能差异, 重点研究了温度对氙行为的影响. 结果表明, 前处理对活性炭纤维动态
吸附氙的性能有较大影响, 而再生处理对吸附?性能的影响不大. 高温加热氙的效率>97%, 但存在150℃的温度阈值, 且在150℃以上, 温度
的变化对氙的没有影响.","authors":[{"authorName":"陈占营","id":"c0a5cd15-2eef-452c-9282-767b1e7ac4d8","originalAuthorName":"陈占营"},{"authorName":"王旭辉","id":"47e4685d-f5ed-458a-b69e-0639d626f011","originalAuthorName":"王旭辉"},{"authorName":"王亚龙","id":"96935fe9-3046-45e1-81b9-c35d9e10bafe","originalAuthorName":"王亚龙"},{"authorName":"张海涛","id":"888a6217-69eb-440e-bfd6-ddba70fbc352","originalAuthorName":"张海涛"},{"authorName":"谢金川","id":"2b40bb81-32a3-4fa8-ab87-5593ff98c4e5","originalAuthorName":"谢金川"}],"categoryName":"|","doi":"","fpage":"81","id":"00a74608-6734-43ef-b0db-671ad721ac0a","issue":"1","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"110d22f3-7e47-4975-a2e6-9e3883776a8c","keyword":"活性炭纤维","originalKeyword":"活性炭纤维"},{"id":"5b0f98c7-434d-483f-8940-aa4758cf57da","keyword":" xenon","originalKeyword":" xenon"},{"id":"d1ed25e4-fc97-40f5-899b-7dece19709a1","keyword":" dynamic adsorption","originalKeyword":" dynamic adsorption"},{"id":"d5c3fe01-dda2-400b-86d7-15397f29da70","keyword":" desorption","originalKeyword":" desorption"}],"language":"zh","publisherId":"1000-324X_2006_1_18","title":"活性炭纤维动态吸附氙性能及氙行为研究","volume":"21","year":"2006"},{"abstractinfo":"研究了活性炭纤维(ACF)前处理及再生前后动态吸附氙的性能差异,重点研究了温度对氙行为的影响.结果表明,前处理对活性炭纤维动态吸附氙的性能有较大影响,而再生处理对吸附性能的影响不大.高温加热氙的效率>97%,但存在150℃的温度阈值,且在150℃以上,温度的变化对氙的没有影响.","authors":[{"authorName":"陈占营","id":"f579861f-73b9-48ac-8b23-898e5df46942","originalAuthorName":"陈占营"},{"authorName":"王旭辉","id":"2f6db183-b70a-4d78-9df5-d45a87b65eee","originalAuthorName":"王旭辉"},{"authorName":"王亚龙","id":"a46f17f0-488c-46f3-8463-aedb364502cf","originalAuthorName":"王亚龙"},{"authorName":"张海涛","id":"4989d213-3b08-4f9b-bd7e-f7e00f9ae087","originalAuthorName":"张海涛"},{"authorName":"谢金川","id":"2029fc4a-4780-4a95-b876-c0757eef9490","originalAuthorName":"谢金川"}],"doi":"10.3321/j.issn:1000-324X.2006.01.014","fpage":"81","id":"b99665ef-6314-4724-baa2-0154e7b6610b","issue":"1","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"dc621cf4-9008-4e6d-98cb-f39c584187df","keyword":"活性炭纤维","originalKeyword":"活性炭纤维"},{"id":"cd09d516-a306-4fe7-82ab-61f21b1db96f","keyword":"氙","originalKeyword":"氙"},{"id":"81a907d9-6ccf-46d3-9b54-e49bdeba08d6","keyword":"吸附","originalKeyword":"吸附"},{"id":"be383bff-3ba3-49fd-8770-0f9a1a22b09b","keyword":"","originalKeyword":"脱附"}],"language":"zh","publisherId":"wjclxb200601014","title":"活性炭纤维动态吸附氙性能及氙行为研究","volume":"21","year":"2006"},{"abstractinfo":"研究化疗药物阿霉素在磁性纳米微球表面的吸行为.测定常温时磁性微球静态交换动力学曲线、吸附等温线,求得磁性微球液膜吸附的平衡速率常数为k=0.0072min-1及吸附等温线方程为1/q=0.1305C-1e+0.0054.测定静态曲线,经超声多次实验的结果是阿霉素浓度维持在13ug/ml.透射电镜(TEM)可观察到吸附前后的形貌的不同,激光粒度仪测定磁性微球聚集体的粒径平均为782.3nm.结果表明:阿霉素在磁性微球表面的吸附符合Langmuir型吸附,载药微球在水中可以缓慢释放药物,并且保持了亚微米级的粒径.","authors":[{"authorName":"韩涛","id":"0ba9049c-7915-47de-aff6-13e71281ccea","originalAuthorName":"韩涛"},{"authorName":"李富荣","id":"8b66dc3a-3746-4bb0-b8fd-c96a2a989bff","originalAuthorName":"李富荣"},{"authorName":"张渊明","id":"3b4f824c-e1e7-419d-bedd-c46481c3bc1f","originalAuthorName":"张渊明"},{"authorName":"颜秋平","id":"fa18bf38-bab4-4400-8fc7-5bfd45037b8a","originalAuthorName":"颜秋平"},{"authorName":"周汉新","id":"a1b1c6d3-bcdb-4a52-ba25-e1cee2ac2507","originalAuthorName":"周汉新"}],"doi":"10.3969/j.issn.1673-2812.2006.02.024","fpage":"258","id":"c6d4ad0e-14f0-42a3-83da-97a8a84995de","issue":"2","journal":{"abbrevTitle":"CLKXYGCXB","coverImgSrc":"journal/img/cover/CLKXYGCXB.jpg","id":"13","issnPpub":"1673-2812","publisherId":"CLKXYGCXB","title":"材料科学与工程学报"},"keywords":[{"id":"bcba0f94-318a-4566-bfff-3e9eef053706","keyword":"阿霉素","originalKeyword":"阿霉素"},{"id":"0449168e-32be-4274-a25e-79b59cae92f5","keyword":"磁性纳米微球","originalKeyword":"磁性纳米微球"},{"id":"784944c4-ea60-4a50-b0e7-0fb0297b7791","keyword":"吸附等温线","originalKeyword":"吸附等温线"},{"id":"89ac4331-81aa-4add-943d-fd8730193e2f","keyword":"磁响应性","originalKeyword":"磁响应性"}],"language":"zh","publisherId":"clkxygc200602024","title":"一种磁性纳米药物载体的阿霉素吸附实验","volume":"24","year":"2006"},{"abstractinfo":"以聚天冬氨酸(PASP)与木质纤维素(LNC)水溶液聚合法制备出的聚天冬氨酸/木质纤维素水凝胶(PASP/LNC)为吸附剂,对Pb(Ⅱ)进行吸附实验,研究溶液的初始离子浓度、pH值、吸附时间和吸附温度对溶液中Pb(Ⅱ)吸附量的影响.结果表明,溶液中Pb(Ⅱ)初始离子浓度为0.04 mol/L,溶液pH值为5.5,吸附时间为120min,吸附温度为30℃时,PASP/LNC水凝胶对Pb(Ⅱ)的吸附量达到最大为972.35mg/g.吸附过程符合准二级动力学模型,吸附等温线符合Langmuir模型.采用X射线衍射分析、比表面积和平均孔径分析、扫描电镜、傅里叶变换红外光谱分析PASP/LNC水凝胶的结构和吸附机理.使用HNO3对PASP/LNC进行实验.结果表明,HNO3浓度为0.04 mol/L,温度为30℃,时间达到60 min时,最大量为928.36mg/g.吸附/循环实验表明,PASP/LNC水凝胶重复使用4次后吸附量仍较高,是一种可重复使用的高效吸附材料.","authors":[{"authorName":"叶满辉","id":"5cbd8340-8ef3-489f-af47-2f441a413a55","originalAuthorName":"叶满辉"},{"authorName":"王丽","id":"390596d5-7efc-458c-87d4-ace84f13ce15","originalAuthorName":"王丽"},{"authorName":"杜慧琴","id":"bb8d8c35-53da-4b1c-9009-86ef2367db17","originalAuthorName":"杜慧琴"}],"doi":"10.16865/j.cnki.1000-7555.2016.11.013","fpage":"63","id":"f58061b6-19d2-4f2a-8f92-90a47bb39875","issue":"11","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"dfa01a0d-d00f-45c7-ade6-6f2b867cb9de","keyword":"聚天冬氨酸","originalKeyword":"聚天冬氨酸"},{"id":"0085826f-8dac-422a-98b1-d68647a94e6c","keyword":"木质纤维素","originalKeyword":"木质纤维素"},{"id":"8ee50257-d10b-4636-ab85-57ea26e30485","keyword":"水凝胶","originalKeyword":"水凝胶"},{"id":"a9063bf9-1521-4ef7-ab47-87172c10ae9a","keyword":"Pb(Ⅱ)","originalKeyword":"Pb(Ⅱ)"},{"id":"f3f27582-aef8-441b-bed9-8bf111e3461a","keyword":"吸附","originalKeyword":"吸附"},{"id":"d4a1c031-edce-4508-b8ee-e0f1c5f30b66","keyword":"","originalKeyword":"脱附"}],"language":"zh","publisherId":"gfzclkxygc201611013","title":"聚天冬氨酸/木质纤维素水凝胶对Pb(Ⅱ)的吸附性能","volume":"32","year":"2016"},{"abstractinfo":"金属在缓蚀剂体系中的阳极极化曲线上存在着电流迅速增加而形成的电位平阶现象。逆向扫描极化时,这个电位平阶消失。这一现象起因于吸附在电极表面的缓蚀剂发生阳极。文中提出用一电化学参数—电位Edes来表征缓蚀剂阳极现象。Edes是缓蚀剂大量时的电位,其物理意义为缓蚀剂在电极表面因阳极极化而引起速度稍大于其吸附速度。缓蚀剂阳极速度取决于外加电位与电位的差值。外加电位越正于电位,缓蚀剂速度越大;反之,缓蚀剂不发生阳极。","authors":[{"authorName":"王佳","id":"408dc8d3-550d-4250-a431-2accf0672323","originalAuthorName":"王佳"},{"authorName":"曹楚南","id":"1d361cf2-48ac-4850-86e5-b82cf2fed43e","originalAuthorName":"曹楚南"},{"authorName":"陈家坚","id":"c4213f1c-4160-40a6-8594-4c55371886de","originalAuthorName":"陈家坚"},{"authorName":"张呜镝","id":"25e19766-36b9-4654-a221-39e0b2687e04","originalAuthorName":"张呜镝"},{"authorName":"叶国栋","id":"c2e65094-19d3-441b-8dfe-527fd2b6fb2e","originalAuthorName":"叶国栋"},{"authorName":"林海潮","id":"68762a0a-6b43-47a5-b3d9-124d0b03848e","originalAuthorName":"林海潮"}],"categoryName":"|","doi":"","fpage":"241","id":"3aefcf54-b60f-49b8-a74b-c726da796695","issue":"4","journal":{"abbrevTitle":"ZGFSYFHXB","coverImgSrc":"journal/img/cover/中国腐蚀封面19-3期-01.jpg","id":"81","issnPpub":"1005-4537","publisherId":"ZGFSYFHXB","title":"中国腐蚀与防护学报"},"keywords":[{"id":"bf6c7f05-77ec-4cb0-8f0c-fb2c8cb5d717","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"},{"id":"11d2bfda-bb90-4ddc-8d09-7131b3bf90c4","keyword":" Anodic polarization","originalKeyword":" Anodic polarization"},{"id":"d53fe75e-9849-4be6-bd24-7065e90dc380","keyword":" Desorption","originalKeyword":" Desorption"}],"language":"zh","publisherId":"1005-4537_1995_4_9","title":"缓蚀剂阳极现象的研究──Ⅰ.缓蚀剂阳极现象","volume":"15","year":"1995"},{"abstractinfo":"用电化学方法研究了缓蚀剂发生阳极的机制。实验中发现缓蚀剂复盖度在低于电位时保持不变,达到电位后迅速降低。电位则随缓蚀剂抑制能力的增强、浓度增加和氯离子的存在而正移。然而,缓蚀剂层对阳极溶解的阻力在电位之前就逐渐降低。依据这些结果提出离子化金属粒子对吸附层的冲击导致缓蚀剂发生阳极,而大量缓蚀剂附则发生在达到电位后、缓蚀剂再吸附修补吸附层速度低于速度时。","authors":[{"authorName":"王佳","id":"be37fa80-8252-458e-b566-f9662cafb57b","originalAuthorName":"王佳"},{"authorName":"曹楚南","id":"0fcab376-afa3-4098-a11d-ac8a3fa789bc","originalAuthorName":"曹楚南"}],"categoryName":"|","doi":"","fpage":"9","id":"d75e69c0-5014-4cf2-8c32-9a162710586f","issue":"1","journal":{"abbrevTitle":"ZGFSYFHXB","coverImgSrc":"journal/img/cover/中国腐蚀封面19-3期-01.jpg","id":"81","issnPpub":"1005-4537","publisherId":"ZGFSYFHXB","title":"中国腐蚀与防护学报"},"keywords":[{"id":"8fbf8250-bf77-455d-8d44-1ecc8101c54f","keyword":"","originalKeyword":"脱附"},{"id":"25d444c8-f8ee-43e0-a3c9-cf1c843cc333","keyword":" Inhibitor","originalKeyword":" Inhibitor"},{"id":"b17c04e8-1b40-4ab1-a229-dd6f613435e6","keyword":" Mechanism","originalKeyword":" Mechanism"}],"language":"zh","publisherId":"1005-4537_1996_1_14","title":"缓蚀剂阳极现象的研究──Ⅲ.缓蚀剂阳极机制","volume":"16","year":"1996"},{"abstractinfo":"应用程序升温技术研究了氢甲酰化反应物CO,H2和C2H4在经PPh3修饰的Rh/SiO2(PPh3-Rh/SiO2)催化剂上的吸附-行为. CO-TPD结果显示, Rh/SiO2催化剂在348, 398和525 K处有3个峰, PPh3-Rh/SiO2催化剂仅在368 K处出现峰,表明催化剂的吸附性能发生了明显变化. 采用原位红外光谱研究了PPh3-Rh/SiO2催化剂上CO的吸附态. 结果表明, 2 040 cm-1处吸收峰归属于PPh3修饰的Rh粒子上线式吸附的CO. 这种吸附态既不同于Rh/SiO2多相催化剂表面Rh粒子上的CO吸附态,也不同于相应均相催化剂中的羰基配位态. TPD和FT-IR结果表明,在低压下PPh3-Rh/SiO2催化剂对氢甲酰化反应已具有相当的催化性能.","authors":[{"authorName":"朱何俊","id":"5943f46d-f000-4779-a624-1724ade880fd","originalAuthorName":"朱何俊"},{"authorName":"丁云杰","id":"b749c0e6-ea6f-4d32-8402-93e445700c6c","originalAuthorName":"丁云杰"},{"authorName":"严丽","id":"18d577bc-30a7-4e6c-b09b-845e084f14bd","originalAuthorName":"严丽"},{"authorName":"李显明","id":"a520bc9d-53ca-4195-9e0c-23c41678f0f4","originalAuthorName":"李显明"},{"authorName":"熊建民","id":"d7de669e-269b-4837-892b-8cb5549a0c7e","originalAuthorName":"熊建民"},{"authorName":"潘振栋","id":"75313672-4ff5-4ce8-8001-6a994aadc4f8","originalAuthorName":"潘振栋"},{"authorName":"江大好","id":"41c6f390-4917-43fe-8cb1-ee801e1506c9","originalAuthorName":"江大好"},{"authorName":"林励吾","id":"3b821fb6-c8c4-46d4-bab9-4d41b830d55e","originalAuthorName":"林励吾"}],"doi":"","fpage":"884","id":"0973050f-b7a0-4f0f-be57-528244789d2f","issue":"10","journal":{"abbrevTitle":"CHXB","coverImgSrc":"journal/img/cover/CHXB.jpg","id":"18","issnPpub":"0253-9837","publisherId":"CHXB","title":"催化学报 "},"keywords":[{"id":"e6ddfe29-12ae-4170-ad4c-bac2153f5294","keyword":"氢甲酰化","originalKeyword":"氢甲酰化"},{"id":"b8db20f4-c048-42c6-ae18-70ddd968f976","keyword":"三苯基膦","originalKeyword":"三苯基膦"},{"id":"43b64ae6-39bc-4076-aa73-56098cb293c3","keyword":"铑","originalKeyword":"铑"},{"id":"3d720ce4-0e61-43e9-9fbc-6f43c3cd7d63","keyword":"氧化硅","originalKeyword":"氧化硅"},{"id":"c0a77bbe-087d-4643-b244-55a2b1622e63","keyword":"负载型催化剂","originalKeyword":"负载型催化剂"},{"id":"ce475fa5-42a9-4842-a803-0288e0cbc6bd","keyword":"吸附-","originalKeyword":"吸附-脱附"}],"language":"zh","publisherId":"cuihuaxb200510014","title":"经PPh3修饰的Rh/SiO2催化剂的吸附-性能","volume":"26","year":"2005"},{"abstractinfo":"采用电化学阳极氧化法以含氟的乙二醇溶液为电解液阳极氧化纯钛制备出排列规则的高长径比TiO2纳米管阵列膜,并用扫描电镜(SEM)、比表面积仪表征了TiO2纳米管阵列膜的形貌和比表面积。结果表明,所制得的TiO2纳米管阵列的管径约180nm,管长可达230μm,比表面积约59.8m2/g。以牛血清白蛋白(BSA)为药物蛋白分子的模型,并研究了TiO2纳米管阵列膜对BSA的吸附行为,考察了溶液pH值、BSA初始浓度和溶液离子强度对BSA吸附的影响与吸附态的BSA在不同pH值的PBS溶液中的释放行为。结果表明,BSA分子在其等电点(pH值=4.8)附近较容易吸附到TiO2纳米管上,吸附量随着BSA初始浓度的增加而增加,较高的离子强度会降低BSA的吸附,碱性条件下吸附态的BSA容易从TiO2纳米管上,并由于纳米管的扩散限制效益呈现一定程度的缓释。","authors":[{"authorName":"肖秀峰","id":"16ce0055-dd50-4832-a499-4b22776f6319","originalAuthorName":"肖秀峰"},{"authorName":"梁建鹤","id":"253d71cc-8be4-4c3a-ac87-dabd4d40f821","originalAuthorName":"梁建鹤"},{"authorName":"汤海贞","id":"c9826a70-43bc-481c-a1b1-6e5feb12fe28","originalAuthorName":"汤海贞"},{"authorName":"杨小娟","id":"eb9179c1-5603-4747-97b3-df7b5b346945","originalAuthorName":"杨小娟"},{"authorName":"刘榕芳","id":"011cbebd-2d03-403f-9c6a-f7d907d05c77","originalAuthorName":"刘榕芳"}],"doi":"","fpage":"3092","id":"6d00bb1a-6487-42b3-b213-6094291e49a4","issue":"22","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"a67c6c1f-330d-43f0-ad96-477a8427607d","keyword":"电化学阳极氧化法","originalKeyword":"电化学阳极氧化法"},{"id":"c51e460e-51fc-4412-befb-b197d3cb9e6a","keyword":"TiO2纳米管阵列","originalKeyword":"TiO2纳米管阵列"},{"id":"01bef3ca-86f2-4e28-a31f-260ed3f30542","keyword":"牛血清白蛋白","originalKeyword":"牛血清白蛋白"}],"language":"zh","publisherId":"gncl201222014","title":"TiO2纳米管阵列膜对牛血清白蛋白的吸附","volume":"43","year":"2012"}],"totalpage":1201,"totalrecord":12006}