{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":3,"startPagecode":1},"records":[{"abstractinfo":" 应用动电位扫描法和失重法研究了竹叶提取液在硫酸介质中的缓蚀性能及其与碘化钾的复配协同效应.实验表明,当浓度为0.1 g/ml时,竹叶提取液具有良好的缓蚀性能,与碘化钾复配后,缓蚀效果更佳.电化学研究表明,竹叶缓蚀剂为混合型缓蚀剂,作用机理为几何覆盖效应.利用失重实验数据通过计算拟合,结果表明,竹叶缓蚀剂的有效缓蚀成份在碳钢表面的吸附符合El-Awady动力学模型与Flory-Huggins吸附等温方程.","authors":[{"authorName":"郑兴文","id":"808f75a5-6eef-4000-b589-89fc98e7eb43","originalAuthorName":"郑兴文"},{"authorName":"龚敏","id":"4da9110f-cc79-4aa3-a3b4-f46dd84013b2","originalAuthorName":"龚敏"},{"authorName":"邹振","id":"52c34e1a-4a30-49e6-a090-e1d6562bf662","originalAuthorName":"邹振"},{"authorName":"魏巍","id":"f1f2a533-dd80-4523-86cb-7b174f6c1d46","originalAuthorName":"魏巍"},{"authorName":"黄文恒","id":"296b9ff9-abd9-4131-9994-da485cdee634","originalAuthorName":"黄文恒"}],"categoryName":"|","doi":"","fpage":"443","id":"980cc622-334f-48a7-9448-03b7ae733f33","issue":"5","journal":{"abbrevTitle":"FSXB","coverImgSrc":"journal/img/cover/腐蚀学报封面.jpg","id":"24","issnPpub":"2667-2669","publisherId":"FSXB","title":"腐蚀学报(英文)"},"keywords":[{"id":"c6765091-f4eb-4b06-8479-2774f026efa3","keyword":"竹叶","originalKeyword":"竹叶"},{"id":"00396ac9-73ef-48b6-aa7e-1527c95d4055","keyword":"H2SO4","originalKeyword":"H2SO4"},{"id":"e6ddc31c-e4d9-40a5-8f3e-61cd8a31f088","keyword":"potassium iodide","originalKeyword":"potassium iodide"},{"id":"b6a78301-7766-488a-850a-c3240cad8003","keyword":"corrosion inhibition","originalKeyword":"corrosion inhibition"},{"id":"d62ca9cf-6813-441b-a906-f16650572b3b","keyword":"synergistic effect","originalKeyword":"synergistic effect"}],"language":"zh","publisherId":"1002-6495_2009_5_8","title":"竹叶提取液在硫酸介质中的缓蚀性能及复配研究","volume":"21","year":"2009"},{"abstractinfo":"应用动电位扫描法和失重法研究了竹叶提取液在硫酸介质中的缓蚀性能及其与碘化钾的复配协同效应.实验表明,当浓度为0.1 g/ml时,竹叶提取液具有良好的缓蚀性能,与碘化钾复配后,缓蚀效果更佳.电化学研究表明,竹叶缓蚀剂为混合型缓蚀剂,作用机理为几何覆盖效应.利用失重实验数据通过计算拟合,结果表明,竹叶缓蚀剂的有效缓蚀成份在碳钢表面的吸附符合El-Awady动力学模型与Flory-Huggins吸附等温方程.","authors":[{"authorName":"郑兴文","id":"b2a84565-5a04-4183-ae49-a543efd1dcd1","originalAuthorName":"郑兴文"},{"authorName":"龚敏","id":"4d8f5b30-932a-4546-bb71-7085cf14ab59","originalAuthorName":"龚敏"},{"authorName":"邹振","id":"c1b27744-96cc-45d7-aa53-6f291c1807f4","originalAuthorName":"邹振"},{"authorName":"魏巍","id":"6592cf25-cbd2-467d-b644-8a4c6a65e65d","originalAuthorName":"魏巍"},{"authorName":"黄文恒","id":"12dac4e6-3f09-4315-86b6-974a4cc09cc7","originalAuthorName":"黄文恒"}],"doi":"10.3969/j.issn.1002-6495.2009.05.004","fpage":"443","id":"ce1675cb-d8df-476c-96ce-2319bd1ca9be","issue":"5","journal":{"abbrevTitle":"FSXB","coverImgSrc":"journal/img/cover/腐蚀学报封面.jpg","id":"24","issnPpub":"2667-2669","publisherId":"FSXB","title":"腐蚀学报(英文)"},"keywords":[{"id":"c65794f3-600c-4bf1-91b2-9611f06d7d94","keyword":"竹叶","originalKeyword":"竹叶"},{"id":"fd056f35-a639-4682-b648-58ab81309f2d","keyword":"硫酸","originalKeyword":"硫酸"},{"id":"d7da1575-81ab-4249-906c-37f4d366fb60","keyword":"碘化钾","originalKeyword":"碘化钾"},{"id":"a0c704e1-bd06-4e89-988d-3022c21e3278","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"},{"id":"997141f7-effd-4b17-83d8-97bd8f092b57","keyword":"协同效应","originalKeyword":"协同效应"}],"language":"zh","publisherId":"fskxyfhjs200905004","title":"竹叶提取液在硫酸介质中的缓蚀性能及复配研究","volume":"21","year":"2009"},{"abstractinfo":"采用极化曲线和微分极化曲线研究了竹叶提取物及其与碘化钾复配后试验体系的阳极脱附行为。结果表明,随竹叶提取物浓度的增加,对碳钢的缓蚀效率增大,脱附电位正移;随温度的增加,缓蚀效率下降,脱附电位负移;竹叶提取物与碘化钾复配后,脱附电位进一步正移,腐蚀电位负移,增加了缓蚀剂的作用区域,提高了缓蚀剂的吸附稳定性。缓蚀效率随复配缓蚀剂浓度的增加而增大,随温度的增加变化很小;脱附电位与浓度的对数值及温度呈线性关系,竹叶提取物与碘化钾的联合吸附以交错吸附为主。","authors":[{"authorName":"郑兴文","id":"c6b43a4c-b38b-4a40-9fb3-5558c97e4ad7","originalAuthorName":"郑兴文"},{"authorName":"龚敏","id":"2420ec2f-ebf6-49c3-879d-4bbace14bf39","originalAuthorName":"龚敏"},{"authorName":"曾宪光","id":"9a2bc655-c5ca-40f2-8d4c-14f292bf4655","originalAuthorName":"曾宪光"},{"authorName":"姜春梅","id":"5b3caae2-ceb9-4b0a-91e3-7fd77f12ea54","originalAuthorName":"姜春梅"},{"authorName":"曾祥梅","id":"335573df-f23e-4e6d-ba45-cecc683135fb","originalAuthorName":"曾祥梅"},{"authorName":"张婷","id":"b30ab478-e8bb-44e7-b01a-6b1d3f4f5e8d","originalAuthorName":"张婷"}],"doi":"","fpage":"788","id":"e4653d62-8218-4359-8e0b-df0c4f3fc14e","issue":"10","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"381d766c-ade8-4d55-88d9-cd401d7fee58","keyword":"竹叶","originalKeyword":"竹叶"},{"id":"a14b9dd3-9f44-4f94-a8ea-b419bb1f6974","keyword":"碳钢","originalKeyword":"碳钢"},{"id":"c4258e97-d9c9-41b5-826a-e36c5b592c57","keyword":"硫酸","originalKeyword":"硫酸"},{"id":"fabbd17b-4e96-456c-8f92-2ff54270fc14","keyword":"碘化钾","originalKeyword":"碘化钾"},{"id":"21da7d8a-bddc-46f5-b632-5f502e9d491c","keyword":"阳极脱附","originalKeyword":"阳极脱附"}],"language":"zh","publisherId":"fsyfh201110010","title":"硫酸介质中竹叶提取物的阳极脱附行为","volume":"32","year":"2011"},{"abstractinfo":"用浸泡提取法从竹叶中提取有机缓蚀组分,并将其作为盐酸酸洗缓蚀剂的主要成分.对以竹叶浸泡提取物为主的复合缓蚀剂的缓蚀效果进行了研究,采用线性极化法评价缓蚀剂的缓蚀效率,运用正交试验法优选缓蚀剂配方,并探讨其缓蚀机理.结果表明,最优配方对碳钢在5%的盐酸溶液中有优良的缓蚀效果,其缓蚀率达95.6%,属于混合型缓蚀剂.","authors":[{"authorName":"龚敏","id":"93f2fbf6-1fa6-47cc-8fdf-93ae00047062","originalAuthorName":"龚敏"},{"authorName":"曾宪光","id":"07c0b46b-e571-453c-9e49-ed3ae3b5d431","originalAuthorName":"曾宪光"},{"authorName":"蒋伟","id":"69498c14-2893-4f26-8d1c-712bbd45c108","originalAuthorName":"蒋伟"},{"authorName":"李洋","id":"9e627558-bcb7-4136-b8ae-36c44536bb2c","originalAuthorName":"李洋"}],"doi":"10.3969/j.issn.1002-6495.2007.05.014","fpage":"361","id":"fd64232d-5095-4c9a-92b7-959917c89660","issue":"5","journal":{"abbrevTitle":"FSXB","coverImgSrc":"journal/img/cover/腐蚀学报封面.jpg","id":"24","issnPpub":"2667-2669","publisherId":"FSXB","title":"腐蚀学报(英文)"},"keywords":[{"id":"8d4f9b40-aacc-44ce-a8bb-314bc64c7487","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"},{"id":"910ecb82-1ea2-42a7-a4cb-9f17b31c1f8c","keyword":"碳钢","originalKeyword":"碳钢"},{"id":"3b82c67f-6a72-46c1-af6f-52909e25e846","keyword":"竹叶","originalKeyword":"竹叶"}],"language":"zh","publisherId":"fskxyfhjs200705014","title":"从竹叶中提取酸洗缓蚀剂的研究","volume":"19","year":"2007"},{"abstractinfo":"利用金相显微镜、扫描探针显微镜(SPM)、红外光谱(FT-IR)和X射线能谱(XPS)研究了竹叶提取液及其与碘离子复配后在Q235钢表面的吸附行为,实验结果表明:竹叶提取液中的有效缓蚀成分在Q235钢表面发生了化学吸附,且碘离子的加入促进了竹叶提取液中有效缓蚀成分在Q235钢表面的吸附.","authors":[{"authorName":"郑兴文","id":"ad3a45e7-cd93-4d18-874d-7b2cc979ec88","originalAuthorName":"郑兴文"},{"authorName":"龚敏","id":"96b2e038-b394-4033-824f-665102a78553","originalAuthorName":"龚敏"},{"authorName":"曾宪光","id":"374b614a-e034-4732-bf92-15de4c5e1833","originalAuthorName":"曾宪光"},{"authorName":"姜春梅","id":"02c87da8-1603-4fb1-b8bc-66d3ef905638","originalAuthorName":"姜春梅"},{"authorName":"曾祥梅","id":"12828af0-d947-4279-8f9f-dfa4d1c52af0","originalAuthorName":"曾祥梅"},{"authorName":"张婷","id":"ca9b2b89-37ce-4dff-a11d-0c24f93b2b00","originalAuthorName":"张婷"}],"doi":"10.3969/j.issn.1001-3660.2011.03.016","fpage":"57","id":"770066e5-8e83-4fc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"},"keywords":[{"id":"0dd46a85-c8c0-40b7-9271-95a50cda77c4","keyword":"竹叶","originalKeyword":"竹叶"},{"id":"fea828c0-093a-4afa-b22c-f67b7dd6dcc3","keyword":"Q235钢","originalKeyword":"Q235钢"},{"id":"9b195b21-85d4-46fd-8b5a-6dcc4ea82c4f","keyword":"协同效应","originalKeyword":"协同效应"},{"id":"9222da1b-a34e-4449-a858-6f7445b4b9bb","keyword":"吸附行为","originalKeyword":"吸附行为"}],"language":"zh","publisherId":"bmjs201103016","title":"竹叶提取液及其与碘离子复配后在Q235钢表面的吸附行为研究","volume":"40","year":"2011"},{"abstractinfo":"采用水蒸气蒸馏法分别提取阔叶箬竹叶和箬竹叶中的挥发油,用乙醚作溶剂进行多次萃取,利用气相色谱-质谱(GC-MS)联用分析二者的化学成分并进行比较.从阔叶箬竹叶提取的挥发油中共鉴定出37种化合物,主要成分为叶醇、1-己醇、苯甲醇、己醛、2-乙基呋喃、β-紫罗兰酮等.从箬竹叶提取的挥发油中共鉴定出49种化合物,主要成分为叶醇、苯甲醇、β-紫罗兰酮、2-己烯醛、苯乙醇、2-甲氧基-4-乙烯基苯酚、2-乙基呋喃等.两种箬叶挥发油中相对含量最高的成分都为叶醇,都含有酮、醛、醇、酚、酯类化合物,且酮、醛、醇的含量明显高于其他成分.","authors":[{"authorName":"李水芳","id":"ca850517-d325-4834-b5be-b0e4b7fe523a","originalAuthorName":"李水芳"},{"authorName":"文瑞芝","id":"06d3c702-7430-4ed7-9206-f9989f43219f","originalAuthorName":"文瑞芝"},{"authorName":"曾栋","id":"3d621dfb-a1c9-4e4e-9bd8-fd4837ebdd3f","originalAuthorName":"曾栋"},{"authorName":"李忠海","id":"0ef02c48-1c38-4c03-9e49-a54af53e5a4f","originalAuthorName":"李忠海"}],"doi":"10.3321/j.issn:1000-8713.2007.01.011","fpage":"53","id":"9557c079-9a49-4505-87c1-672248d58355","issue":"1","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"f12bf8d0-deea-4bf4-83bb-2e21c6198e79","keyword":"气相色谱-质谱","originalKeyword":"气相色谱-质谱"},{"id":"9b462486-b96b-4ced-93f3-89585e7b56ed","keyword":"阔叶箬竹叶","originalKeyword":"阔叶箬竹叶"},{"id":"4ca1dd7e-bac4-406e-b226-768bce71c2c0","keyword":"箬竹叶","originalKeyword":"箬竹叶"},{"id":"74a39757-ad42-40dd-bfb0-dab1ea63de8d","keyword":"挥发油","originalKeyword":"挥发油"}],"language":"zh","publisherId":"sp200701011","title":"阔叶箬竹叶和箬竹叶中挥发油的提取及成分分析","volume":"25","year":"2007"},{"abstractinfo":"植物提取液低毒,低残留,易后处理,用作缓蚀剂时环保性好.为此,用15%H_2SO_4浸泡竹叶,以其提取液配制成缓蚀剂.采用电化学测试、失重和腐蚀浸泡试验研究了竹叶不同浸泡时间、竹叶提取液浓度对Q235钢缓蚀性能的影响.结果表明:将适量竹叶用15%的硫酸浸泡306 min配制成的0.1 g/mL溶液,缓蚀效率达96%以上,是一种阳极型缓蚀剂;电化学研究表明,竹叶提取液为混合型缓蚀剂,作用机理为几何覆盖效应;失重结果表明,竹叶提取液的缓蚀效率随其浓度的增加而增大,在硫酸介质中在Q235碳钢表面的吸附符合El-Awady动力学模型与Flory-Huggins吸附等温方程.","authors":[{"authorName":"郑兴文","id":"df4973a6-511e-4a72-a87c-f79676857611","originalAuthorName":"郑兴文"},{"authorName":"龚敏","id":"dd6ae6d6-39a4-489c-8648-0923a37acd15","originalAuthorName":"龚敏"},{"authorName":"邹振","id":"a441bbb7-5693-402c-9d1e-0a696c6ac1be","originalAuthorName":"邹振"},{"authorName":"魏巍","id":"cd91ee7f-4440-4810-a07e-fef5d5f7f53b","originalAuthorName":"魏巍"},{"authorName":"黄文恒","id":"8aee4d9c-acdb-40f7-8e22-771a9c26ff2d","originalAuthorName":"黄文恒"}],"doi":"","fpage":"21","id":"fc52ed8a-5ef1-44fd-8f71-44fe49380cc5","issue":"2","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"fa26bc82-08a9-446d-a198-b3908b6e1477","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"},{"id":"63c6156c-30a8-4ed3-8ae3-6f66808cccf8","keyword":"竹叶提取液","originalKeyword":"竹叶提取液"},{"id":"a6414621-a2af-4b0d-9ac6-d0a7a15302d2","keyword":"硫酸","originalKeyword":"硫酸"},{"id":"137b979b-24a0-4ccc-a403-74893b18023f","keyword":"Q235钢","originalKeyword":"Q235钢"},{"id":"1c377f61-717d-4363-b87b-77a96f0e44da","keyword":"缓蚀性能","originalKeyword":"缓蚀性能"},{"id":"616493d7-350a-441d-8c2f-11ff8b7178f5","keyword":"吸附动力学","originalKeyword":"吸附动力学"}],"language":"zh","publisherId":"clbh201002006","title":"竹叶提取液的制备及其缓蚀性能","volume":"43","year":"2010"},{"abstractinfo":"以硫代乙酰胺、三乙醇胺、氯化亚锡和氨水作反应物,氯化铵作缓冲剂,采用化学浴法在玻璃衬底上沉积SnS薄膜,并用X射线衍射(XRD)、扫描电子显微镜(SEM)等分析手段对样品进行了表征.XRD分析结果表明样品为斜方晶体结构的多晶SnS薄膜.SEM观察结果显示薄膜表面呈竹叶状多孔形貌,此结构有利于增加太阳电池的光吸收.","authors":[{"authorName":"雷天民","id":"b5961325-25ba-425c-9124-36f75260742d","originalAuthorName":"雷天民"},{"authorName":"胡永红","id":"48f4a333-fb4e-4e07-8439-32a6bcec4af8","originalAuthorName":"胡永红"},{"authorName":"李红生","id":"46b86d06-4b8a-4108-a2ae-93281b071f78","originalAuthorName":"李红生"},{"authorName":"李留臣","id":"ce924b13-33a4-4e91-b6d4-21bae94a0be2","originalAuthorName":"李留臣"},{"authorName":"封先锋","id":"3878f53c-c9af-45b8-b596-4c3a4835afc6","originalAuthorName":"封先锋"},{"authorName":"刘守智","id":"f915bb37-84b4-4450-b7b6-f2c39ca94307","originalAuthorName":"刘守智"}],"doi":"10.3969/j.issn.1000-985X.2005.03.022","fpage":"484","id":"024062ab-8630-4f70-ae43-364eb3a31dc3","issue":"3","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"4d437204-946e-4cb0-bf98-aa7d6547c9b4","keyword":"多孔","originalKeyword":"多孔"},{"id":"d9427735-f4f4-40db-a90b-7b874b7b6a4a","keyword":"SnS","originalKeyword":"SnS"},{"id":"0087116e-c758-4de2-bcd0-3c0cceefb3ad","keyword":"薄膜","originalKeyword":"薄膜"},{"id":"c3365e33-759e-42b6-b00d-8b21c4d08fd2","keyword":"化学浴","originalKeyword":"化学浴"},{"id":"698c8f2d-95ea-4c6a-9633-8d7665c19970","keyword":"太阳电池","originalKeyword":"太阳电池"}],"language":"zh","publisherId":"rgjtxb98200503022","title":"竹叶状多孔SnS薄膜的沉积","volume":"34","year":"2005"},{"abstractinfo":"用浸泡提取法从竹叶中提取有机缓蚀组分,并将其作为盐酸酸洗缓蚀剂的主要成分.对以竹叶浸泡提取物为主的复合缓蚀剂的缓蚀效果进行了研究,采用线性极化法评价缓蚀剂的缓蚀效率,运用正交试验法优选缓蚀剂配方,并探讨其缓蚀机理.结果表明,最优配方对碳钢在5%的盐酸溶液中有优良的缓蚀效果,其缓蚀率达95.6%,属于混合型缓蚀剂.","authors":[{"authorName":"龚敏","id":"3de2a343-1958-402d-9f30-d78c36a39b31","originalAuthorName":"龚敏"},{"authorName":"曾宪光","id":"44fd365a-38b2-4a0c-9768-59bf210ca22d","originalAuthorName":"曾宪光"},{"authorName":"蒋伟","id":"42c0e191-36c3-4d5b-9427-378130ad8aaa","originalAuthorName":"蒋伟"},{"authorName":"李洋","id":"c4d53caa-e85b-4f2b-aada-a5a2cca4d996","originalAuthorName":"李洋"}],"categoryName":"|","doi":"","fpage":"361","id":"4fa51562-ec83-4dfc-9175-ef8e4d11a9af","issue":"5","journal":{"abbrevTitle":"FSXB","coverImgSrc":"journal/img/cover/腐蚀学报封面.jpg","id":"24","issnPpub":"2667-2669","publisherId":"FSXB","title":"腐蚀学报(英文)"},"keywords":[{"id":"f5f58c14-21e4-437a-a794-7ced958dd9a3","keyword":"缓蚀剂","originalKeyword":"缓蚀剂"},{"id":"eee347f8-8ddb-49a5-a9cd-965e677550e8","keyword":"null","originalKeyword":"null"},{"id":"bf2101cc-c18e-445c-b114-adef3c704e12","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"1002-6495_2007_5_17","title":"从竹叶中提取酸洗缓蚀剂的研究","volume":"19","year":"2007"},{"abstractinfo":"麻竹(Dendrocalmus Latifcorus Munro)竹叶提取物(简称DMLE)可作为一种环境友好型植物缓蚀剂,本工作采用失重法研究了DMLE在1.0 mol/L NaOH溶液中对锌的缓蚀作用.结果表明,DMLE具有良好的缓蚀作用,最大缓蚀率接近90%,且在锌表面的吸附符合校正的Langmuir吸附等温式.并详细讨论了腐蚀浸泡时间对缓蚀作用的影响规律.","authors":[{"authorName":"李向红","id":"a796b8a5-1828-4823-b7c7-63a8b9a6572f","originalAuthorName":"李向红"},{"authorName":"付惠","id":"fa2535d4-7df4-4fc8-950e-b95c1e1025e4","originalAuthorName":"付惠"},{"authorName":"陆胤旭","id":"c3ef3d61-b9b4-4d67-9a68-7eb52ba319e8","originalAuthorName":"陆胤旭"},{"authorName":"邓书端","id":"c2ed70fb-e4e6-42be-bf29-24d180ccbb52","originalAuthorName":"邓书端"}],"doi":"","fpage":"163","id":"bfde21ad-1fd4-4b85-9e9e-e4665e4a2fb4","issue":"3","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"89b1a40d-7530-45a5-8c16-ebcf9c84e3bf","keyword":"麻竹","originalKeyword":"麻竹"},{"id":"b205eadf-a8b2-4c86-b462-90a7b42dd1ae","keyword":"提取物","originalKeyword":"提取物"},{"id":"86324ba5-32ae-45e9-be5d-d5286af9df3b","keyword":"NaOH","originalKeyword":"NaOH"},{"id":"7d99424d-7069-4978-808d-aa1a2e0112f6","keyword":"锌","originalKeyword":"锌"},{"id":"a1b04741-0f3f-41e5-91b5-571a86731cf9","keyword":"缓蚀","originalKeyword":"缓蚀"},{"id":"226b2f81-7bf1-4fd3-9691-ee0e0738785b","keyword":"吸附","originalKeyword":"吸附"}],"language":"zh","publisherId":"fsyfh201103001","title":"麻竹竹叶提取物在NaOH中对锌的缓蚀作用","volume":"32","year":"2011"}],"totalpage":3,"totalrecord":25}