{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"目前,国内对曼尼希碱类缓蚀剂的研究主要侧重于应用,而对理论方面的报道较少.以苯乙酮、吗啉和甲醛为原料,在pH =2 ~3条件下合成了曼尼希碱类酸化缓蚀剂1-苯基-3-吗啉基-1-丙酮(MOPP),采用元素分析仪,红外光谱仪分析MOPP的元素组成及结构;采用静态腐蚀失重法和电化学极化曲线法研究了MOPP在15%盐酸中对N80钢片的缓蚀性能,探讨了MOPP对N80钢片的吸附行为,并对吸附热力学和动力学参数进行了计算.结果表明:MOPP具有较高的缓蚀性能,能同时抑制N80钢的阴、阳极腐蚀反应过程,缓蚀效率随着浓度的增加而增加,随着温度的增加而降低;MOPP在N80钢片表面上主要发生化学吸附,且吸附过程是一个自发、放热、混乱程度减小的过程,吸附规律服从Langmuir吸附等温式.","authors":[{"authorName":"潘原","id":"c6639c6c-4467-45f8-aa6b-74e28ee0c485","originalAuthorName":"潘原"},{"authorName":"战风涛","id":"5ab88ffb-2257-4707-bcf6-3424f255bc0d","originalAuthorName":"战风涛"},{"authorName":"杨震","id":"aef6efdf-f077-47ff-b556-f2a9a3e7bcbb","originalAuthorName":"杨震"},{"authorName":"吕志凤","id":"a1f38399-1843-4756-8200-46f560ce1788","originalAuthorName":"吕志凤"}],"doi":"","fpage":"23","id":"2bf494cc-6138-4df2-b92d-1a4e0c3e9ddf","issue":"3","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"ae179e15-292d-4d9a-bbb8-7cf44d55d049","keyword":"曼尼希碱类缓蚀剂","originalKeyword":"曼尼希碱类缓蚀剂"},{"id":"16255823-d509-403d-90c4-9d5be3acf5c9","keyword":"吸附行为","originalKeyword":"吸附行为"},{"id":"745c51c4-acaa-476e-84e4-e44f87234408","keyword":"热力学参数","originalKeyword":"热力学参数"},{"id":"b29e626d-2b80-4c0e-95d9-7e57840c8cca","keyword":"动力学行为","originalKeyword":"动力学行为"},{"id":"218d730d-f432-42f0-972a-c1ccc8dee7ac","keyword":"静态腐蚀失重","originalKeyword":"静态腐蚀失重"},{"id":"3790f39a-2a51-45bb-9067-bb57518eda12","keyword":"极化曲线","originalKeyword":"极化曲线"},{"id":"2be20b79-5ca4-4de4-949f-f4eb66364822","keyword":"缓蚀性能","originalKeyword":"缓蚀性能"}],"language":"zh","publisherId":"clbh201503007","title":"曼尼希碱1-苯基-3-吗啉基-1-丙酮的合成及其对N80钢的缓蚀吸附行为","volume":"48","year":"2015"},{"abstractinfo":"利用失重飞机提供的短时失重、超重和常重力交变环境,研究了膜式静态水气分离器首级可视化分离室和再循环管道中的水气两相流动构型.首级分离室内变截面蛇形窄通道内变质量流率的气液两相流动表现为间歇状的、不稳定的溪状流,在不同重力阶段具有几乎相同的变化特征.再循环管路内的气液两相流主要以细碎的泡状流和弹状流为主,气泡或气团间平均间距极大,含气率演化过程具有强烈的间歇性,但在抛物线飞行过程中含气率变化的总体特征与重力水平的变化基本无关.这表明静态水气分离器的工作性能基本不受重力影响.","authors":[{"authorName":"赵建福","id":"3fecdc93-d492-4af9-bfad-d711e8ea749a","originalAuthorName":"赵建福"},{"authorName":"彭超","id":"1cbdeaf2-71eb-4988-afae-56473f7f70e0","originalAuthorName":"彭超"},{"authorName":"李晶","id":"94acdb91-cdeb-4ace-9882-e4cc0d257ee5","originalAuthorName":"李晶"},{"authorName":"周抗寒","id":"97ce7f1c-300e-4144-8e35-4b5146cbc03b","originalAuthorName":"周抗寒"},{"authorName":"李俊荣","id":"92d2bbdc-4440-406d-8000-97fbdb716452","originalAuthorName":"李俊荣"}],"doi":"","fpage":"799","id":"7e38005a-136a-407e-a51f-2be953e509ac","issue":"5","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":"7ec10182-9af6-4d40-85cf-ed0a3e3e8008","keyword":"流型","originalKeyword":"流型"},{"id":"ba1b3435-fa18-435c-b9ea-e9012111b76f","keyword":"重力效应","originalKeyword":"重力效应"},{"id":"f8565d93-81d6-422a-b422-0fbc916ca60d","keyword":"静态水气分离器","originalKeyword":"静态水气分离器"},{"id":"3a7a777e-75d5-40bc-9bac-c2a535f4fbe8","keyword":"失重飞机","originalKeyword":"失重飞机"}],"language":"zh","publisherId":"gcrwlxb201105020","title":"静态水气分离特性的失重飞机实验研究","volume":"32","year":"2011"},{"abstractinfo":"分别测定了不锈钢和碳钢静态与动态纯腐蚀失重率、冲刷腐蚀失重率及其电化学行为.研究了静态与动态纯腐蚀失重率对材料冲刷腐蚀交互作用失重率的影响.实验表明:(1)动态纯腐蚀静态腐蚀更能反映材料在液固两相流中冲刷腐蚀交互作用的本质:(2)本实验条件下.T8钢动态纯腐蚀失重率是静态腐蚀失重率的2倍以上.18-8不锈钢动态纯腐蚀失重率竟是静态腐蚀失重率200倍以上.静态交互作用失重率是动态交互作用失重率的2倍以上可见静态与动态纯腐蚀对定量研究材料冲刷腐蚀交互作用会产生很大的差异:(3)在腐蚀性浆料中,首先要保证材料具有一定的耐蚀性.其次再考虑提高材料的硬度和耐磨性.这样才能有效地提高材料的耐冲刷腐蚀性能.对不同的工况.必须同时兼顾材料的耐蚀性和耐磨性.","authors":[{"authorName":"张安峰","id":"b8e65f02-3c30-4759-afc6-b71d426bd08f","originalAuthorName":"张安峰"},{"authorName":"邢建东","id":"8f321f50-cd95-4edf-a748-4bb7008372b1","originalAuthorName":"邢建东"},{"authorName":"鲍崇高","id":"7155a614-447c-4751-be8c-fb7ee83a496c","originalAuthorName":"鲍崇高"},{"authorName":"贾焕如","id":"12d4d198-bfd7-4fef-b9dc-06c809700006","originalAuthorName":"贾焕如"}],"categoryName":"|","doi":"","fpage":"521","id":"d24266c5-f406-4535-b6ff-fa3830205fd9","issue":"5","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"e0a6ad54-c11a-4a5c-9d33-173223417388","keyword":"纯腐蚀","originalKeyword":"纯腐蚀"},{"id":"5f740c75-6f52-44cc-b965-d2c7a4273b60","keyword":"null","originalKeyword":"null"},{"id":"9aef5509-09b8-4224-bf40-79ec73646252","keyword":"null","originalKeyword":"null"},{"id":"d31e90a9-7a57-499a-89c0-5567507c1079","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_2002_5_15","title":"动态与静态腐蚀对定量研究材料冲刷腐蚀交互作用的影响","volume":"38","year":"2002"},{"abstractinfo":"分别测定了不锈钢和碳钢静态与动态纯腐蚀失重率、冲刷腐蚀失重率及其电化学行为.研究了静态与动态纯腐蚀失重率对材料冲刷腐蚀交互作用失重率的影响.实验表明:(1)动态纯腐蚀静态腐蚀更能反映材料在液固两相流中冲刷腐蚀交互作用的本质:(2)本实验条件下.T8钢动态纯腐蚀失重率是静态腐蚀失重率的2倍以上.18-8不锈钢动态纯腐蚀失重率竟是静态腐蚀失重率200倍以上.静态交互作用失重率是动态交互作用失重率的2倍以上可见静态与动态纯腐蚀对定量研究材料冲刷腐蚀交互作用会产生很大的差异:(3)在腐蚀性浆料中,首先要保证材料具有一定的耐蚀性.其次再考虑提高材料的硬度和耐磨性.这样才能有效地提高材料的耐冲刷腐蚀性能.对不同的工况.必须同时兼顾材料的耐蚀性和耐磨性.","authors":[{"authorName":"张安峰","id":"7e17fdef-0d15-442e-a297-f93a7ec81f30","originalAuthorName":"张安峰"},{"authorName":"邢建东","id":"4fe3411e-df51-42e5-99ba-c39b20c7dc32","originalAuthorName":"邢建东"},{"authorName":"鲍崇高","id":"70cdb4ba-0707-4613-bfb1-6a58792b5a7e","originalAuthorName":"鲍崇高"},{"authorName":"贾焕如","id":"14c83fc8-c20d-4d96-9cbf-8579a005e58a","originalAuthorName":"贾焕如"}],"doi":"10.3321/j.issn:0412-1961.2002.05.015","fpage":"521","id":"8fec1dcc-b660-4cc1-8299-aeb096f4b3b8","issue":"5","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"ff85bc66-8f7a-45ad-8285-f6b06cea78fa","keyword":"纯腐蚀","originalKeyword":"纯腐蚀"},{"id":"71d90839-0476-406d-9d31-f3524c7ad7e3","keyword":"冲刷腐蚀","originalKeyword":"冲刷腐蚀"},{"id":"a0805fa9-c115-4ba0-ab16-9084d90a17de","keyword":"交互作用","originalKeyword":"交互作用"},{"id":"e38dfc52-c78b-477e-bcc1-50f60d7b77b3","keyword":"失重率","originalKeyword":"失重率"}],"language":"zh","publisherId":"jsxb200205015","title":"动态与静态腐蚀对定量研究材料冲刷腐蚀交互作用的影响","volume":"38","year":"2002"},{"abstractinfo":"测试了不同硫酸含量污染土的基本腐蚀参数,结果表明,随着硫酸含量的增大,污染土的密度、pH与含水量减小,孔隙比、含气率与电阻率增大;观察和计算了埋设在硫酸污染土中X70钢试样的腐蚀行为与腐蚀失重率,结果表明,随着硫酸含量的增加腐蚀失重率增大,原来光滑平整的表面变得凹凸不平,表面部分被棕红色-褐黄色以及少量的黑色腐蚀产物覆盖,局部脱落现象明显,腐蚀形态呈现出多样性的特点,基本上以局部不规则的圆形或椭圆形状的坑蚀为主.","authors":[{"authorName":"郝海艳","id":"85c8aa43-3e87-4d6d-b1e9-c9cb9b2b2967","originalAuthorName":"郝海艳"},{"authorName":"王海杰","id":"83abce3a-4809-4f9b-8164-f977d9c264e8","originalAuthorName":"王海杰"},{"authorName":"何斌","id":"e7e11153-7dcc-450b-8830-a88a7ace610b","originalAuthorName":"何斌"},{"authorName":"白晓红","id":"896b7c6c-135e-4714-9b73-b57b754cfaab","originalAuthorName":"白晓红"},{"authorName":"韩鹏举","id":"61255ed7-d4f0-4737-9d51-4d60ea8bbfd3","originalAuthorName":"韩鹏举"}],"doi":"","fpage":"5","id":"a99a80b6-21cf-4555-92ea-7e8a3f536e9d","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":"3dc3d5ce-582d-46a9-8239-01a7dbc1f61a","keyword":"腐蚀行为","originalKeyword":"腐蚀行为"},{"id":"a0005c54-9761-478c-b144-3b80d5fe70c8","keyword":"含气率","originalKeyword":"含气率"},{"id":"f4324df0-4ce0-4da1-8562-dd9907c3e763","keyword":"pH","originalKeyword":"pH"},{"id":"fa0e5cc2-7af2-405f-8541-bb306e865cce","keyword":"电阻率","originalKeyword":"电阻率"},{"id":"8b2ddbf6-626b-4c9d-98ca-841bd2b8ef32","keyword":"失重率","originalKeyword":"失重率"}],"language":"zh","publisherId":"fsyfh201401002","title":"X70钢在硫酸污染土中的腐蚀失重行为","volume":"35","year":"2014"},{"abstractinfo":"通过在我国6个典型大气试验站长期现场暴露试验获得了2024和7075高强铝合金的剥蚀深度和腐蚀失重数据,并利用灰色关联分析方法,研究了环境因素对高强铝合金剥蚀和腐蚀失重的影响程度. 结果表明,影响高强铝合金剥蚀和腐蚀失重的主要因素并不相同.影响2024和7075剥蚀最主要的污染物因素均为海盐粒子、HCl和H2S,而最主要的气象因素均为80%RH以上时数、70%RH以上时数和平均RH等.影响2024和7075型材腐蚀失重的最主要污染物因素为SO2、海盐粒子和HCl,而气象因素是80%RH以上时数.","authors":[{"authorName":"孙霜青","id":"a27f0961-1e5b-4f96-b77b-86cefc4d09d0","originalAuthorName":"孙霜青"},{"authorName":"郑弃非","id":"f933ea79-0221-4038-8148-d181349b6f95","originalAuthorName":"郑弃非"},{"authorName":"李德富","id":"73e63ae4-c2d1-4b5a-85f0-7891c1657de7","originalAuthorName":"李德富"}],"categoryName":"|","doi":"","fpage":"144","id":"3fb0ed23-08fe-476d-b700-28af2063187d","issue":"2","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":"c307e701-56ed-4827-9733-42740eab1a89","keyword":"大气腐蚀","originalKeyword":"大气腐蚀"},{"id":"b44cd564-b83a-4de6-bb72-e13fe3bdd30e","keyword":"high-strength aluminum","originalKeyword":"high-strength aluminum"},{"id":"60e24272-77ab-47e5-8c4a-3a27088e3a39","keyword":"exfoliation corrosion","originalKeyword":"exfoliation corrosion"},{"id":"d6c5a677-b1cd-463c-ac5e-413a3fa7f294","keyword":"mass loss","originalKeyword":"mass焕如"}],"doi":"10.3321/j.issn:0412-1961.2002.05.015","fpage":"521","id":"8fec1dcc-b660-4cc1-8299-aeb096f4b3b8","issue":"5","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"ff85bc66-8f7a-45ad-8285-f6b06cea78fa","keyword":"纯腐蚀","originalKeyword":"纯腐蚀"},{"id":"71d90839-0476-406d-9d31-f3524c7ad7e3","keyword":"冲刷","originalAuthorName":"路民旭"}],"categoryName":"|","doi":"","fpage":"5","id":"b4c3349e-27dc-40a3-a95b-d1a482a058f5","issue":"1","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":"f1985796-5791-4e2e-a3bd-f793d317de95","keyword":"N80钢","originalKeyword":"N80钢"},{"id":"c5b7e7ea-4494-4358-9394-031da6790bee","keyword":"CO2 corrosion","originalKeyword":"CO2 corrosion"},{"id":"e902bbc3-b66b-44fb-992d-4efebbe12d9c","keyword":"corrosion rate","originalKeyword":"corrosion rate"}],"language":"zh","publisherId":"1002-6495_2003_1_5","title":"N80钢动态和静态CO2腐蚀行为对比研究","volume":"15","year":"2003"},{"abstractinfo":"通过模拟油气田井下腐蚀环境进行CO2腐蚀试验,研究N80油井管钢在动态和静态条件下的腐蚀行为.结果表明:在所模拟的油田腐蚀环境中,N80钢在静态条件下的平均腐蚀速率略高于动态条件下的平均腐蚀速率,而其局部腐蚀在动态条件下则比静态时严重得多,检测到的最大腐蚀速率达到了3.5 mm/a,这和试样表面腐蚀产物膜的破损有关.O、C、Cl-在坑内富集,表明Cl-仍是引起试样局部腐蚀加剧的主要原因之一.","authors":[{"authorName":"吕祥鸿","id":"f59b376f-ebe7-4cd4-810a-29d918837064","originalAuthorName":"吕祥鸿"},{"authorName":"赵国仙","id":"24be3a88-882b-458f-a5b0-fd8a5d6beed4","originalAuthorName":"赵国仙"},{"authorName":"路民旭","id":"123e1cae-5cc8-4b08-9081-e59ed215646e","originalAuthorName":"路民旭"}],"doi":"10.3969/j.issn.1002-6495.2003.01.002","fpage":"5","id":"4b098fdc-c84f-40f6-8500-bab0979614ac","issue":"1","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":"7f14f28a-1eba-4f06-813b-3ae5ddc25c37","keyword":"N80","originalKeyword":"N80"},{"id":"187266f3-9f3b-49cc-880e-bc245a4e0fa8","keyword":"钢","originalKeyword":"钢"},{"id":"6c6d88e2-cb50-45e6-af70-a192bb9fd3c4","keyword":"CO2","originalKeyword":"CO2"},{"id":"90e32c2f-cfbf-4959-a884-67fcd0f9d060","keyword":"腐蚀","originalKeyword":"腐蚀"},{"id":"4a4aa29d-7e3d-49c1-86d5-2e1c4efb6ab9","keyword":"腐蚀速率","originalKeyword":"腐蚀速率"}],"language":"zh","publisherId":"fskxyfhjs200301002","title":"N80钢动态和静态CO2腐蚀行为对比研究","volume":"15","year":"2003"}],"totalpage":2093,"totalrecord":20930}l和H2S,而最主要的气象因素均为80%RH以上时数、70%RH以上时数和平均RH等.影响2024和7075型材腐蚀失重的最主要污染物因素为SO2、海盐粒子和HCl,而气象因素是80%RH以上时数.","authors":[{"authorName":"孙霜青","id":"a27f0961-1e5b-4f96-b77b-86cefc4d09d0","originalAuthorName":"孙霜青"},{"authorName":"郑弃非","id":"f933ea79-0221-4038-8148-d181349b6f95","originalAuthorName":"郑弃非"},{"authorName":"李德富","id":"73e63ae4-c2d1-4b5a-85f0-7891c1657de7","originalAuthorName":"李德富"}],"categoryName":"|","doi":"","fpage":"144","id":"3fb0ed23-08fe-476d-b700-28af2063187d","issue":"2","journal":{"abbrevTitle":"FSXB","coverImgSrc":"journal/img/cover/腐蚀学报封面.jpg","id":"24","issnPpub":"2667-2669","publisherId":"FSXB","title":"腐田腐蚀环境中,N80钢在静态条件下的平均腐蚀速率略高于动态条件下的平均腐蚀速率,而其局部腐蚀在动态条件下则比静态时严重得多,检测到的最大腐蚀速率达到了35 mm/a,这和试样表面腐蚀产物膜的破损有关.O、C、Cl-在坑内富集,表明Cl-仍是引起试样局部腐蚀加剧的主要原因之一.","authors":[{"authorName":"吕祥鸿","id":"f1558864-0ee7-4cff-85ca-9b5f531ec939","originalAuthorName":"吕祥鸿"},{"authorName":"赵国仙","id":"6534e411-1d94-4bd9-bbc8-3b73de1b8f48","originalAuthorName":"赵国仙"},{"authorName":"路民旭","id":"f32ab6cf-a6d7-4967-b51c-837cd3cbc324","originalAuthorName":"路民旭"}],"categoryName":"|","doi":"","fpage":"5","id":"b4c3349e-27dc-40a3-a95b-d1a482a058f5","issue":"1","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":"f1985796-5791-4e2e-a3bd-f793d317de95","keyword":"N80钢","originalKeyword":"N80钢"},{"id":"c5b7e7ea-4494-4358-9394-031da6790bee","keyword":"CO2 corrosion","originalKeyword":"CO2 corrosion"},{"id":"e902bbc3-b66b-44fb-992d-4efebbe12d9c","keyword":"corrosion rate","originalKeyword":"corrosion rate"}],"language":"zh","publisherId":"1002-6495_2003_1_5","title":"N80钢动态和静态CO2腐蚀行为对比研究","volume":"15","year":"2003"},{"abstractinfo":"通过模拟油气田井下腐蚀环境进行CO2腐蚀试验,研究N80油井管钢在动态和静态条件下的腐蚀行为.结果表明:在所模拟的油田腐蚀环境中,N80钢在静态条件下的平均腐蚀速率略高于动态条件下的平均腐蚀速率,而其局部腐蚀在动态条件下则比静态时严重得多,检测到的最大腐蚀速率达到了3.5 mm/a,这和试样表面腐蚀产物膜的破损有关.O、C、Cl-在坑内富集,表明Cl-仍是引起试样局部腐蚀加剧的主要原因之一.","authors":[{"authorName":"吕祥鸿","id":"f59b376f-ebe7-4cd4-810a-29d918837064","originalAuthorName":"吕祥鸿"},{"authorName":"赵国仙","id":"24be3a88-882b-458f-a5b0-fd8a5d6beed4","originalAuthorName":"赵国仙"},{"authorName":"路民旭","id":"123e1cae-5cc8-4b08-9081-e59ed215646e","originalAuthorName":"路民旭"}],"doi":"10.3969/j.issn.1002-6495.2003.01.002","fpage":"5","id":"4b098fdc-c84f-40f6-8500-bab0979614ac","issue":"1","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":"7f14f28a-1eba-4f06-813b-3ae5ddc25c37","keyword":"N80","originalKeyword":"N80"},{"id":"187266f3-9f3b-49cc-880e-bc245a4e0fa8","keyword":"钢","originalKeyword":"钢"},{"id":"6c6d88e2-cb50-45e6-af70-a192bb9fd3c4","keyword":"CO2","originalKeyword":"CO2"},{"id":"90e32c2f-cfbf-4959-a884-67fcd0f9d060","keyword":"腐蚀","originalKeyword":"腐蚀"},{"id":"4a4aa29d-7e3d-49c1-86d5-2e1c4efb6ab9","keyword":"腐蚀速率","originalKeyword":"腐蚀速率"}],"language":"zh","publisherId":"fskxyfhjs200301002","title":"N80钢动态和静态CO2腐蚀行为对比研究","volume":"15","year":"2003"}],"totalpage":2093,"totalrecord":20930}