{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"介绍了运用新型电镀铬添加剂和传统电镀铬工艺相结合,从节电、节水、节料三方面综合节能降耗,打破了只强调节电的传统思维模式和电镀工艺,解决了长期制约镀铬在综合节能降耗方面的瓶颈.","authors":[{"authorName":"李万根","id":"56ce10f3-a039-45b2-b998-46a9c0545cd0","originalAuthorName":"李万根"}],"doi":"10.3969/j.issn.1001-3849.2008.03.007","fpage":"24","id":"cd244455-c76e-4029-a3cd-6e0f3b122108","issue":"3","journal":{"abbrevTitle":"DDYJS","coverImgSrc":"journal/img/cover/DDYJS.jpg","id":"20","issnPpub":"1001-3849","publisherId":"DDYJS","title":"电镀与精饰   "},"keywords":[{"id":"b924dc21-c029-4287-87ff-ed91da24a713","keyword":"静水清洗","originalKeyword":"静水清洗"},{"id":"61859ca1-9e2f-4450-8dc9-335e1e8615c2","keyword":"<span style=\"color:red\">中和</span><span style=\"color:red\">回收</span>","originalKeyword":"中和回收"},{"id":"23cda006-bd7d-48db-9923-6cf8175c6bd3","keyword":"节电","originalKeyword":"节电"},{"id":"208ca64b-d6ec-4d6d-9f79-bffa4f418814","keyword":"节水","originalKeyword":"节水"},{"id":"37bf3604-1235-4c50-9694-83ab0c9416f2","keyword":"节料","originalKeyword":"节料"},{"id":"ca949bf9-6c92-4776-be51-9ffd72efd36c","keyword":"镀铬","originalKeyword":"镀铬"}],"language":"zh","publisherId":"ddjs200803007","title":"综合节能高效镀铬工艺","volume":"30","year":"2008"},{"abstractinfo":"本文以煤矸石<span style=\"color:red\">中和</span>渣为研究对象,采用加浓硫酸酸化、浸提的方法提取有价元素铝、钛.研究考察了酸渣比、反应温度、溶解时间、溶解温度等因素对<span style=\"color:red\">中和</span>渣中铝、钛溶出的影响规律,以单因素实验为基础,进而进行正交实验,优化浸提<span style=\"color:red\">中和</span>渣中铝、钛的工艺条件.实验结果表明:在本研究的条件下,<span style=\"color:red\">中和</span>渣酸浸提取铝、钛的最优工艺条件为:酸渣比1.5、反应温度170℃、溶解时间60 min、溶解温度80℃,此时铝、钛溶出率分别达到98.32％、92.28％.用X射线衍射(XRD)、扫描电镜(SEM)、能谱仪(EDS)等手段对煤矸石、<span style=\"color:red\">中和</span>渣及酸渣的物相和微观形貌进行表征,分析结果表明:<span style=\"color:red\">中和</span>渣酸浸后,酸渣中只有SiO2和少量CaSO4存在,说明煤矸石<span style=\"color:red\">中和</span>渣中的铝、钛通过酸浸可以充分浸取.该法为煤矸石资源化高效利用探索出一条新的工艺思路.","authors":[{"authorName":"刘成龙","id":"fa4fe602-a15c-487e-abd5-b3c482efe32a","originalAuthorName":"刘成龙"},{"authorName":"谢宇充","id":"8971fcb2-6840-41f4-92f8-216abf3e2dd1","originalAuthorName":"谢宇充"},{"authorName":"夏举佩","id":"335686fb-d396-44e2-9380-4c50ed4e714e","originalAuthorName":"夏举佩"},{"authorName":"张永波","id":"ada588c3-92c2-49fa-b5fc-abc6d8af686c","originalAuthorName":"张永波"},{"authorName":"何志鹏","id":"467bf40a-2ab5-4a1f-8cc8-f9cb4e6ee94d","originalAuthorName":"何志鹏"}],"doi":"","fpage":"966","id":"e3cfa024-8199-48fe-ad5e-9cd4ce2cde26","issue":"4","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报   "},"keywords":[{"id":"307a2aec-22d3-481a-8c08-3cd0a2a414a5","keyword":"煤矸石<span style=\"color:red\">中和</span>渣","originalKeyword":"煤矸石中和渣"},{"id":"a80e146f-2093-4118-97a9-6a576ec71b95","keyword":"酸浸","originalKeyword":"酸浸"},{"id":"d1297b6e-a909-477c-9cd4-5a64f56180f9","keyword":"铝","originalKeyword":"铝"},{"id":"ed48e59d-81c8-4647-a922-d6bef588d01e","keyword":"钛","originalKeyword":"钛"},{"id":"a7cca878-d370-436c-b720-81aae872a924","keyword":"正交实验","originalKeyword":"正交实验"}],"language":"zh","publisherId":"gsytb201504014","title":"煤矸石<span style=\"color:red\">中和</span>渣酸化提取铝、钛实验研究","volume":"34","year":"2015"},{"abstractinfo":"建立了大体积进样后的在线<span style=\"color:red\">中和</span>富集及在线标准加入离子色谱法,实现了对大气碱性吸收液中痕量氯离子、亚硝酸根、硝酸根、硫酸根的直接测定.比较了不同阀切换时间窗及在线<span style=\"color:red\">中和</span>柱的选择,确定了最佳的实验条件.利用戴安公司“谱睿”在线<span style=\"color:red\">中和</span>技术,通过Inguard H在线<span style=\"color:red\">中和</span>柱和CRD 200在线二氧化碳去除装置的共同作用,有效地去除了碱性吸收液中的OH-和CO32-,使测定干扰降低到最小；通过大体积进样和在线富集,改进了样品的检出限,Cl-,NO2-,NO3-和SO42-的检出限分别为17.5、171、34.7和42.4 ng/L；在线标准加入解决了痕量阴离子标准溶液的配制难题及NO2-低<span style=\"color:red\">回收</span>率对检测结果的影响.本方法实现了自动化分析,结果准确,重复性好,检测效率高,可用于常规离子色谱条件下无法测定的强碱性基体样品中痕量阴离子的准确测定.","authors":[{"authorName":"贺伟","id":"9cb7d808-0c63-4d21-ba37-2e273b6d9542","originalAuthorName":"贺伟"},{"authorName":"丁卉","id":"3e54f372-0686-465a-9d34-dad5c3c91d33","originalAuthorName":"丁卉"},{"authorName":"施超欧","id":"69663d5c-d8b9-4b7a-ba49-16dff1fbf4a9","originalAuthorName":"施超欧"},{"authorName":"杨柳","id":"737c71a3-0d7b-43b9-800e-115fbec7a5b8","originalAuthorName":"杨柳"},{"authorName":"王文佳","id":"ddf1ccc1-f24f-45b5-bd8f-e0977a88889b","originalAuthorName":"王文佳"}],"doi":"10.3724/SP.J.1123.2011.12068","fpage":"340","id":"33f1bd47-a30f-4568-8f9a-0a5fb35997e1","issue":"4","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"d60abf5f-a57d-432d-ad77-80f7557ab5b4","keyword":"离子色谱法","originalKeyword":"离子色谱法"},{"id":"2f75e780-cd8e-466d-a608-0e488494e491","keyword":"在线<span style=\"color:red\">中和</span>","originalKeyword":"在线中和"},{"id":"c855eadf-ac5e-41eb-acc5-9a3b71a964e1","keyword":"大体积进样","originalKeyword":"大体积进样"},{"id":"e5bfb26a-66ed-46ac-976c-4c200e4c90a0","keyword":"在线标准加入","originalKeyword":"在线标准加入"},{"id":"66722131-5379-4533-aa21-cbda6494258b","keyword":"阀切换","originalKeyword":"阀切换"},{"id":"c40531e1-6279-47fe-8daf-e17a960ef90d","keyword":"痕量阴离子","originalKeyword":"痕量阴离子"},{"id":"d7154e54-aaf2-454e-a274-a432702d679e","keyword":"大气吸收液","originalKeyword":"大气吸收液"}],"language":"zh","publisherId":"sp201204002","title":"在线<span style=\"color:red\">中和</span>富集及标准加入离子色谱法测定大气吸收液中的痕量阴离子","volume":"30","year":"2012"},{"abstractinfo":"为研究LVL木纤维复合材在高温<span style=\"color:red\">中和</span>高温后的抗弯性能，对104个试样进行了温度在20~225℃下的三点静态抗弯测试。研究结果表明，随着温度的升高，高温<span style=\"color:red\">中和</span>高温后的抗弯强度、抗弯弹性模量、延性系数均明显减小；相对于高温中的试样，高温后的抗弯强度和抗弯弹性模量均明显较高，而延性系数则较低。根据回归分析，提出了LVL在高温<span style=\"color:red\">中和</span>高温后的抗弯强度与温度的关系模型，该模型预测结果与实测值吻合良好。","authors":[{"authorName":"钟永","id":"6e9fee87-0c9e-4b6f-bb6d-e6a6a2ec281f","originalAuthorName":"钟永"},{"authorName":"周海宾","id":"8cd04b1a-c3a8-4191-a56a-b83440d6734b","originalAuthorName":"周海宾"}],"doi":"10.3969/j.issn.1001-9731.2014.增刊(Ⅱ).012","fpage":"59","id":"afe98da6-a712-4a77-9baf-9207d19dfc03","issue":"z2","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"f5bdab29-5767-4e26-8229-75cc9acfa39a","keyword":"LVL 木纤维复合材","originalKeyword":"LVL 木纤维复合材"},{"id":"0aba1480-0202-4c05-a72e-0aa354c5f4e7","keyword":"高温","originalKeyword":"高温"},{"id":"58dcfb1b-b76b-452c-b0d0-b9009fda801b","keyword":"抗弯强度","originalKeyword":"抗弯强度"},{"id":"5c956f4f-1913-4b0b-8eed-4a3e38d732fb","keyword":"弹性模量","originalKeyword":"弹性模量"}],"language":"zh","publisherId":"gncl2014z2012","title":"高温<span style=\"color:red\">中和</span>高温后LVL木纤维复合材的抗弯性能?","volume":"","year":"2014"},{"abstractinfo":"以邻甲酚和二氧化碳为原料,以磷酸钾为<span style=\"color:red\">中和</span>剂一步羧化合成邻甲基水杨酸及相关产物.探讨了反应条件对产率的影响.实验结果表明,当磷酸钾与邻甲酚物料比为2.5∶1,反应温度150℃,反应压力3.0 MPa时,羧化反应产物总收率达到95.4％,同时邻甲基水杨酸收率也达到最大.与传统碳酸钾<span style=\"color:red\">中和</span>法相比,磷酸钾<span style=\"color:red\">中和</span>法产物在后处理过程中无二氧化碳放出,后处理过程中的磷酸根可制备为磷酸钾使用,新工艺是一条绿色化工路线.","authors":[{"authorName":"伍琳娟","id":"1087963e-ca1c-40af-af79-f90ae73a6e41","originalAuthorName":"伍琳娟"},{"authorName":"朱大建","id":"62c53a51-d1ca-4c5e-a466-7dbcd13e0335","originalAuthorName":"朱大建"},{"authorName":"肖瑟","id":"b4b45e45-1c66-425b-9f03-b426cdc73175","originalAuthorName":"肖瑟"},{"authorName":"雷以柱","id":"4ca94930-62d5-4692-afc0-336c39b51d80","originalAuthorName":"雷以柱"},{"authorName":"郭园园","id":"022fa021-673a-4c65-8353-b7d1cb2312ac","originalAuthorName":"郭园园"},{"authorName":"张盼盼","id":"83781ef4-8356-44a5-b722-bb7c8da9a684","originalAuthorName":"张盼盼"},{"authorName":"李光兴","id":"a0c36165-d21c-453d-bcc7-a779eeae43e5","originalAuthorName":"李光兴"}],"doi":"10.11944/j.issn.1000-0518.2015.06.140342","fpage":"647","id":"2b6066fc-9db0-4691-8bd9-78ec06819ca0","issue":"6","journal":{"abbrevTitle":"YYHX","coverImgSrc":"journal/img/cover/YYHX.jpg","id":"73","issnPpub":"1000-0518","publisherId":"YYHX","title":"应用化学"},"keywords":[{"id":"0a6d4dfd-ef0e-451e-aa30-b7b95be76006","keyword":"二氧化碳","originalKeyword":"二氧化碳"},{"id":"543fe12c-2b11-4d97-bc68-a3b62a4038bb","keyword":"磷酸钾","originalKeyword":"磷酸钾"},{"id":"4fd9307e-9e1d-4e06-a46d-ef60bb94e9a9","keyword":"邻甲基水杨酸","originalKeyword":"邻甲基水杨酸"},{"id":"077d8b31-deb2-4bb5-bd10-9f92d6ffa5fa","keyword":"绿色合成","originalKeyword":"绿色合成"},{"id":"23dba287-34d1-49a8-8394-517c8a29b76e","keyword":"邻甲酚","originalKeyword":"邻甲酚"}],"language":"zh","publisherId":"yyhx201506006","title":"磷酸钾<span style=\"color:red\">中和</span>法邻甲酚羧化反应的绿色合成","volume":"32","year":"2015"},{"abstractinfo":"以煤矸石酸溶物<span style=\"color:red\">中和</span>液为研究对象萃取分离稀散金属镓,主要考察萃取时间、萃取温度、萃取剂浓度、稀释剂种类对镓萃取率的影响.并通过响应曲面法对煤矸石<span style=\"color:red\">中和</span>液中镓的萃取工艺进行了研究.结果表明:实验值和预测值相近,可以用拟合模型对镓的萃取率进行分析预测,以确定最佳工艺条件.为工业煤矸石<span style=\"color:red\">中和</span>液中镓的提取提供依据.","authors":[{"authorName":"李银","id":"967a5b6d-8baa-4da0-b313-3bec8d28046e","originalAuthorName":"李银"},{"authorName":"夏举佩","id":"c259fdb7-0ae0-4a2b-9c81-b7b829c6cae3","originalAuthorName":"夏举佩"},{"authorName":"刘海浪","id":"8bd9af21-3ea2-4f34-a238-d13d12d9d702","originalAuthorName":"刘海浪"},{"authorName":"罗中秋","id":"f9f8c1c4-fe6e-4ecc-99b2-22d3b24a43f7","originalAuthorName":"罗中秋"},{"authorName":"杨劲","id":"ba249432-3174-4ac4-b10d-d8024b3317f5","originalAuthorName":"杨劲"}],"doi":"","fpage":"953","id":"6c745572-2f30-4f82-a77c-825db10d9670","issue":"3","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报   "},"keywords":[{"id":"3febcb30-2241-4589-ba11-ab2ce53dba76","keyword":"煤矸石","originalKeyword":"煤矸石"},{"id":"67235b96-8690-43d5-9e1c-1d8af4ed7793","keyword":"<span style=\"color:red\">中和</span>液","originalKeyword":"中和液"},{"id":"d3bc7034-1129-4d3e-83e4-2ad92cfdaa8e","keyword":"镓提取","originalKeyword":"镓提取"},{"id":"d42539ee-9172-409c-a413-bbdf4cab8147","keyword":"P507","originalKeyword":"P507"},{"id":"1979e3e0-b39a-4aa3-84f3-1d462283a4b8","keyword":"响应曲面法","originalKeyword":"响应曲面法"}],"language":"zh","publisherId":"gsytb201703034","title":"基于响应曲面法提取煤矸石<span style=\"color:red\">中和</span>液中镓的研究","volume":"36","year":"2017"},{"abstractinfo":"测定了不同<span style=\"color:red\">中和</span>度聚丙烯酸水溶液的黏度,结果表明,在<span style=\"color:red\">中和</span>度为0.25时聚丙烯酸水溶液比浓黏度出现最大值.进一步测定了<span style=\"color:red\">中和</span>程度分别为0.04和0.09、以及没有经过<span style=\"color:red\">中和</span>的聚丙烯酸水溶液比浓黏度的浓度依赖性,发现存在着两个特征的浓度C1和C2.当溶液的浓度小于C1时,高分子溶液的比浓黏度保持恒定;当溶液的浓度大于C1时,高分子溶液的比浓黏度随着浓度的增加而增加.当溶液浓度达到c2时高分子溶液比浓黏度对浓度作图再次出现转折,此时进一步增加溶液的浓度,高分子溶液比浓黏度虽然继续增加,但是增加的梯度有所下降.高分子溶液比浓黏度的浓度依赖性与溶液中高分子内和高分子之间相互作用密切相关.","authors":[{"authorName":"吴轶","id":"588dff0e-30d1-423f-9ed1-8bc1bdc9ffe9","originalAuthorName":"吴轶"},{"authorName":"陈晓明","id":"fca76fe5-4bf1-4ead-9fff-7bc6be84c4f3","originalAuthorName":"陈晓明"},{"authorName":"杨海洋","id":"ce1ee071-d829-4684-a842-b6f44e3ec9f4","originalAuthorName":"杨海洋"},{"authorName":"朱平平","id":"958a30f8-8e14-4a4d-bd0a-27314fd13c6c","originalAuthorName":"朱平平"},{"authorName":"何平笙","id":"83f70dd0-fc66-491a-9b11-11545c07506e","originalAuthorName":"何平笙"}],"doi":"","fpage":"99","id":"61fc1dc3-2cf5-49c2-a8a2-4b1005fb8177","issue":"10","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":"244b8061-9db9-4d21-8120-778b216fc210","keyword":"聚丙烯酸","originalKeyword":"聚丙烯酸"},{"id":"5b42be76-c7ef-42b8-8471-9965a39684b8","keyword":"比浓黏度","originalKeyword":"比浓黏度"},{"id":"d3675766-b4f3-4584-b1a3-2d04de077f4f","keyword":"分子内相互作用","originalKeyword":"分子内相互作用"},{"id":"1ef162a3-6ffc-459d-b715-1ea1d9b0ca43","keyword":"分子间相互作用","originalKeyword":"分子间相互作用"}],"language":"zh","publisherId":"gfzclkxygc200810026","title":"不同<span style=\"color:red\">中和</span>度聚丙烯酸水溶液的黏度行为","volume":"24","year":"2008"},{"abstractinfo":"针对目前皮带运输烧结<span style=\"color:red\">中和</span>料人工取样存在的料样代表性不强、检测数据准确性低,而影响烧结矿的配料和质量等问题,济钢开发研制了烧结<span style=\"color:red\">中和</span>料自动化取样系统.该系统现场自动取制样及物理性能检验一次完成,提高了检验的准确性、可靠性和及时性;提高了工作效率,改善了工作环境,减轻了劳动强度.","authors":[{"authorName":"杨瑞霞","id":"b8c21545-d8f4-48eb-aa46-14d78b62f4c5","originalAuthorName":"杨瑞霞"}],"doi":"10.3969/j.issn.1006-9356.2006.01.006","fpage":"20","id":"38d418d9-5cef-402f-b193-8a2d9b94ad26","issue":"1","journal":{"abbrevTitle":"ZGYJ","coverImgSrc":"journal/img/cover/ZGYJ.jpg","id":"87","issnPpub":"1006-9356","publisherId":"ZGYJ","title":"中国冶金"},"keywords":[{"id":"0d4dfaed-db57-4476-ae7c-f27f8267dc63","keyword":"自动取样系统","originalKeyword":"自动取样系统"},{"id":"d81e04d1-916c-4ca0-a478-d116c9c47072","keyword":"检验","originalKeyword":"检验"},{"id":"51324dc5-e802-4c49-b06f-fd2624708124","keyword":"稳定运行","originalKeyword":"稳定运行"}],"language":"zh","publisherId":"zgyj200601006","title":"烧结<span style=\"color:red\">中和</span>料自动化取样系统的研制与应用","volume":"","year":"2006"},{"abstractinfo":"南京扬子石油化工公司研究院针对炼制含高硫原油的特点，研制成功多元有机胺<span style=\"color:red\">中和</span>缓 蚀剂。通过加入少量多元有机胺<span style=\"color:red\">中和</span>缓蚀剂，可大大提高炼制含高硫原油的适应能力，有效 降低设备、机械、管线的腐蚀速率，延长设备的使用周期，保证化工装置的长周期稳定运行 ，具有明显的经济效益和社会效益。\n　　目前，在炼制含硫量高的原油工艺过程中，南京扬子石油化工公司炼油厂及国内同类型的炼 油装置的设备中都存在着较为严重的硫化物腐蚀问题，对化工装置形成了较为严重的安全隐 患，影响了生产装置的稳定和长周期运行。多元有机胺<span style=\"color:red\">中和</span>缓蚀剂较好地解决了炼油装置中 设备的腐蚀问题，为南京扬子石化公司其他生产装置的防腐蚀研究奠定了基础，同时亦为国 内其他同类型的炼油装置中设备的防腐蚀提供了可供借鉴的经验。","authors":[],"doi":"","fpage":"4","id":"855baff1-6417-43ec-b685-eee3697b18bc","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":"0a8203dc-c69e-4888-a581-da9a6a6ec219","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"clbh200102033","title":"多元有机胺<span style=\"color:red\">中和</span>缓蚀剂研制成功","volume":"34","year":"2001"},{"abstractinfo":"攀钢在钒钛资源综合利用过程中产生了大量的含钒转炉渣和钛白废酸固、液废弃物,通过实施\"以废治废\"的新型利用理念,在常温下,液同比为5:1进行配比,浸泡1 h后钒浸出率达到71.16%,酸浸液可作为提钒原料使用,而酸浸渣则町作为石膏替代品,在达到<span style=\"color:red\">中和</span>目的的同时,实现废弃资源的再利用.","authors":[{"authorName":"钱强","id":"9e9d923a-8565-4a42-9cca-2585d10b5375","originalAuthorName":"钱强"}],"doi":"","fpage":"80","id":"7fa3c92d-05c2-47a3-8814-baa443eee37a","issue":"2","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"8d9e82cc-0ff1-41f1-aad2-f8c1d7743fea","keyword":"含钒转炉渣","originalKeyword":"含钒转炉渣"},{"id":"ece97066-60ef-49d1-879f-7d9b4f049ee9","keyword":"钛白废酸","originalKeyword":"钛白废酸"},{"id":"b16297a3-f842-431f-b872-e851b38889ce","keyword":"<span style=\"color:red\">中和</span>","originalKeyword":"中和"},{"id":"e7438bd0-8bd5-4427-84bd-b8c164faac8d","keyword":"浸出率","originalKeyword":"浸出率"},{"id":"d6fa7ad9-ef38-403c-9fab-4d025f7f8767","keyword":"石膏替代品","originalKeyword":"石膏替代品"}],"language":"zh","publisherId":"gt200902019","title":"含钒转炉渣<span style=\"color:red\">中和</span>钛白废酸的试验研究","volume":"44","year":"2009"}],"totalpage":581,"totalrecord":5807}