{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"利用低介电改性剂对氰酸酯树脂进行改性,制备了石英纤维/改性氰酸酯树脂复合材料,利用SEM表征了树脂及其复合材料的断面,并对改性氰酸酯树脂的耐热性能、力学性能、复合材料的力学性能及透波性能进行了研究.结果表明,改性氰酸酯树脂的玻璃化转变温度达到200℃以上,树脂拉伸破坏表现为韧性断裂,拉伸强度、弯曲强度和压缩强度分别在27MPa、69MPa和148MPa以上;改性氰酸酯树脂和纤维的界面结合良好,复合材料的拉伸强度、弯曲强度和压缩强度分别达到447MPa、461MPa和259MPa以上;在0.5~18GHz范围内,介电常数为3.1~3.3,4mm试样的S21小于-1.6dB.","authors":[{"authorName":"孙煜","id":"089477b4-71e9-4283-9c10-ad91c69d0d28","originalAuthorName":"孙煜"},{"authorName":"徐任信","id":"f42c6291-0d3b-40bf-81b4-b30a39ce1116","originalAuthorName":"徐任信"},{"authorName":"郑从伟","id":"7f381a31-0e9c-4545-b922-ea581aa5f9db","originalAuthorName":"郑从伟"},{"authorName":"王钧","id":"1c1db71d-5c63-44a2-b5d1-d9d0f3c4f20e","originalAuthorName":"王钧"},{"authorName":"杨小利","id":"a7476c1d-fda1-4dd2-b212-88e14851d654","originalAuthorName":"杨小利"},{"authorName":"周栋","id":"501469fd-187e-491c-860f-ed7272a60119","originalAuthorName":"周栋"}],"doi":"","fpage":"18","id":"10d88ac0-c18c-4534-a049-4db17694fa63","issue":"6","journal":{"abbrevTitle":"BLGFHCL","coverImgSrc":"journal/img/cover/BLGFHCL.jpg","id":"6","issnPpub":"1003-0999","publisherId":"BLGFHCL","title":"玻璃钢/复合材料"},"keywords":[{"id":"8996146b-b672-488d-9c4b-e61c4bfb6f0e","keyword":"氰酸酯树脂","originalKeyword":"氰酸酯树脂"},{"id":"1b047622-9d7a-4260-b4d4-caad1c810060","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"83dcbae2-51b6-45ff-a882-fde6b2d59e32","keyword":"耐热性","originalKeyword":"耐热性"},{"id":"7b2eb473-a7ad-4032-b9ff-30e70f61dc48","keyword":"力学性能","originalKeyword":"力学性能"},{"id":"6d4c1afb-87e5-47c0-8da7-cba743a2aea1","keyword":"透波性能","originalKeyword":"透波性能"}],"language":"zh","publisherId":"blgfhcl201506003","title":"改性氰酸酯基复合材料力学和透波性能研究","volume":"","year":"2015"},{"abstractinfo":"采用3种黄铜表面化学着色工艺,分别在黄铜表面得到了黑色、红色和银白色膜层.用SEM观察了膜层的表面形貌,用EDS对膜层进行了成分分析,用XRD对膜层进行了物相分析,并测试了着色黄铜的耐蚀性和结合力性能.实验结果表明,3种着色黄铜的耐蚀性较好,且着色膜层与基体结合良好.","authors":[{"authorName":"周栋","id":"130441f0-83b6-4aa9-9793-63e06fa4a1f3","originalAuthorName":"周栋"},{"authorName":"王瑀\n","id":"6cfb8a33-1f3b-44ce-96c0-45f993ee581e","originalAuthorName":"王瑀\n"},{"authorName":"杜伟","id":"3ce6dde7-29df-4c39-869c-576e21a5de27","originalAuthorName":"杜伟"},{"authorName":"丁毅","id":"de16ff34-a4af-4519-b8b4-3093cc300d20","originalAuthorName":"丁毅"},{"authorName":"马立群","id":"e34d8a97-b8fa-484a-bdf6-4caf45890c7b","originalAuthorName":"马立群"}],"doi":"10.3969/j.issn.1001-3660.2010.04.016","fpage":"50","id":"3a7a77d4-e603-4103-8181-b5aff0188d70","issue":"4","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 "},"keywords":[{"id":"dd4393f0-66bc-4eeb-8bcd-6b45a22b0b65","keyword":"黄铜","originalKeyword":"黄铜"},{"id":"213f03e7-c4d8-41c6-b328-49039920f23f","keyword":"化学着色","originalKeyword":"化学着色"},{"id":"b541d7b2-17a0-444e-8dd5-a11f445bb117","keyword":"膜层成分","originalKeyword":"膜层成分"},{"id":"4cd65bb0-69c4-4046-aed4-d843244871b7","keyword":"性能","originalKeyword":"性能"}],"language":"zh","publisherId":"bmjs201004016","title":"黄铜化学着色膜层制备及表征","volume":"39","year":"2010"},{"abstractinfo":"对橡胶粒表面进行改性处理,按照混凝土配合比制备了18组混凝土试块,研究了再生粗骨料取代率、橡胶粒掺量和改性方式对混凝土和易性和强度特性的影响规律.结果表明:随着再生粗骨料取代率的增加,橡胶再生混凝土的流动性、立方体抗压强度和劈裂抗拉强度随之下降,拉压比也有减小的趋势,混凝土脆性增强;随着橡胶粒掺量的增加,橡胶再生混凝土的流动性逐渐增强,立方体抗压强度和劈裂抗拉强度随之减小,拉压比不断增大,混凝土的塑性变形能力有所提高;三种橡胶粒改性方式中,NaOH与KH-550复合改性对橡胶再生混凝土流动性的改性效果最好,KH-550改性对橡胶再生混凝土强度的改性效果最好,但强度提高幅度不显著,更佳的改性方式有待进一步研究,而橡胶粒改性方式对橡胶再生混凝土拉压比的影响不大.","authors":[{"authorName":"蒋连接","id":"5d33dc29-9067-4dfa-9052-8a607339e898","originalAuthorName":"蒋连接"},{"authorName":"朱方之","id":"e47a777e-f478-42a2-9753-84477081a1ea","originalAuthorName":"朱方之"},{"authorName":"周栋","id":"98d6c0c0-41ea-4ef4-9a58-92e3497c37f3","originalAuthorName":"周栋"},{"authorName":"朱正祺","id":"1dd142d8-9586-472d-869f-55530350091f","originalAuthorName":"朱正祺"},{"authorName":"王锦程","id":"7863148d-daf7-434d-968c-0eaf1dc617e4","originalAuthorName":"王锦程"},{"authorName":"郑昌林","id":"e1069fa4-22d1-4fa0-bfa3-1a22a7b3b2b4","originalAuthorName":"郑昌林"}],"doi":"","fpage":"2007","id":"409497e6-2e8c-4782-8d19-423a90d8ffe0","issue":"7","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"3e79cd40-507f-48c4-81c2-9bbf5e9a8102","keyword":"橡胶再生混凝土","originalKeyword":"橡胶再生混凝土"},{"id":"100a59a9-d135-4ad6-9634-f4baa11f51a5","keyword":"和易性","originalKeyword":"和易性"},{"id":"722bfb2c-5005-40f7-85cb-780ec991ff00","keyword":"立方体抗压强度","originalKeyword":"立方体抗压强度"},{"id":"c3618748-fc71-4545-93e1-5d12c779f796","keyword":"劈裂抗拉强度","originalKeyword":"劈裂抗拉强度"}],"language":"zh","publisherId":"gsytb201507048","title":"改性橡胶再生混凝土基本性能试验研究","volume":"34","year":"2015"},{"abstractinfo":"反渗透(RO)海水淡化是一种有效获取淡水的技术,同时,结垢、浓水处理、能耗等问题制约着反渗透的进一步发展.采用纳滤(NF)作为反渗透的海水淡化预处理工艺,能有效解决反渗透膜结垢问题,并降低能耗,有助于排放浓水的处理.本文从海水淡化预处理纳滤膜的性能、海水淡化纳滤预处理的工艺以及NF-RO与其他方法联用三个方面综述纳滤-反渗透联用进行海水淡化的研究进展.","authors":[{"authorName":"周栋","id":"f0b00d08-1963-4b3f-b1c0-2f7c6cd17c4c","originalAuthorName":"周栋"},{"authorName":"傅寅翼","id":"2c474265-4020-4e60-8443-b65b883a3d5b","originalAuthorName":"傅寅翼"},{"authorName":"朱丽静","id":"2c00e276-a5ee-400f-a9c4-0c8083561e43","originalAuthorName":"朱丽静"},{"authorName":"郭志毅","id":"d5af8ad8-6875-452f-a601-d913aa521cb5","originalAuthorName":"郭志毅"},{"authorName":"刘富","id":"65356ec3-686a-44a7-8927-1be054645e60","originalAuthorName":"刘富"},{"authorName":"薛立新","id":"e6f452c1-750e-431c-8d93-c95c6cefc7e5","originalAuthorName":"薛立新"}],"doi":"10.16159/j.cnki.issn1007-8924.2015.03.018","fpage":"106","id":"68d90948-d887-4689-830e-f9d117ed9d0b","issue":"3","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":"75eab425-d300-4d44-bbe0-0a8ea1917b47","keyword":"纳滤","originalKeyword":"纳滤"},{"id":"a96670e7-3180-40f5-8028-e1f93b58173f","keyword":"反渗透","originalKeyword":"反渗透"},{"id":"be515479-0ddb-4c36-909c-c7b457346844","keyword":"海水淡化","originalKeyword":"海水淡化"}],"language":"zh","publisherId":"mkxyjs201503018","title":"纳滤预处理反渗透海水淡化研究进展","volume":"35","year":"2015"},{"abstractinfo":"采用化学浸泡法和动电位扫描法研究了304不锈钢在环保型酸洗钝化工艺下所得钝化膜的耐点蚀性能,运用X射线光电子能谱(XPS)分析了钝化膜的组成和结构.结果表明:由正交试验优选出的最优配方和工艺可大大提高304不锈钢表面钝化膜的耐点蚀性能;304不锈钢表面钝化膜中的Cr、Fe、Ni分别以Cr2O3、FeO、NiO的形式存在;钝化处理后,试片表面钝化膜中的铬元素和镍元素的含量明显增加.综合考虑,不锈钢柠檬酸钝化的最佳工艺为:柠檬酸质量分数4%,氧化剂X体积分数5%,乙醇体积分数2.5%,温度40℃,钝化时间60min.","authors":[{"authorName":"夏浩","id":"9869fe13-33d0-4d73-8864-d079347a1290","originalAuthorName":"夏浩"},{"authorName":"周栋","id":"33654c55-0996-4ed3-893e-6d0884c0b518","originalAuthorName":"周栋"},{"authorName":"丁毅","id":"766fb998-3224-4b5a-8007-896b7d2a927d","originalAuthorName":"丁毅"},{"authorName":"马立群","id":"ef4e2a33-d54f-4f8a-9ef6-63a55acaca3f","originalAuthorName":"马立群"}],"doi":"10.3969/j.issn.1001-3660.2009.04.017","fpage":"47","id":"765f975a-5754-49eb-92c2-216dc0550c6e","issue":"4","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 "},"keywords":[{"id":"c41b01ee-de39-4b0c-9577-2c0942b803db","keyword":"酸洗钝化","originalKeyword":"酸洗钝化"},{"id":"20da463c-0aa2-4c64-b22b-4ce1ecb3dbf7","keyword":"304不锈钢","originalKeyword":"304不锈钢"},{"id":"a0764330-6c42-4e19-9565-7c8c7c4d6a64","keyword":"柠檬酸","originalKeyword":"柠檬酸"},{"id":"f499806d-fccb-42fc-838f-17a9122849d9","keyword":"正交试验","originalKeyword":"正交试验"},{"id":"dde2b775-4446-4a30-9bc3-8b2e7ea05483","keyword":"耐点蚀性能","originalKeyword":"耐点蚀性能"}],"language":"zh","publisherId":"bmjs200904017","title":"304不锈钢环保型酸洗钝化工艺及其性能研究","volume":"38","year":"2009"},{"abstractinfo":"采用高频感应钎焊技术制备碳钢/不锈钢复合板,并对不同钎焊温度下钎焊接头的显微组织进行了分析。结果表明:以H62黄铜箔为钎料制备出的碳钢/不锈钢复合板,在910-950℃下都形成了冶金结合界面;在该界面存在元素扩散现象,并有岛状物形成,该岛状物优先在碳ta/黄铜界面形成,随着钎焊过程的进行向黄铜钎料层中生长,直至贯穿整个钎料层;其具有镍-铬-铁相结构,是碳钢、不锈钢和钎料相互扩散并发生反应的产物。","authors":[{"authorName":"丁毅","id":"15e8487e-6cc6-48aa-8e57-2951e6888758","originalAuthorName":"丁毅"},{"authorName":"王小霞","id":"b5f4796c-c812-47b9-81df-5203a727c8e9","originalAuthorName":"王小霞"},{"authorName":"周栋","id":"3d4d0136-5d90-41fa-9398-18a3d3100bf9","originalAuthorName":"周栋"},{"authorName":"杨猛","id":"00e44dcb-7bc8-4b6e-87ed-262e5ebb375a","originalAuthorName":"杨猛"},{"authorName":"马立群","id":"2f101824-3a57-4742-9c77-479f61c15c38","originalAuthorName":"马立群"}],"doi":"","fpage":"68","id":"ad9d5715-8a71-41e0-bf5c-1238a325e7ea","issue":"9","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"5f95b6b1-1394-4ac0-9376-168474bab08d","keyword":"碳钢/不锈钢复合板","originalKeyword":"碳钢/不锈钢复合板"},{"id":"190a76e4-d7c3-4a66-b416-6bff2fe503f2","keyword":"高频感应钎焊","originalKeyword":"高频感应钎焊"},{"id":"19eb5868-6544-489c-b60b-297dbb5838fc","keyword":"H62黄铜钎料","originalKeyword":"H62黄铜钎料"}],"language":"zh","publisherId":"jxgccl201109018","title":"高频感应加热钎焊工艺制备碳钢/不锈钢复合板接头的显微组织","volume":"35","year":"2011"},{"abstractinfo":"研究了一种黄铜表面化学镀锡工艺.通过实验,在黄铜条和黄铜拉链上得到了一种较好的银白色镀层.用扫描电镜(SEM)方法测量了镀层厚度和表面形貌,用能谱成分分析(EDS)方法对镀层进行了成分分析,用X射线衍射(XRD)方法进行了物相分析.并且对镀锡层的耐汗性能和结合力性能进行了测试,实验结果表明该镀层耐汗液性能、结合力好.","authors":[{"authorName":"周栋","id":"eca15ce0-73d9-43a4-bb8a-d691bc6ed548","originalAuthorName":"周栋"},{"authorName":"王瑀\n","id":"49680150-0ed7-4312-b803-e6daab127187","originalAuthorName":"王瑀\n"},{"authorName":"丁毅","id":"e1e82d91-900a-4c32-9447-c21c19aad73e","originalAuthorName":"丁毅"},{"authorName":"马立群","id":"b83d2b72-bb11-458f-abe2-bfc3bce7abfd","originalAuthorName":"马立群"}],"doi":"10.3969/j.issn.1001-3660.2010.02.018","fpage":"58","id":"c072f74d-6aad-4ae0-aac4-70cb2e70e8ce","issue":"2","journal":{"abbrevTitle":"BMJS","coverImgSrc":"journal/img/cover/BMJS.jpg","id":"3","issnPpub":"1001-3660","publisherId":"BMJS","title":"表面技术 "},"keywords":[{"id":"cd20d758-3743-4b0e-91b3-a93819c9f54d","keyword":"黄铜","originalKeyword":"黄铜"},{"id":"0571996b-7dc9-40a9-956d-b12784f19d40","keyword":"拉链","originalKeyword":"拉链"},{"id":"3232221f-af34-421a-925e-76b42d3ee8eb","keyword":"化学镀锡","originalKeyword":"化学镀锡"}],"language":"zh","publisherId":"bmjs201002018","title":"黄铜拉链化学镀锡工艺研究","volume":"39","year":"2010"},{"abstractinfo":"用电磁感应法在碳/碳复合材料表面制备与人骨镁含量相当的羟基磷灰石涂层,镁占涂层的重量百分含量分别为0、0.28%、 0.32%、 0.49%.用SEM、EDS、XRD、 FT-IR等手段对涂层进行了评价,结果表明:镁离子能进入羟基磷灰石晶格内部,不同镁含量涂层的物相有微小差异.在人骨镁含量的范围内,涂层的镁含量越高体外大鼠成骨细胞(MC3T3-E1)的粘附、增殖以及分化能力越强.","authors":[{"authorName":"倪昕晔","id":"6c12a368-3923-4807-8a58-9f4ef9ca87d3","originalAuthorName":"倪昕晔"},{"authorName":"李爱军","id":"282be1fb-ecfc-4d00-a99c-a25752349364","originalAuthorName":"李爱军"},{"authorName":"白瑞成","id":"fea70037-f20f-45de-9f7e-78c44e0ce217","originalAuthorName":"白瑞成"},{"authorName":"熊信柏","id":"b71bbcda-f92f-4844-a85a-aab1f3495e1f","originalAuthorName":"熊信柏"},{"authorName":"周栋","id":"24582ea5-7439-496c-b14d-4000aa4e10c4","originalAuthorName":"周栋"}],"doi":"","fpage":"853","id":"59e93b8f-5855-4f38-9c9a-0a09d2ad8c3c","issue":"11","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":"e79fbe65-64c7-467b-a09a-4d37b1237b1f","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"b5fc1422-b701-49df-8e8c-4832112f09fc","keyword":"碳/碳复合材料","originalKeyword":"碳/碳复合材料"},{"id":"717daf1d-47b0-4757-9ac6-7f716b428456","keyword":"镁","originalKeyword":"镁"},{"id":"dde04ba0-4629-4f87-b20d-9c789ec33dc4","keyword":"羟基磷灰石","originalKeyword":"羟基磷灰石"}],"language":"zh","publisherId":"clyjxb201511008","title":"掺镁羟基磷灰石涂层在碳/碳复合材料表面的制备","volume":"29","year":"2015"},{"abstractinfo":"发展一种简单、高效的铜催化活泼烯烃氰烷基化成环合成吲哚酮的方法.在CuL/DTBP(叔丁基过氧化物)催化作用下,N-芳基丙烯酰胺类化合物与α-氰基偶氮试剂发生自由基环化反应,高效地合成了一系列含α-氰基季碳中心的吲哚酮,并探讨了其反应机理.该方法底物适用范围较广、反应体系温和,催化体系廉价.","authors":[{"authorName":"李志豪","id":"68c8349d-98d3-4208-be54-9351f37c572f","originalAuthorName":"李志豪"},{"authorName":"唐石","id":"a7f94850-8737-4ecc-8ae2-a7dc10b15f46","originalAuthorName":"唐石"},{"authorName":"周栋","id":"c7985fd0-48a9-4be3-83b5-87a7cafe8b4b","originalAuthorName":"周栋"},{"authorName":"邓佑林","id":"96fdcab8-209d-431e-a599-148e8578550e","originalAuthorName":"邓佑林"},{"authorName":"李玉花","id":"a02cdc69-cc6f-4e3c-96ba-c3112709c8d0","originalAuthorName":"李玉花"},{"authorName":"黎淑华","id":"b5994588-4417-414a-8d91-aca519113b9a","originalAuthorName":"黎淑华"}],"doi":"10.11944/j.issn.1000-0518.2015.08.150005","fpage":"884","id":"442696c4-dd04-47c0-805a-3b7bc4fb5554","issue":"8","journal":{"abbrevTitle":"YYHX","coverImgSrc":"journal/img/cover/YYHX.jpg","id":"73","issnPpub":"1000-0518","publisherId":"YYHX","title":"应用化学"},"keywords":[{"id":"317ed883-07cb-457d-b007-c2ad2c91b105","keyword":"α-氰偶氮试剂","originalKeyword":"α-氰偶氮试剂"},{"id":"af86a516-e80d-44c4-895b-53753c6ab875","keyword":"含氰吲哚酮","originalKeyword":"含氰吲哚酮"},{"id":"9d0b5dd7-04b4-4863-a6f4-2d6b269461cc","keyword":"C—H环化","originalKeyword":"C—H环化"},{"id":"87a6450b-644b-45b1-a874-dddf7f623a5e","keyword":"自由基","originalKeyword":"自由基"},{"id":"d175d25f-e7e0-409a-b169-9f7dc44216e7","keyword":"铜催化","originalKeyword":"铜催化"}],"language":"zh","publisherId":"yyhx201508003","title":"铜催化烯烃氰烷基化成环合成含氰吲哚酮","volume":"32","year":"2015"},{"abstractinfo":"针对纳滤-反渗透海水淡化(NF-SWRO)工艺第一级脱盐率不高,继而造成第二级操作压力大以及能耗高等问题,本文提出了高效纳滤-低压反渗透(HRNF-LPRO)集成膜工艺用于海水淡化,并进行了初步的探索性研究实验.实验结果表明,在操作压力2.6 MPa、1.4 MPa条件下,HRNF-LPRO集成工艺可脱除人工海水(34 998 mg/L)中99.84%的盐分得到淡化海水.ROSA模拟表明,在给水浓度34 967.39 mg/L条件下,HRNF-LPRO工艺的产水溶解性总固体(TDS)为231.17 mg/L,综合产水能耗为3.264 kW·h/m3.HRNF-LPRO集成工艺不仅降低了第二级脱盐操作压力,也降低了设备要求,从而有利于降低产水成本.","authors":[{"authorName":"周栋","id":"57a0c040-519b-4a5e-a7e8-2e70541ff1f6","originalAuthorName":"周栋"},{"authorName":"傅寅翼","id":"6ce2db78-2727-4a14-9ff4-02fd9c23bf96","originalAuthorName":"傅寅翼"},{"authorName":"薛立新","id":"b30ef386-e6f7-4674-aac0-497d7579ef1d","originalAuthorName":"薛立新"},{"authorName":"朱丽静","id":"1a6d0391-31e6-4617-afcb-c850d7abf502","originalAuthorName":"朱丽静"},{"authorName":"朱鸣鹤","id":"dae03969-b251-4db3-b687-d57660b3caef","originalAuthorName":"朱鸣鹤"}],"doi":"10.16159/j.cnki.issn1007-8924.2016.03.010","fpage":"62","id":"6f06a35c-7cbf-423f-a2aa-a7c1a870499f","issue":"3","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":"4323e10b-7412-4176-a662-7ca3dee7b094","keyword":"高效纳滤","originalKeyword":"高效纳滤"},{"id":"e76d6a1d-59c4-469d-ae82-ddb380136a66","keyword":"低压反渗透","originalKeyword":"低压反渗透"},{"id":"3c974328-2f07-459e-877b-be3dff232962","keyword":"海水淡化","originalKeyword":"海水淡化"},{"id":"3dbd92c0-78be-46b5-a8ec-87d0709b29ad","keyword":"节能","originalKeyword":"节能"},{"id":"64da77c8-5bab-4882-a12a-8f80c85668df","keyword":"低成本","originalKeyword":"低成本"}],"language":"zh","publisherId":"mkxyjs201603010","title":"采用高效纳滤-低压反渗透集成膜工艺的海水淡化研究","volume":"36","year":"2016"}],"totalpage":152,"totalrecord":1516}