{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"介绍了为兰州Penning离子阱项目专门设计的5T有源屏蔽式超导磁体。为达到物理设计要求的场均匀度,超导磁体有3层共计6个线包组成。同时为了确保线圈绕制的定位精度和在强磁场下的稳定性,绕制骨架采用三筒体结构,模拟计算表明线圈的绝缘和固定结构能够达到强磁场下的电气和机械性能要求。对5T有源屏蔽式超导磁体结构设计材料选择以及线圈的绕制工艺进行了详细的论述。","authors":[{"authorName":"<span style=\"color:red\">郭</span><span style=\"color:red\">永</span><span style=\"color:red\">超</span>","id":"fc303300-ccbf-42be-aa4b-591c44d53e3a","originalAuthorName":"郭永超"},{"authorName":"张小奇","id":"1d1889c0-6e14-43c1-97a9-de67cb9f219a","originalAuthorName":"张小奇"},{"authorName":"马力祯","id":"f8fe56c6-9d1f-4cac-8798-fe1b6e9eafa0","originalAuthorName":"马力祯"},{"authorName":"吴巍","id":"7eabbab0-59a6-449f-8239-73432f7a9d01","originalAuthorName":"吴巍"},{"authorName":"吴锡","id":"17fc333f-3c28-46c6-89b1-7c92fdb932a9","originalAuthorName":"吴锡"},{"authorName":"张晓鹰","id":"cd2520b6-8903-4b1a-8e56-fa4e7300cb2c","originalAuthorName":"张晓鹰"}],"doi":"","fpage":"67","id":"66258369-8acc-4827-89d7-776797f5eba3","issue":"1","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论   "},"keywords":[{"id":"30fbb658-cce1-4148-9ae0-76f216fd8aac","keyword":"有源屏蔽","originalKeyword":"有源屏蔽"},{"id":"dda62e7f-ecbc-48b8-aca9-49c064e8a984","keyword":"超导磁体","originalKeyword":"超导磁体"},{"id":"46ac0615-6f38-417a-a6fa-6f87348adbd9","keyword":"结构设计","originalKeyword":"结构设计"}],"language":"zh","publisherId":"yzhwlpl201201010","title":"5T有源屏蔽式超导磁体结构设计","volume":"29","year":"2012"},{"abstractinfo":"采用十八胺对<span style=\"color:red\">永</span>固红F5R进行化学修饰,以Span-80为稳定剂,四氯乙烯为分散介质,制备了分散性和稳定性良好的电泳液.以此电泳液为囊芯,脲甲醛树脂为壁材,制备了一种红色电子墨水微胶囊,研究了投料比、合成温度、酸化时间和搅拌速度等对合成微胶囊的影响.结果表明,合成的微胶囊形貌呈规则球形,表面光滑,囊壁结构致密,强度较好,包覆率达到82%,囊芯含量达到76%.<span style=\"color:red\">永</span>固红F5R电泳液微胶囊具有明显的电场响应行为,可以作为柔板显示器的功能材料.","authors":[{"authorName":"倪卓","id":"e029822e-b1ed-424a-b43f-a3d2d95f646c","originalAuthorName":"倪卓"},{"authorName":"李丹","id":"f887ef04-3dc6-455f-86fc-9eaf77647b61","originalAuthorName":"李丹"},{"authorName":"钟玉莲","id":"6e3369c1-b82c-4882-b5ad-f92b613051e0","originalAuthorName":"钟玉莲"},{"authorName":"刘丽双","id":"d3c287ad-6acf-4232-8eae-a680e7e1a76f","originalAuthorName":"刘丽双"},{"authorName":"陈展明","id":"baa30c08-d528-444e-a1d0-a9e6d19f0be8","originalAuthorName":"陈展明"}],"doi":"","fpage":"101","id":"d12b9eff-6442-431e-95ec-d7cd2e3641e6","issue":"20","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"6e0a5c0b-b00d-482d-8087-7395d7978cd1","keyword":"电子墨水","originalKeyword":"电子墨水"},{"id":"992b930c-12f3-4576-8e3c-b39ae1c29e47","keyword":"微胶囊","originalKeyword":"微胶囊"},{"id":"e7f3811b-05f8-4d67-9e95-425b0fecdb1c","keyword":"<span style=\"color:red\">永</span>固红F5R","originalKeyword":"永固红F5R"},{"id":"aa0d839f-6344-4e50-88fd-9805b4855b0d","keyword":"电场响应","originalKeyword":"电场响应"}],"language":"zh","publisherId":"cldb200920030","title":"<span style=\"color:red\">永</span>固红F5R电泳液微胶囊的制备和表征","volume":"23","year":"2009"},{"abstractinfo":"内蒙古锡林<span style=\"color:red\">郭</span>勒盟东部金属成矿带是中国重要的黑色金属、有色金属、贵金属成矿带,成矿带岩浆活动频繁,构造活动强烈,具备有利的成矿条件.通过对2个成矿带(东乌旗成矿带、西乌旗成矿带)的地质背景及成矿条件的研究,将东乌旗成矿带分为4个成矿亚带,西鸟旗成矿带分为2个成矿亚带,为下一步的地质找矿工作提供依据.","authors":[{"authorName":"杜继旭","id":"fd584c9e-5605-4769-b01e-db0a7c05ac10","originalAuthorName":"杜继旭"},{"authorName":"潘成林","id":"2d9e2d78-d308-4289-9a42-7a54cc16cd55","originalAuthorName":"潘成林"},{"authorName":"邱金柱","id":"2474a6dc-72af-4a95-9e2f-56448fd73709","originalAuthorName":"邱金柱"},{"authorName":"杨云鹏","id":"1e1d74b3-d31a-49a3-a790-1c80da0a957f","originalAuthorName":"杨云鹏"}],"doi":"10.11792/hj20160807","fpage":"29","id":"500e6a9a-d291-4f67-9d99-2d0225acffb5","issue":"8","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"234ef34d-b332-4ab1-b80d-bb028910cf34","keyword":"成矿带","originalKeyword":"成矿带"},{"id":"8090e080-2ef1-43ff-a166-52884abebb15","keyword":"成矿亚带","originalKeyword":"成矿亚带"},{"id":"214d318d-1c65-4ea5-b498-a4819fa7778c","keyword":"地质特征","originalKeyword":"地质特征"},{"id":"722c1f11-cd69-4dfa-8936-52ad489667aa","keyword":"划分","originalKeyword":"划分"},{"id":"a8343aef-70ac-4a69-a653-fbf9d67b10a2","keyword":"锡林<span style=\"color:red\">郭</span>勒盟东部","originalKeyword":"锡林郭勒盟东部"},{"id":"4cb1d4e4-8634-47ac-9f44-fffea1d483e7","keyword":"内蒙古","originalKeyword":"内蒙古"}],"language":"zh","publisherId":"huangj201608007","title":"内蒙古锡林<span style=\"color:red\">郭</span>勒盟东部金属成矿亚带的划分及其意义","volume":"37","year":"2016"},{"abstractinfo":"本试验主要研究目的是SBS改性剂、相容剂、稳定剂、剪切速率、剪切时间、发育时间对<span style=\"color:red\">永</span>古高速公路SBS改性沥青性能的影响.查阅该地区沥青路面资料,初步确定在相容剂掺量1.5％,稳定剂掺量1.5‰的前提下,通过对沥青软化点、25℃的针入度、5℃的延度、离析软化点差进行试验,对试验结果进行分析,最终确定SBS改性沥青的SBS改性剂掺量3.8％、相容剂掺量1.5％、稳定剂掺量2‰.在此SBS改性沥青的前提下,研究剪切速率、剪切时间、发育时间对SBS改性沥青的影响,在剪切时间30 min,发育时间90 min的前提下,继续对沥青软化点、25℃的针入度、5℃的延度进行试验,整理分析数据,得到最终的制备工艺为:剪切速率5500 r·min-1、剪切时间35 min、发育时间为120 min.得到结论为<span style=\"color:red\">永</span>古高速SBS改性沥青为:SBS改性剂掺量3.8％、相容剂掺量1.5％、稳定剂掺量2‰、剪切速率5500 r·min-1、剪切时间35 min、发育时间120 min.","authors":[{"authorName":"杨成","id":"49e1bb34-385e-450e-b15a-d087702dd672","originalAuthorName":"杨成"},{"authorName":"刘德仁","id":"5e1cc12a-3310-4b99-987e-685849267cce","originalAuthorName":"刘德仁"},{"authorName":"王旭","id":"3f7ebb88-9706-4ed1-a295-874f3dd09b5e","originalAuthorName":"王旭"},{"authorName":"刘国太","id":"b788fc37-667e-45b2-84cf-868fbfcd442e","originalAuthorName":"刘国太"}],"doi":"","fpage":"1956","id":"f7099de0-276a-4990-90b1-bf620a4ab25c","issue":"8","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报   "},"keywords":[{"id":"e07d0294-fda5-4a30-ae4d-66ec36aeb26e","keyword":"改性沥青","originalKeyword":"改性沥青"},{"id":"54db9649-1e0d-4ed1-81e9-84b273668a97","keyword":"SBS改性剂","originalKeyword":"SBS改性剂"},{"id":"45690fb2-dbab-4f89-ab83-bed0ff385565","keyword":"相容剂","originalKeyword":"相容剂"},{"id":"13cee48f-5a15-4e51-a5a2-3315010837ac","keyword":"稳定剂","originalKeyword":"稳定剂"},{"id":"4084d161-2ce7-4acd-9e1d-3c8c5bdc64d4","keyword":"生产工艺","originalKeyword":"生产工艺"}],"language":"zh","publisherId":"gsytb201408018","title":"<span style=\"color:red\">永</span>古高速公路SBS改性沥青试验研究","volume":"33","year":"2014"},{"abstractinfo":"采用浓硫酸对5种不同来源的四氯苯醌和\"<span style=\"color:red\">永</span>固紫\"染料样品进行溶解分散,用甲苯提取和多层色谱柱纯化,利用同位素稀释法及高分辨气相色谱/质谱 (HRGC/HRMS)联用技术,测定了其中的多氯代二苯并二(口恶)(口英)/呋喃(PCDD/F)的质量比.结果表明\"<span style=\"color:red\">永</span>固紫\"染料及其原料中P CDD/F的质量比异常高,八氯代二苯并二(口恶)(口英)/呋喃(OCDD/F)已达到μg/g级甚至100 μg/g级,七氯代二苯并二(口恶)(口英)/呋喃(HpCDD/F)和六氯代二苯并二(口恶)(口英)/呋喃(HxCDD/F)质量比也达到 ng/g级.所有样品的毒性当量浓度(TEQ)均已超过10 pg/g的危险水平,是纺织品中PCDD/F的一类重要污染源.并进一步探讨了PCDD/F的来源.","authors":[{"authorName":"张庆华","id":"a0508650-85a5-4b40-bcd5-1fe36cc47da7","originalAuthorName":"张庆华"},{"authorName":"吴文忠","id":"277bbfc9-4c17-4304-bfe5-426d2212c8de","originalAuthorName":"吴文忠"},{"authorName":"占伟","id":"b14424b5-e4e7-49e5-8ede-37f906299bcf","originalAuthorName":"占伟"},{"authorName":"徐盈","id":"f7eddda3-96df-42eb-b756-b1d814f5ebb2","originalAuthorName":"徐盈"}],"doi":"10.3321/j.issn:1000-8713.2000.01.006","fpage":"21","id":"565f4845-690c-401a-aeb5-ef021b0ab222","issue":"1","journal":{"abbrevTitle":"SP","coverImgSrc":"journal/img/cover/SP.jpg","id":"58","issnPpub":"1000-8713","publisherId":"SP","title":"色谱 "},"keywords":[{"id":"9f06a77c-e98d-4780-a193-2c5f7014a9c7","keyword":"多氯代二苯并二(口恶)(口英)/呋喃","originalKeyword":"多氯代二苯并二(口恶)(口英)/呋喃"},{"id":"07b72d36-322a-4610-b4c6-a97b6d4e7c12","keyword":"染料","originalKeyword":"染料"},{"id":"853ea362-d40f-4c73-9f82-2cf868fd063c","keyword":"四氯苯醌","originalKeyword":"四氯苯醌"}],"language":"zh","publisherId":"sp200001006","title":"\"<span style=\"color:red\">永</span>固紫\"染料和四氯苯醌中多氯代二苯并二(口恶)(口英)/呋喃的分析","volume":"18","year":"2000"},{"abstractinfo":"根据电化学原理, 得到高阻值衬层穿透性裂纹的电沉积电流与时间的关系曲线, 利用计算机数据采集及处理系统, 对高阻值衬层进行分析与检测, 由此可以定量确定裂纹的大小, 再通过观测在裂纹处所沉积的金属（或采用电极扫描技术）来确定裂纹的位置及表面形状, 最终可以实现对高阻值衬层的快速无损探伤.","authors":[{"authorName":"<span style=\"color:red\">郭</span>志猛","id":"a59895a1-e4a8-4a35-a331-9748f7c5978a","originalAuthorName":"郭志猛"},{"authorName":"庄奋强","id":"d8cd23d4-33dd-4328-a00d-72b9a514f2fb","originalAuthorName":"庄奋强"},{"authorName":"林涛","id":"b5f727f0-0703-4ff1-b13c-2745dba602f5","originalAuthorName":"林涛"},{"authorName":"吴峰松","id":"ba35ec5c-8dad-4a09-b74d-d7b0570a72b3","originalAuthorName":"吴峰松"},{"authorName":"殷声","id":"646d55f6-70b4-4352-88ac-c1e271dba40a","originalAuthorName":"殷声"}],"categoryName":"|","doi":"","fpage":"124","id":"e5e5e0ed-8166-4f8a-b28e-d665b6d67a6f","issue":"2","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"65638d24-a49c-4c62-bf5d-fc361122209b","keyword":"高阻值衬层","originalKeyword":"高阻值衬层"},{"id":"48e71879-91d1-4f48-953e-71210906e540","keyword":"null","originalKeyword":"null"},{"id":"7b4996f6-ca76-4816-9879-97c3dd341e49","keyword":"null","originalKeyword":"null"},{"id":"4e24337c-4431-4601-96bf-b869291af036","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_1999_2_20","title":"<span style=\"color:red\">郭</span>志猛 庄奋强","volume":"35","year":"1999"},{"abstractinfo":"","authors":[],"doi":"","fpage":"594","id":"a8f95271-0568-4acd-865c-8218cdeb0825","issue":"9","journal":{"abbrevTitle":"ZGCLJZ","coverImgSrc":"journal/img/cover/中国材料进展.jpg","id":"80","issnPpub":"1674-3962","publisherId":"ZGCLJZ","title":"中国材料进展"},"keywords":[{"id":"64725150-046a-4256-8cf4-c812b9b26e4d","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"zgcljz201409011","title":"专栏特约编辑赵<span style=\"color:red\">永</span>庆","volume":"","year":"2014"},{"abstractinfo":"简要介绍了纳米<span style=\"color:red\">超</span>分子化学的产生、发展及应用,重点综述了:①<span style=\"color:red\">超</span>分子纳米材料的合成及应用;②新型<span style=\"color:red\">超</span>分子纳米材料制备的新方法及其应用;③新型<span style=\"color:red\">超</span>分子纳米材料的合成及在医药学方面的应用.并对纳米<span style=\"color:red\">超</span>分子化学的发展进行了展望.","authors":[{"authorName":"张来新","id":"1bf4243b-ccd2-47fd-b23a-5540e6a777ff","originalAuthorName":"张来新"},{"authorName":"胡小兵","id":"97e18d71-e53a-40fc-a9d6-dd1e286793b7","originalAuthorName":"胡小兵"}],"doi":"","fpage":"101","id":"69d8a2b5-8444-4b42-8fca-d0e9d1eb740e","issue":"5","journal":{"abbrevTitle":"HCCLLHYYY","coverImgSrc":"journal/img/cover/HCCLLHYYY.jpg","id":"42","issnPpub":"1671-5381","publisherId":"HCCLLHYYY","title":"合成材料老化与应用"},"keywords":[{"id":"28f66b3b-cfb1-4f09-aa27-d05672febe6f","keyword":"纳米<span style=\"color:red\">超</span>分子化学","originalKeyword":"纳米超分子化学"},{"id":"2cf6653f-9066-473a-898f-5c0c30d75dcb","keyword":"合成","originalKeyword":"合成"},{"id":"f6363cbf-24b8-4e3b-b99a-ee0519e72aff","keyword":"应用","originalKeyword":"应用"}],"language":"zh","publisherId":"hccllhyyy201505023","title":"纳米<span style=\"color:red\">超</span>分子化学","volume":"44","year":"2015"},{"abstractinfo":"<span style=\"color:red\">超</span>光滑表面在现代科学技术中具有重要意义.<span style=\"color:red\">超</span>精密抛光技术是实现<span style=\"color:red\">超</span>光滑表面的主要方法.本文对<span style=\"color:red\">超</span>光滑表面的概念、影响<span style=\"color:red\">超</span>精密抛光质量的因素、几种<span style=\"color:red\">超</span>精密抛光方法及其所能达到的抛光效果、抛光效果的测量与评价方法等进行了介绍.同时描述了<span style=\"color:red\">超</span>精密抛光的发展阶段、现状和发展趋势.","authors":[{"authorName":"谢会东","id":"2b954ee3-6a40-4c25-a325-5f531cd1b82c","originalAuthorName":"谢会东"},{"authorName":"王晓青","id":"d7ce1903-af41-4970-80bb-09003bfbf470","originalAuthorName":"王晓青"},{"authorName":"沈光球","id":"deb9ea70-3ee5-4361-97cb-be5b6ee05981","originalAuthorName":"沈光球"}],"doi":"10.3969/j.issn.1000-985X.2004.06.034","fpage":"1035","id":"a9cd15f2-9b31-4352-bd9c-5a32c9084dae","issue":"6","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":"627ac45e-6c17-4b2d-ac1b-fb8ecaea69cd","keyword":"<span style=\"color:red\">超</span>光滑表面","originalKeyword":"超光滑表面"},{"id":"dd75676b-16d6-4a60-a03b-e0363d561bd5","keyword":"<span style=\"color:red\">超</span>精密抛光","originalKeyword":"超精密抛光"},{"id":"0672cb53-c7c2-4d2e-b012-5995a595a5cf","keyword":"表面粗糙度","originalKeyword":"表面粗糙度"},{"id":"40149007-839c-4993-9e18-f28d70d4726d","keyword":"平面度","originalKeyword":"平面度"}],"language":"zh","publisherId":"rgjtxb98200406034","title":"晶体的<span style=\"color:red\">超</span>精密抛光","volume":"33","year":"2004"},{"abstractinfo":"介质铁电<span style=\"color:red\">超</span>晶格薄膜是一类新型的薄膜材料,已逐渐开始受到重视,成为研究的热点.本文主要分析了铁电<span style=\"color:red\">超</span>晶格薄膜的结构特点、组分材料、介电铁电性能;介绍了其在实际中的应用以及在近几年的发展;概括了几种常用的介质铁电<span style=\"color:red\">超</span>晶格薄膜的生长技术及其影响因素;最后对铁电<span style=\"color:red\">超</span>晶格薄膜的发展和应用前景进行了展望.","authors":[{"authorName":"郝兰众","id":"6b76ff21-52b4-438f-930d-d40ae669ebec","originalAuthorName":"郝兰众"},{"authorName":"李燕","id":"0f54288b-eec0-44f0-846c-ada90687d6bc","originalAuthorName":"李燕"},{"authorName":"刘云杰","id":"cf67888c-abaf-410c-91ca-416b81c8c17d","originalAuthorName":"刘云杰"},{"authorName":"邓宏","id":"b0431513-3639-41a8-8661-287234c6782d","originalAuthorName":"邓宏"}],"doi":"","fpage":"1533","id":"31136dc8-182f-4a35-b8ab-98b5abf5703c","issue":"z1","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"81298464-3bde-4b0d-8c3e-ebf6d7d727f3","keyword":"铁电<span style=\"color:red\">超</span>晶格","originalKeyword":"铁电超晶格"},{"id":"b6bf87f0-6b3d-4916-a378-ab081166aba4","keyword":"y薄膜","originalKeyword":"y薄膜"},{"id":"0a3eb80c-f214-47cb-8692-59ce48e81071","keyword":"分子束外延","originalKeyword":"分子束外延"}],"language":"zh","publisherId":"gncl2004z1431","title":"铁电<span style=\"color:red\">超</span>晶格薄膜","volume":"35","year":"2004"}],"totalpage":526,"totalrecord":5253}