{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"介绍了兰州重离子加速器冷却储存环(HIRFL-CSR)外靶实验中时间起点探测器(T0)的前端电子学原型模块的设计与测试.探索了基于过阈时间法和专用集成电路NINO芯片进行多气隙电阻板室探测器信号读出的模拟前端电路的设计技术,并实际完成了原型电子学模块的设计.此模块共集成6个测量通道,可以进行前沿甄别及电荷时间变换.目前已经在实验室条件下完成了各项电子学性能测试,包括不同甄别阈值下的时间精度测试以及不同输入信号幅度下的输出脉宽测试.测试结果表明,在100 fC至2 pC的动态范围内,此模块时间精度好于20 ps,满足应用需求,这也为进一步的电子学系统设计做好了准备.","authors":[{"authorName":"夏品正","id":"b16f6c13-c354-4a44-b8fe-59b6af734331","originalAuthorName":"夏品正"},{"authorName":"赵雷","id":"ec8267af-b118-4772-94f3-82d4bb484970","originalAuthorName":"赵雷"},{"authorName":"邓佩佩","id":"0549f28c-56e8-48d2-a160-8d6536ef897b","originalAuthorName":"邓佩佩"},{"authorName":"董若石","id":"96e23da0-c448-4a53-8c1b-ef61aff2691a","originalAuthorName":"董若石"},{"authorName":"刘树彬","id":"d397964a-5193-4c74-9ffd-5873ec414d84","originalAuthorName":"刘树彬"},{"authorName":"安琪","id":"f87c710f-d9e0-4272-b1b0-d04f21c4d70b","originalAuthorName":"安琪"}],"doi":"10.11804/NuclPhysRev.33.04.449","fpage":"449","id":"6c8dd78c-679b-4807-a271-477f70c3f4d7","issue":"4","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":"a3298d4a-d60b-4661-b42f-8adb711fd5d1","keyword":"T0探测器","originalKeyword":"T0探测器"},{"id":"9916762c-66f6-4d97-bf9d-a1741da4ce8b","keyword":"时间测量","originalKeyword":"时间测量"},{"id":"085f340c-2d89-4957-83bd-9b7556bc1c89","keyword":"NINO","originalKeyword":"NINO"},{"id":"2c63430e-4c67-48c2-a4e1-73e5fde62460","keyword":"TOT","originalKeyword":"TOT"},{"id":"f2873ac6-8f9a-4785-b7f1-919d2b763139","keyword":"HIRFL","originalKeyword":"HIRFL"},{"id":"1240d69a-3165-4526-8603-372f12161184","keyword":"CSR","originalKeyword":"CSR"},{"id":"55abfe3a-3a4d-4de7-8f9b-eda78f102454","keyword":"外靶实验","originalKeyword":"外靶实验"}],"language":"zh","publisherId":"yzhwlpl201604011","title":"HIRFL-CSR外靶实验T0探测器前端电子学原型模块设计","volume":"33","year":"2016"},{"abstractinfo":"硅微条探测器因具有很强的位置分辨率与能量分辨率而在世界各大核物理实验室得到广泛应用。中国科学院近代物理研究所研制了性能优越、位置精度达到0.5 mm×0.5 mm的双面硅微条探测器,用于HIRFL-CSR的外靶实验终端谱仪(ETF)上,用作径迹测量以及?E-E望远镜系统?E的探测。硅微条探测器体积小、集成度高,利用柔性印刷电路板(FPCB)引出信号,配合ASIC芯片的前端电路,能够方便地给出每一条的能量信息和位置信息。在此详细阐述了在HIRFL-CSR的ETF上双面硅微条探测器阵列的搭建,并测量了放射源在真空中探测单元的能量分辨本领。结果表明,该硅条探测器的每个探测单元对5~9 MeV能量的α粒子的能量分辨率在1%左右。","authors":[{"authorName":"汪鹏飞","id":"b7e1acce-4665-4518-924d-9773513a9115","originalAuthorName":"汪鹏飞"},{"authorName":"李占奎","id":"4d66564b-0fd4-4a80-b83a-84984fdfd424","originalAuthorName":"李占奎"},{"authorName":"李海霞","id":"72086728-aa42-49ad-922b-8684fe030ef3","originalAuthorName":"李海霞"},{"authorName":"章学恒","id":"492b57f3-590b-4a44-83a6-4c99cda6017e","originalAuthorName":"章学恒"},{"authorName":"赵兴文","id":"2d8f634b-eaba-4339-9e0f-190c5fb9700c","originalAuthorName":"赵兴文"},{"authorName":"王秀华","id":"50c75562-ea12-4563-b563-3e4a2091ef76","originalAuthorName":"王秀华"},{"authorName":"谭继廉","id":"dc7195e8-0bf9-41e3-accc-822f0d0722eb","originalAuthorName":"谭继廉"},{"authorName":"刘凤琼","id":"a27f2178-0392-4c7c-ba53-f1f83479d782","originalAuthorName":"刘凤琼"},{"authorName":"李荣华","id":"ddc77afd-988c-4e0f-9fb7-ca5a12a0b7ac","originalAuthorName":"李荣华"},{"authorName":"王柱生","id":"89063bf1-1943-4323-b049-c10ae7642de9","originalAuthorName":"王柱生"},{"authorName":"陈翠红","id":"ac0e76ba-63d2-4fd8-9b46-243a7a8d3d61","originalAuthorName":"陈翠红"},{"authorName":"杨磊","id":"a314af16-538c-4694-9ea9-f98d4c45263e","originalAuthorName":"杨磊"},{"authorName":"祖凯玲","id":"1919bef5-f13a-4d67-be11-c835612bcdc2","originalAuthorName":"祖凯玲"},{"authorName":"戎欣娟","id":"eddd372d-54ec-498e-8062-0e7af014cd06","originalAuthorName":"戎欣娟"},{"authorName":"李春艳","id":"95d79b1f-3ae8-417b-a82a-17402e2b3a8c","originalAuthorName":"李春艳"},{"authorName":"卢子伟","id":"a0a2b840-b0c1-43c6-88e6-6866a2f00c5d","originalAuthorName":"卢子伟"}],"doi":"10.11804/NuclPhysRev.31.01.063","fpage":"63","id":"eef1aa5c-91e7-4869-9ead-7abc9adef6b9","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":"aeafa6d0-78a0-4664-9345-ec1cbab82e21","keyword":"硅微条探测器阵列","originalKeyword":"硅微条探测器阵列"},{"id":"64a957b9-8f33-4d3e-8442-bce1e2b164c9","keyword":"前端ASIC","originalKeyword":"前端ASIC"},{"id":"3fbeda10-d8a6-4e58-b087-ba7937dab0e1","keyword":"柔性印刷电路板","originalKeyword":"柔性印刷电路板"},{"id":"9d6f143f-3223-445d-ba00-fa222e73d471","keyword":"能量分辨率","originalKeyword":"能量分辨率"}],"language":"zh","publisherId":"yzhwlpl201401012","title":"HIRFL-CSR外靶终端上硅微条探测器阵列的搭建","volume":"","year":"2014"},{"abstractinfo":"针对几种结构形式不同的加筋靶板受球头及截卵两种弹头形式的高速动能弹丸穿透时的冲击特性.开展一系列的实验研究.根据实验结果,讨论靶板变形破损模式、弹丸速度及姿态的变化规律等.在此基础上,总结针对钝头弹丸,预测加筋靶板极限穿透速度的经验公式,以指导结构抗穿透防护设计.","authors":[{"authorName":"谌勇","id":"ab3c1ff8-4365-4cf9-9395-9165108e37af","originalAuthorName":"谌勇"},{"authorName":"汪玉","id":"f211bc5d-30da-4334-8c25-4614204f6b4a","originalAuthorName":"汪玉"},{"authorName":"唐平","id":"dbc14f51-6dcb-469c-857f-b4ea82ce1625","originalAuthorName":"唐平"},{"authorName":"杨世全","id":"42a62f22-043b-40d1-9f9c-79d700f85b52","originalAuthorName":"杨世全"},{"authorName":"华宏星","id":"b6366970-a992-4bed-8823-738409b61e74","originalAuthorName":"华宏星"}],"doi":"10.3969/j.issn.1004-244X.2008.03.005","fpage":"15","id":"74541d37-2fb8-4a26-8132-f5f53f4257d7","issue":"3","journal":{"abbrevTitle":"BQCLKXYGC","coverImgSrc":"journal/img/cover/BQCLKXYGC.jpg","id":"4","issnPpub":"1004-244X","publisherId":"BQCLKXYGC","title":"兵器材料科学与工程 "},"keywords":[{"id":"405a8833-1ad4-47aa-aa6c-192f52e165b1","keyword":"加筋靶板","originalKeyword":"加筋靶板"},{"id":"228af124-a656-4364-8fef-90002160f990","keyword":"穿透","originalKeyword":"穿透"},{"id":"9cbe55e8-85d3-49f5-9987-cbfa04353448","keyword":"实验研究","originalKeyword":"实验研究"},{"id":"f739b93e-d019-4d5b-abef-318e50484f5f","keyword":"经验公式","originalKeyword":"经验公式"}],"language":"zh","publisherId":"bqclkxygc200803005","title":"加筋靶板抗穿透特性的实验研究","volume":"31","year":"2008"},{"abstractinfo":"兰州重离子加速器冷却储存环(HIRFL-CSR)的内靶系统, 是用于为实验环内的物理实验提供厚度为1011-1013 atoms/cm2的团簇靶和极化靶. 采用超声喷气技术获得团簇粒子束, 采用Stern-Gerlach方法获得极化氢束和极化氘束. ","authors":[{"authorName":"蔡晓红","id":"2f2ae880-b62f-471d-8c6d-27b74ec4fc9e","originalAuthorName":"蔡晓红"},{"authorName":"卢荣春","id":"e16876a9-47d4-4646-a69b-2af7e3bc499c","originalAuthorName":"卢荣春"},{"authorName":"曹柱荣","id":"f5bc36c2-ee39-41ba-bf98-2c145946a2ff","originalAuthorName":"曹柱荣"},{"authorName":"杨威","id":"dbb55e0a-0e14-4e0b-b4b0-484608fad1c0","originalAuthorName":"杨威"},{"authorName":"马新文","id":"4a666a7c-5100-4cde-8587-6479177ff236","originalAuthorName":"马新文"},{"authorName":"詹文龙","id":"89b990bf-a25b-4dcf-b6b7-cc44f05524d7","originalAuthorName":"詹文龙"},{"authorName":"D.K.Torpokov","id":"f6dafbbe-bfaa-4c25-ba3f-a2842e909f01","originalAuthorName":"D.K.Torpokov"},{"authorName":"D.Nikolenko","id":"f61755cd-aeac-4585-9484-c7f22791e27b","originalAuthorName":"D.Nikolenko"}],"doi":"10.3969/j.issn.1007-4627.2002.02.054","fpage":"281","id":"2f701852-820c-4677-8d74-711b80c605ad","issue":"2","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":"0f0d979d-d219-4197-8c67-ae12f8a71c25","keyword":"重离子冷却储存环","originalKeyword":"重离子冷却储存环"},{"id":"a89d56a0-f93b-4dd9-98e7-3e2577e2b0b8","keyword":"内靶","originalKeyword":"内靶"},{"id":"f67b4aaa-2735-4e4a-b5ab-ddac2a0abc72","keyword":"团簇","originalKeyword":"团簇"},{"id":"5b675d8a-3c9f-4d1b-82e5-988883eb6860","keyword":"极化原子束","originalKeyword":"极化原子束"}],"language":"zh","publisherId":"yzhwlpl200202054","title":"HIRFL-CSR实验环内靶系统","volume":"19","year":"2002"},{"abstractinfo":"采用机械混粉、造粒、模压和冷等静压(CIP)成型相结合的功能陶瓷制备工艺制备了AZO靶材,研究了空气、真空及惰性气氛对AZO靶材性能的影响.结果发现,氩气保护烧结法制备的AZO靶材不仅密度高,电阻率达10-4Ω·cm量级,而且该方法还可明显抑制氧化锌的挥发,降低烧结温度,在1320℃的温度下便可制得相对密度为99%、晶粒度在4μm左右的靶材.","authors":[{"authorName":"张秀勤","id":"987c028e-21b1-45d9-8b4f-3d490f91d61d","originalAuthorName":"张秀勤"},{"authorName":"王政红","id":"48465f4f-e811-477f-bf33-ba1c51265cc2","originalAuthorName":"王政红"},{"authorName":"薛建强","id":"33ad2204-a60c-4f37-b48e-8202a5cd78b5","originalAuthorName":"薛建强"}],"doi":"10.3969/j.issn.1003-1545.2012.02.010","fpage":"40","id":"707b4ba2-b7c5-4048-87d1-7822a0612596","issue":"2","journal":{"abbrevTitle":"CLKFYYY","coverImgSrc":"journal/img/cover/CLKFYYY.jpg","id":"10","issnPpub":"1003-1545","publisherId":"CLKFYYY","title":"材料开发与应用"},"keywords":[{"id":"8d7fe42b-7809-4424-adb8-5002ca10853a","keyword":"AZO靶材","originalKeyword":"AZO靶材"},{"id":"8349188b-3504-4d73-b547-a29914ffbb6f","keyword":"AZO薄膜","originalKeyword":"AZO薄膜"},{"id":"0b71f1d0-2c47-4eaa-bb95-ab80a808c425","keyword":"冷等静压","originalKeyword":"冷等静压"},{"id":"6369a5b4-4deb-4922-a0ef-db68f64de554","keyword":"惰性气体","originalKeyword":"惰性气体"}],"language":"zh","publisherId":"clkfyyy201202010","title":"不同烧结气氛制备AZO靶材的实验研究","volume":"27","year":"2012"},{"abstractinfo":"本文在建立多相混输泵实验装置的基础上,以自行设计的螺旋轴流式多相泵原理机为实验研究对象,分别以纯水、空气—水为实验介质,系统地研究了多相泵的泵轴转速、进口压力、混合物特性等对多相输送性能的影响,为多相泵的进一步开发研制及完善设计提供了试验资料。","authors":[{"authorName":"李清平","id":"4e9c2b02-71c2-4af7-af99-88db00daed62","originalAuthorName":"李清平"},{"authorName":"薛敦松","id":"e4505782-f10c-41d3-aa8d-0fb96e128dbd","originalAuthorName":"薛敦松"}],"doi":"","fpage":"451","id":"913e160b-e3eb-4034-a695-45608f023834","issue":"4","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":"3280724c-f31f-43fa-8b64-767d6069a837","keyword":"多相泵","originalKeyword":"多相泵"},{"id":"d71091c4-399f-4445-a5c6-deb16cc3f116","keyword":"实验研究","originalKeyword":"实验研究"}],"language":"zh","publisherId":"gcrwlxb200004015","title":"螺旋轴流式多相泵外特性实验研究","volume":"21","year":"2000"},{"abstractinfo":"散裂靶件作为加速器和次临界堆芯的耦合部件,是ADS系统相关研究最主要的组成部分之一。无窗靶巧妙地利用了液体的自由液面特性,避免了质子束对结构材料直接轰击,是一种很有前景的散裂靶靶件形式。采用水作为实验工质搭建了一套无窗散裂靶水模拟实验台架,该实验系统覆盖了无窗散裂靶水模拟实验所需的流量及压力条件,采用粒子图像测速仪(PIV)对自由界面的流场进行可视化观察与分析,得到了自由界面的基本表征参数之间关系和可视化界面的流场信息。结果表明,无窗靶自由液面的位置和形状受到回路整体流量、压力和靶件几何尺寸的影响。","authors":[{"authorName":"强成文","id":"4627a7f3-44ba-4a32-8e50-5643a5b0ffb6","originalAuthorName":"强成文"},{"authorName":"赵强","id":"f5e6d423-8ff1-483f-a6ad-6926a1db823f","originalAuthorName":"赵强"},{"authorName":"李龙","id":"f39fb67d-b846-4d65-9396-7ad70a45c0df","originalAuthorName":"李龙"},{"authorName":"王飞","id":"bc5a8762-f09a-4818-9f43-b73d8c777806","originalAuthorName":"王飞"},{"authorName":"杨伟峰","id":"2a3b762d-41de-4126-95c4-9302c66e50ed","originalAuthorName":"杨伟峰"},{"authorName":"张学智","id":"fb024242-756b-4e2d-a72b-95ab57772015","originalAuthorName":"张学智"},{"authorName":"张雪荧","id":"5c48d98c-76d6-4339-987a-de981532c8c8","originalAuthorName":"张雪荧"}],"doi":"10.11804/NuclPhysRev.32.04.490","fpage":"490","id":"a5eb3e61-4a62-4798-8117-f7f59741ca07","issue":"4","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":"d52a2621-8343-4e9b-b335-346d85a983d3","keyword":"ADS","originalKeyword":"ADS"},{"id":"ccf5c2c9-8c75-4ab3-b3e6-7a53f41b79e4","keyword":"无窗散裂靶件","originalKeyword":"无窗散裂靶件"},{"id":"fd7b28b1-3162-41cd-9a75-1734d476ba6a","keyword":"水模拟实验","originalKeyword":"水模拟实验"},{"id":"659ddcb4-f795-423b-8242-384bc9d32226","keyword":"自由界面","originalKeyword":"自由界面"},{"id":"b1185c3e-9b9d-4b64-9222-f704b86b70cc","keyword":"可视化流场","originalKeyword":"可视化流场"}],"language":"zh","publisherId":"yzhwlpl201504020","title":"ADS无窗散裂靶件水模拟实验研究","volume":"32","year":"2015"},{"abstractinfo":"对加速器辅助驱动次临界核反应堆的最近研究进展,特别是靶实验结果,进行了评述.通过对靶实验首次全产物截面的测定,达到了剥离反应与裂变反应二者产物的完全识别.","authors":[{"authorName":"戴光曦","id":"ecebb07e-6eb5-4a1b-b6dd-ee3686601ba5","originalAuthorName":"戴光曦"}],"doi":"10.3969/j.issn.1007-4627.2000.04.015","fpage":"251","id":"9e81a3e4-950a-463a-9308-5154e8566d8d","issue":"4","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":"1185a31f-1435-4f24-9950-774646845902","keyword":"散裂反应","originalKeyword":"散裂反应"},{"id":"150b8d46-b76f-463b-8478-331f679aac3c","keyword":"嬗变","originalKeyword":"嬗变"},{"id":"1eea5182-34d6-4dd4-b37e-7e0ce99a7526","keyword":"焚化","originalKeyword":"焚化"},{"id":"6e1209a4-12af-4d1a-807b-117902cd24d4","keyword":"中子俘获","originalKeyword":"中子俘获"}],"language":"zh","publisherId":"yzhwlpl200004015","title":"加速器驱动反应堆的靶实验及核废料嬗变与焚化","volume":"17","year":"2000"},{"abstractinfo":"Au-MgF2与Ag-MgF2薄膜是一种新型复合材料,PLD和磁控溅射是很好的镀薄膜方法.文章介绍了MgF2靶材、Ag-MgF2靶材及Au-MgF2靶材的制备方法.通过实验摸索,得出MgF2靶材的压片条件;通过不同温度下烧结MgF2靶材,得出了MgF2被氧化的初始温度及其烧结的最佳温度和烧结时间;通过与真空炉烧结及氩气保护中烧结对比,获得在空气氛围中烧结MgF2的简易方法.","authors":[{"authorName":"唐亚陆","id":"8d644a5e-81e1-4722-aa6c-9af5e66df1dd","originalAuthorName":"唐亚陆"},{"authorName":"付兴国","id":"1bfaf818-61e6-426e-a973-f3509e98cb46","originalAuthorName":"付兴国"},{"authorName":"张辉","id":"756312fd-c12d-4eae-a697-25ba44b4adfb","originalAuthorName":"张辉"},{"authorName":"张鹏翔","id":"907622ce-54d8-4ab2-8d7c-f5a0802d765c","originalAuthorName":"张鹏翔"},{"authorName":"陈亮维","id":"76d33b54-0c7e-4acd-a463-6d9a5339e31e","originalAuthorName":"陈亮维"}],"doi":"10.3969/j.issn.1004-0676.2007.02.007","fpage":"33","id":"42fe9080-4fc3-471f-ad44-f122c5a1391c","issue":"2","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"01fab055-95c2-4a9b-86ed-65a2fc3330e6","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"c981a7f5-c463-47bb-b46e-d4178abe43b1","keyword":"Au-MgF2","originalKeyword":"Au-MgF2"},{"id":"1cf3fa94-84a5-46cd-9be6-292398f6baa9","keyword":"Ag-MgF2","originalKeyword":"Ag-MgF2"},{"id":"b4e99411-0a3a-4b36-ad49-594f41d7d685","keyword":"PLD","originalKeyword":"PLD"},{"id":"b318277e-9d29-4504-a381-f2e612065dc7","keyword":"烧结温度","originalKeyword":"烧结温度"},{"id":"09384cef-44a3-4ce0-914a-0700fd35f7e2","keyword":"MgO","originalKeyword":"MgO"},{"id":"a1ae538d-419b-4abd-9d17-a5645c74d32c","keyword":"XRD检测","originalKeyword":"XRD检测"}],"language":"zh","publisherId":"gjs200702007","title":"Au-MgF2与Ag-MgF2靶材制备的实验研究","volume":"28","year":"2007"},{"abstractinfo":"空载状态下,通过对两种外循环型分解炉系统的阻力特性进行冷模实验研究,得出结论:分解炉截面风速为6.0~8.0 m/s时,卧式旋风筒的压力损失约为80~200 Pa,旋流分离器的压力损失约为600~1180 Pa;外循环式Ⅰ型分解炉系统中\"分解炉+卧式旋风筒\"的压力损失比Ⅱ型外循环分解炉系统中\"分解炉+旋流分离器\"的压力损失约低300~600 Pa,从而具有较好的阻力特性.","authors":[{"authorName":"冯云","id":"422f1fa2-41fb-4043-abea-f5ec0f8de9ca","originalAuthorName":"冯云"},{"authorName":"陈延信","id":"22a972f0-57ac-418c-a8eb-98f4d23e03c4","originalAuthorName":"陈延信"}],"doi":"","fpage":"835","id":"c4ac3636-8a64-4a17-b100-b1a4a15d8c18","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":"e61fe5b7-0d4a-477b-b1a5-3ce988296503","keyword":"外循环型分解炉","originalKeyword":"外循环型分解炉"},{"id":"bdf5440b-4a39-4cac-b38a-0d77ff782a23","keyword":"卧式旋风筒","originalKeyword":"卧式旋风筒"},{"id":"430ed9be-8576-4188-8dde-5f0fdea11bca","keyword":"旋流分离器","originalKeyword":"旋流分离器"},{"id":"426038b8-d126-4003-a93d-2c9e3ab91ea1","keyword":"阻力损失","originalKeyword":"阻力损失"}],"language":"zh","publisherId":"gsytb200904040","title":"外循环型分解炉系统阻力特性的冷模实验研究","volume":"28","year":"2009"}],"totalpage":4027,"totalrecord":40269}