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"},"keywords":[{"id":"515e85eb-4059-4f54-808a-baed98faaab2","keyword":"大气光学","originalKeyword":"大气光学"},{"id":"08f03b33-4a9d-4eb8-95c9-db91bcd5e415","keyword":"云底高","originalKeyword":"云底高"},{"id":"e161ff5d-2d6c-45c4-9da4-02a4841c291e","keyword":"激光云高仪","originalKeyword":"激光云高仪"},{"id":"5dfeb526-9cc5-4ba1-97c6-934661e00f12","keyword":"红外测云仪","originalKeyword":"红外测云仪"},{"id":"e3470aec-3087-4fbe-859f-07adb1c6dc67","keyword":"云雷达","originalKeyword":"云雷达"}],"language":"zh","publisherId":"lzdzxb201301013","title":"云底高度的激光云高仪、红外测云仪以及云雷达观测比对分析","volume":"30","year":"2013"},{"abstractinfo":"采用超弱发光图像探测系统对红背桂叶片及其它一些植物样品进行了延迟发光图像探\n测.结果表明,延迟发光与生物样品的种类及所处的代谢阶段有关,可提供植物光合作用、细胞分裂\n和能量转换的重要信息.叶绿素在植物延迟发光中起重要作用,但细胞分裂对延迟发光也有影响.\n植物经白光诱导后的发光衰减接近双曲线规律,与生物光子的相干理论相吻合.另外,实验结果也\n能较好地用双指数曲线拟合,表明延迟发光可能来源于植物细胞内两个不同的随机发光系统.","authors":[{"authorName":"王维江","id":"1a3c3317-43dc-4bd3-970b-86d5cb8cb756","originalAuthorName":"王维江"},{"authorName":"邢达","id":"b2ae3c28-6365-47da-b523-72a75a9ce2f7","originalAuthorName":"邢达"},{"authorName":"谭石慈","id":"ed3bc7c0-321c-4fd4-914f-bcef286c4cea","originalAuthorName":"谭石慈"},{"authorName":"韩俊英","id":"83cd5f12-267b-455f-a13c-542d8c5ba606","originalAuthorName":"韩俊英"}],"doi":"10.3969/j.issn.1007-5461.2000.04.005","fpage":"310","id":"bc97c11e-153b-432c-a6b3-3eba0ee12009","issue":"4","journal":{"abbrevTitle":"LZDZXB","coverImgSrc":"journal/img/cover/LZDZXB.jpg","id":"53","issnPpub":"1007-5461","publisherId":"LZDZXB","title":"量子电子学报 "},"keywords":[{"id":"112b5d8c-87d2-4f2a-b8ee-8b54ca6eb289","keyword":"延迟发光","originalKeyword":"延迟发光"},{"id":"b4882e15-9b58-4429-a38d-03b2366f4733","keyword":"红背桂","originalKeyword":"红背桂"},{"id":"544488c0-2d35-4e9e-9c5c-96b22a534314","keyword":"叶绿素","originalKeyword":"叶绿素"},{"id":"3701d574-32c4-4558-9974-eb5b552a0381","keyword":"像增强器","originalKeyword":"像增强器"}],"language":"zh","publisherId":"lzdzxb200004005","title":"红背桂叶片的延迟发光研究","volume":"17","year":"2000"},{"abstractinfo":"采用直接酯化法由月桂醇和三氯化磷来制备亚磷酸三月桂醇酯(TLP). 通过对比实验确定了以吡啶为缚酸剂、苯为溶剂. 用正交试验法确定了适宜的合成条件为:反应温度60 ℃,溶剂用量70 g,滴加时间控制在90 min,反应时间为90 min,三氯化磷0.05 mol,月桂醇和三氯化磷的摩尔比为3.1: 1,合成产率可以达到96.2%.","authors":[{"authorName":"黄小冬","id":"d05d5ad8-e4f3-4c81-be5e-61499ddd51da","originalAuthorName":"黄小冬"},{"authorName":"杨锦飞","id":"fac5970b-7452-46bf-a542-d22dde0d12ef","originalAuthorName":"杨锦飞"},{"authorName":"黄东平","id":"2d0dedab-8628-4084-9be9-c30289a88e23","originalAuthorName":"黄东平"},{"authorName":"顾慧丹","id":"2012b5f4-f532-4a35-94fb-34075a69bfe3","originalAuthorName":"顾慧丹"}],"doi":"10.3969/j.issn.1000-0518.2006.05.025","fpage":"576","id":"66f61e6a-5af0-4946-ae0b-e6cb1b46d3d1","issue":"5","journal":{"abbrevTitle":"YYHX","coverImgSrc":"journal/img/cover/YYHX.jpg","id":"73","issnPpub":"1000-0518","publisherId":"YYHX","title":"应用化学"},"keywords":[{"id":"0b3760d3-f552-4995-96a8-b09ebcd2b77b","keyword":"亚磷酸三月桂醇酯","originalKeyword":"亚磷酸三月桂醇酯"},{"id":"b84b49f2-28df-43dd-a8be-edd423df9fb3","keyword":"月桂醇","originalKeyword":"月桂醇"},{"id":"90f89588-8e56-4422-9997-9056c56e1678","keyword":"三氯化磷","originalKeyword":"三氯化磷"},{"id":"ecb2f3ce-5e6a-4364-90f6-ea63de8a1ca1","keyword":"吡啶","originalKeyword":"吡啶"},{"id":"46c6fea3-34ea-485a-86e1-d66c8d1f82b0","keyword":"苯","originalKeyword":"苯"}],"language":"zh","publisherId":"yyhx200605025","title":"亚磷酸三月桂醇酯的合成","volume":"23","year":"2006"},{"abstractinfo":"为了合理利用云铜渣,采用ITmk3工艺获得高质量粒铁,在实验室条件下进行了一系列的基础研究.通过比较试样全铁质量和熔分得到的粒铁质量,得到了金属铁的收得率,结合化学分析方法,分别得到了试样还原后的金属化率以及熔分后金属铁中的碳质量分数,研究了各个因素对以上指标的影响规律,形成了对云铜渣合理还原熔分的工艺路线,得到如下结论:渣熔化是形成粒铁的必要条件,铁的聚合程度取决于渣铁分离熔化之前铁的渗碳质量分数.渣中SiO2的存在是渣相低熔点的根本原因,碱度改变时云铜渣的熔化区间会发生变化,但对熔化开始温度的影响不显著.当碱度大于0.4后,添加CaO能显著地提高云铜渣的还原性能.","authors":[{"authorName":"何鹏","id":"dbab97f5-d12b-4a0a-bad0-a959625d6185","originalAuthorName":"何鹏"},{"authorName":"张俊","id":"d83fb0b5-604e-42e2-9c21-05d815abb339","originalAuthorName":"张俊"},{"authorName":"严定鎏","id":"858533e8-e701-4864-8fb8-af36b4f5ef2f","originalAuthorName":"严定鎏"}],"doi":"10.13228/j.boyuan.issn1006-9356.20160096","fpage":"33","id":"782f7e45-0426-4cf2-b982-c59def030561","issue":"2","journal":{"abbrevTitle":"ZGYJ","coverImgSrc":"journal/img/cover/ZGYJ.jpg","id":"87","issnPpub":"1006-9356","publisherId":"ZGYJ","title":"中国冶金"},"keywords":[{"id":"ddcf7b2d-9641-4743-9350-5b22fc2aa278","keyword":"铜渣","originalKeyword":"铜渣"},{"id":"3f5d464c-f42b-4dc2-ba77-4bacbda434a6","keyword":"还原熔分","originalKeyword":"还原熔分"},{"id":"d9a3b998-0a4a-47a8-b6a4-627dfffb5032","keyword":"渗碳","originalKeyword":"渗碳"},{"id":"6a3f5d91-7e3a-4681-a996-c8999f34749a","keyword":"粒铁","originalKeyword":"粒铁"}],"language":"zh","publisherId":"zgyj201702007","title":"云铜铜渣还原熔分试验分析","volume":"27","year":"2017"},{"abstractinfo":"采用熵权法和云模型判定岩爆等级。选用岩石的单轴抗压强度σc、单轴抗拉强度σt、切向应力σθ、岩石的压拉比σc/σt、岩石的应力系数σθ/σc和岩石的弹性变形指数Wet作为岩爆等级判定的因素建立岩爆评价指标体系。以收集到209组工程中的实际岩爆情况及数据作为样本进行分析计算,建立岩爆等级判定的熵权?云模型。运用该分析模型分析岩爆评价指标体系中评价指标的敏感性,并对收集到的工程实例岩爆情况进行判定,将结果与 Bayes、KNN 和随机森林方法的判定结果进行比较。研究表明:评价指标体系中指标敏感性由大到小的顺序为:sq/sc、sq、Wet、sc/st、st、sc;熵权?云模型的判别准确率比Bayes、K最邻近结点算法(KNN)和随机森林(RF)方法高。","authors":[{"authorName":"周科平","id":"8edaa450-0471-486c-b107-6def1b6b93eb","originalAuthorName":"周科平"},{"authorName":"林允","id":"170e43b7-c3d2-4763-953f-abb08d133d44","originalAuthorName":"林允"},{"authorName":"邓红卫","id":"1d1b4f8c-61fb-420b-8814-3c85ac78b77e","originalAuthorName":"邓红卫"},{"authorName":"李杰林","id":"f04d7317-af61-4dd1-92eb-36e5d145d100","originalAuthorName":"李杰林"},{"authorName":"刘传举","id":"7d94fca1-8e97-49a9-aeb5-d9f2663586ff","originalAuthorName":"刘传举"}],"doi":"10.1016/S1003-6326(16)64313-3","fpage":"1995","id":"2c99e462-3b7c-4947-813f-a2fd53be1405","issue":"7","journal":{"abbrevTitle":"ZGYSJSXBEN","coverImgSrc":"journal/img/cover/ZGYSJSXBEN.jpg","id":"757390d2-7d95-4517-96f1-e467ce1bff63","issnPpub":"1003-6326","publisherId":"ZGYSJSXBEN","title":"中国有色金属学报(英文版)"},"keywords":[{"id":"b1a4d730-1df8-49f8-b133-2679edbf14f2","keyword":"岩爆","originalKeyword":"岩爆"},{"id":"f408e56a-fc94-44f0-a1bb-7dbe6c0cb2a9","keyword":"预测","originalKeyword":"预测"},{"id":"9dca115a-e778-44cb-afdb-6bc22a07526b","keyword":"云模型","originalKeyword":"云模型"},{"id":"f50a9767-9867-4cb7-8c23-bd038e9fe007","keyword":"熵权","originalKeyword":"熵权"},{"id":"59e9e456-de5b-4bba-ad36-4ff8f66bfc3a","keyword":"敏感性","originalKeyword":"敏感性"}],"language":"zh","publisherId":"zgysjsxb-e201607031","title":"熵权-云模型对岩爆等级的预测","volume":"26","year":"2016"},{"abstractinfo":"经氧化、分解及消化后,二丁基二月桂酸锡转化成无机锡,分别采用常规化学滴定法、电感耦合等离子质谱法( ICP - MS)及原子荧光光谱法(AFS)测定二丁基二月桂酸锡中的锡含量,结果表明这3种测试手段所测数值基本一致.较其他两种方法而言,原子荧光光谱法具有简便、快速、准确、灵敏度高等特点.针对原子荧光光谱法的加标回收实验结果为99.2%~100.8%,表明该法测定的结果准确可靠,适合作为测定二丁基二月桂酸锡中锡含量的常规检测方法.","authors":[{"authorName":"王崇臣","id":"efd0e9d7-fdd9-4782-aef8-d006a7f5441e","originalAuthorName":"王崇臣"},{"authorName":"王鹏","id":"e02dfc1e-ecd7-4332-a41d-4849b6c87d22","originalAuthorName":"王鹏"},{"authorName":"刘阳春","id":"84be9aab-73c9-4321-b659-8aed33c23dd9","originalAuthorName":"刘阳春"},{"authorName":"何颖","id":"e0689bc2-6790-4a3e-addd-51b02e2c75fd","originalAuthorName":"何颖"},{"authorName":"汪长征","id":"04b96024-3798-4d3b-900b-bb2cc7888952","originalAuthorName":"汪长征"}],"doi":"10.3969/j.issn.0253-4312.2011.09.018","fpage":"70","id":"5496669d-3c20-4523-b7bf-ec9b6d957f40","issue":"9","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"7c30bdb3-a49b-4760-8eea-69047fa71f6f","keyword":"原子荧光","originalKeyword":"原子荧光"},{"id":"66b03c3e-16ed-400b-a225-234dc9147ad1","keyword":"电感耦合等离子质谱","originalKeyword":"电感耦合等离子质谱"},{"id":"ef2532e7-06b7-4d06-8b3b-11e702a8ac98","keyword":"滴定分析法","originalKeyword":"滴定分析法"},{"id":"40d0eacb-610c-4739-b84d-ead6a7adc308","keyword":"二丁基二月桂酸锡","originalKeyword":"二丁基二月桂酸锡"},{"id":"d434e111-81f0-4a89-8af9-843c7332665a","keyword":"锡含量","originalKeyword":"锡含量"}],"language":"zh","publisherId":"tlgy201109018","title":"原子荧光法测定二丁基二月桂酸锡中锡含量","volume":"41","year":"2011"},{"abstractinfo":"将二丁基二月桂酸锡经氧化、分解、硝化其有机物质,使有机锡转化为无机锡,在酸性介质中以金属铝片作为还原剂,把锡还原成二价锡,过量的硫酸铁铵与二价锡反应,将硫酸铁铵中的三价铁还原成二价铁,在硫酸和磷酸的混合溶液中以二苯磺酸钠作指示剂,用重铬酸钾标准滴定溶液滴定二价铁,以此方法测定出二丁基二月桂酸锡中的锡含量.","authors":[{"authorName":"徐仲诚","id":"d81ba03b-4aeb-4895-95e4-ca059ddaeef0","originalAuthorName":"徐仲诚"},{"authorName":"李坚","id":"b0258ec3-1232-4f97-8875-276f9cde0265","originalAuthorName":"李坚"},{"authorName":"易达成","id":"d3df60f9-83b8-4bee-8a10-076b4b39d652","originalAuthorName":"易达成"}],"doi":"10.3969/j.issn.0253-4312.2010.04.020","fpage":"77","id":"685428c7-8772-474c-a297-14c2565cfc11","issue":"4","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"c556a1d7-80f1-40d9-9497-4f94030749e8","keyword":"氧化","originalKeyword":"氧化"},{"id":"bae75c06-d054-403b-80a9-14305083a718","keyword":"分解","originalKeyword":"分解"},{"id":"f2b65454-a20d-455a-8cbe-434240383154","keyword":"硝化","originalKeyword":"硝化"},{"id":"703de0e4-5ec0-4a01-8e81-cb9d621e5cc2","keyword":"有机物","originalKeyword":"有机物"},{"id":"b29fa7c6-d80b-4810-87f6-4757350a295d","keyword":"有机锡","originalKeyword":"有机锡"},{"id":"4da54282-9543-4dad-a3db-e58f0e818def","keyword":"无机锡","originalKeyword":"无机锡"},{"id":"6ed88d15-ebe1-4178-bae2-5ad9accb7764","keyword":"氧化还原滴定","originalKeyword":"氧化还原滴定"}],"language":"zh","publisherId":"tlgy201004020","title":"二丁基二月桂酸锡中锡含量测定方法的探讨","volume":"40","year":"2010"},{"abstractinfo":"在对连铸坯质量现状及导致铸坯质量问题因素分析的基础上,将“云制造”的概念引入连铸坯质量控制中,提出了将连铸过程中影响铸坯质量的工艺参数、条件进行综合、优化,实现虚拟对现实的映射的方法,并对连铸坯质量控制的云制造技术平台体系构建等进行探讨.连铸坯质量控制的云制造技术平台是一种新的理念,实现云制造对连铸质量进行控制,可以资源共享,降低铸坯质量缺陷率,减少生产成本.","authors":[{"authorName":"郝秀霞","id":"e4f837f2-4207-4b42-beae-eea536861be0","originalAuthorName":"郝秀霞"},{"authorName":"胡大超","id":"f2945666-e08f-4e2d-8d97-4ece1ea438fd","originalAuthorName":"胡大超"}],"doi":"10.13228/j.boyuan.issn1005-4006.20140031","fpage":"40","id":"4925c6f2-4b99-4573-8f56-798531830e1b","issue":"5","journal":{"abbrevTitle":"LZ","coverImgSrc":"journal/img/cover/LZ.jpg","id":"52","issnPpub":"1005-4006","publisherId":"LZ","title":"连铸"},"keywords":[{"id":"833c115d-9858-45b7-b809-43f27bdf269b","keyword":"云制造","originalKeyword":"云制造"},{"id":"c2152555-7aeb-4ed0-9f2f-2c2f019e7df0","keyword":"连铸","originalKeyword":"连铸"},{"id":"5bcb412e-7e32-46b9-8a16-60dfb34a32ad","keyword":"铸坯","originalKeyword":"铸坯"},{"id":"ec410040-c2b7-4e3e-b7d7-162d1c2eccbd","keyword":"质量问题","originalKeyword":"质量问题"}],"language":"zh","publisherId":"lz201405010","title":"基于云制造技术平台的连铸坯质量控制的研究","volume":"","year":"2014"},{"abstractinfo":"本文研究了一种能测量微细尺度流体温度场的激光云纹技术.激光云纹法利用莫尔条纹的位移量或者位相变化来计算光线穿过位相物体时产生的偏转角,并由此获得流体的温度梯度和温度场分布.激光云纹技术具有灵敏度高,空间分辨率高,稳定性好,实时观测等优点.本文介绍了激光云纹法的测量原理、实验技术,并利用该方法测量了加热细丝自然对流的微细尺度温度场分布.","authors":[{"authorName":"张鸿凌","id":"153d98b8-6297-49a9-9f6d-7ea9b1fac3de","originalAuthorName":"张鸿凌"},{"authorName":"宋耀祖","id":"96757aef-c173-42c8-8471-f79df9092f41","originalAuthorName":"宋耀祖"},{"authorName":"张香春","id":"95517c17-35a5-4464-8ed6-217eb5d2a793","originalAuthorName":"张香春"}],"doi":"","fpage":"496","id":"808effb1-fc76-4e17-a824-79d4dd1aab4f","issue":"3","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":"8b8344ec-781c-4e7e-a94c-f4e9e79b58b0","keyword":"微尺度传热","originalKeyword":"微尺度传热"},{"id":"5cc1034e-f039-4f66-ac79-9f6875332b58","keyword":"温度测量","originalKeyword":"温度测量"},{"id":"bb190bcd-e4e9-4d81-ad26-e811b4cdec94","keyword":"流场显示","originalKeyword":"流场显示"},{"id":"da83c396-e27b-4af5-96ef-0c9485aa2311","keyword":"激光云纹","originalKeyword":"激光云纹"},{"id":"4e26aa59-26b3-445d-9b7f-327888a00544","keyword":"傅立叶变换","originalKeyword":"傅立叶变换"}],"language":"zh","publisherId":"gcrwlxb200303040","title":"测量微细尺度流体温度场的傅立叶变换激光云纹技术","volume":"24","year":"2003"}],"totalpage":347,"totalrecord":3467}