{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"在弹性散射实验中，探测器的位置校准是非常重要的。结合兰州放射性束流线(RIBLL)的实际情况，以低能轻炮弹在重靶上的弹性散射截面在前角区为卢瑟福散射的事实为依据，发展了一种简单而有效的位置校准方法。通过蒙特卡洛模拟来检测弹性散射角分布与不同方向上位置未校准时的依赖关系。该方法成功地应用在7 Be与重靶的弹性散射实验中，得到了正确的微分截面角分布。","authors":[{"authorName":"陈江波","id":"ec0750fe-ce98-4b0e-b727-dec68f1e9e80","originalAuthorName":"陈江波"},{"authorName":"杨彦云","id":"0fa32a21-b5b7-4370-89c4-512740a34373","originalAuthorName":"杨彦云"},{"authorName":"王建松","id":"bba36db3-ed4f-4e43-a16b-04c1970397e0","originalAuthorName":"王建松"},{"authorName":"王琦","id":"f0974f15-22fd-4532-b626-0d026f962109","originalAuthorName":"王琦"},{"authorName":"金仕纶","id":"6ee9df0b-3e86-435f-a794-02a88e218901","originalAuthorName":"金仕纶"},{"authorName":"马朋","id":"38116d72-56c4-4434-ab7a-33ca28226206","originalAuthorName":"马朋"},{"authorName":"马军兵","id":"d9944633-0bb1-4b4f-8686-c28573b4fe44","originalAuthorName":"马军兵"},{"authorName":"黄美容","id":"c065c9ee-ac5b-40ac-8132-8426f4fe87ff","originalAuthorName":"黄美容"},{"authorName":"韩建龙","id":"faa86b2a-8b1b-40da-88c1-2f65ffbc0a5e","originalAuthorName":"韩建龙"},{"authorName":"白真","id":"5d4a3502-8887-44dc-a19b-00dcb62f790f","originalAuthorName":"白真"},{"authorName":"胡强","id":"1546d8cc-3b0e-42b4-bbef-bfc97863c35f","originalAuthorName":"胡强"},{"authorName":"金磊","id":"7810cfba-267c-42f4-80d6-57e7960fc34a","originalAuthorName":"金磊"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"775c5529-8fb7-490c-8f04-4040cc0f1b6c","originalAuthorName":"李勇"},{"authorName":"赵明辉","id":"c7c9f93b-3809-47d6-ba37-081fcccf076c","originalAuthorName":"赵明辉"}],"doi":"10.11804/NuclPhysRev.31.01.053","fpage":"53","id":"5d49e39c-079a-454d-894c-d81bc789482b","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":"478eb6d8-f591-41aa-aa3e-2b6e36e7e21a","keyword":"位置校准","originalKeyword":"位置校准"},{"id":"12cbafea-24c9-42be-a514-1e2dbfb02018","keyword":"蒙特卡洛模拟","originalKeyword":"蒙特卡洛模拟"},{"id":"aceed7fd-c1bf-413a-83d7-1194126db94d","keyword":"弹性散射","originalKeyword":"弹性散射"}],"language":"zh","publisherId":"yzhwlpl201401010","title":"放射性束弹性散射实验中的一种位置校准方法","volume":"","year":"2014"},{"abstractinfo":"采用恒择性溶解工艺，解决了 Pt-Re 重整废催化剂再生利用过程中铂铼分离难的问题。经实验悁究，确定了废催化剂焙烧预处理的最佳条件为500℃下焙烧3 h，用20%硫酸溶解废催化剂，加入适量的硫酸恸铁抑制铂溶解，铼的溶解率可达98%，铂的溶解率为0.8%，渣率仅为7%，实现了铂和铼的分离，有利于铼的精炼提纯及铂的富集。","authors":[{"authorName":"谭明亮","id":"abdca5a3-84aa-4bc8-a350-3d26900a08ec","originalAuthorName":"谭明亮"},{"authorName":"王欢","id":"f220e775-973d-4e7b-85b4-66ac5c7bb708","originalAuthorName":"王欢"},{"authorName":"贺小塘","id":"119807ba-a6f9-4649-b880-f137a354f6f2","originalAuthorName":"贺小塘"},{"authorName":"郭俊梅","id":"800e2537-cf9c-4ff6-840c-a55baefea107","originalAuthorName":"郭俊梅"},{"authorName":"韩守礼","id":"e8ab51e1-8155-4294-92af-f1b23162cd3d","originalAuthorName":"韩守礼"},{"authorName":"李红梅","id":"9009261d-2114-458d-ad37-84f7a83c0e81","originalAuthorName":"李红梅"},{"authorName":"赵雨","id":"7690557b-945e-42a3-a350-ba78e73ef740","originalAuthorName":"赵雨"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"ed8d1e7a-3b7c-41e2-96a0-323ece326cb0","originalAuthorName":"李勇"},{"authorName":"吴喜龙","id":"8e6f8f8d-b0b3-4c8b-88cf-a097d80c0210","originalAuthorName":"吴喜龙"},{"authorName":"缪海才","id":"c762bb23-37fb-4b3e-9fc0-4bd36095b7ad","originalAuthorName":"缪海才"},{"authorName":"邹蕊鲜","id":"286b1bfa-ca6a-4a19-a3de-f1b4a320c820","originalAuthorName":"邹蕊鲜"},{"authorName":"李佳莹","id":"30f7ba69-b926-4b63-8661-b36afa60389b","originalAuthorName":"李佳莹"}],"doi":"","fpage":"41","id":"d3829564-aa77-49d5-bf6e-b27557114766","issue":"4","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"bfd9045f-ba49-4426-93e7-f0bb4c8dab81","keyword":"有色金属冶金","originalKeyword":"有色金属冶金"},{"id":"8373cd81-2ce9-4d91-9a07-b2fc8c2447df","keyword":"废催化剂","originalKeyword":"废催化剂"},{"id":"08ee8838-14f1-4c47-8086-1678fc847a83","keyword":"贵金属","originalKeyword":"贵金属"},{"id":"6e3ad99d-f3f2-4d67-ac15-88c61e0eff0c","keyword":"铂","originalKeyword":"铂"},{"id":"539653b9-1922-4842-b902-3959ba6cdd11","keyword":"铼","originalKeyword":"铼"},{"id":"ee986a77-d604-4875-83ba-e07553d5b2ba","keyword":"回收","originalKeyword":"回收"}],"language":"zh","publisherId":"gjs201404009","title":"选择性溶解Pt-Re重整废催化剂工艺研究","volume":"","year":"2014"},{"abstractinfo":"研究了低于GeCl4挥发温度密闭分解含锗的金合金的技术、KIO3电位滴定常量Ge的方法和提高方法选择性的条件；比较了电位与传统碘淀粉终点指示法对分析结果准确度、精密度,终点稳定性和敏锐度,方法选择性等的影响.结果表明:在优化条件下,控制消解温度不超过75℃时,9mL HCl -2 mL H2O2能完全消解0.10g样品,且无Ge的损失.经蒸馏分离收集锗,消除Au(Ⅲ)及常见共存离子的影响.电位终点指示法与传统碘淀粉终点指示法对锗滴定结果准确度基本一致,电位终点指示法实用性更强.方法用于AuGe12、AuGeNi12-2、AuAgGe18.8 -12.5、AuAgGeNi43.8 -6-0.2等系列金锗合金中6％～13％锗含量的测定,标准偏差和相对标准偏差分别为0.0214％～0.0450％和0.304％ ～0.391％,样品加标回收率99.11％ ～ 100.99％.","authors":[{"authorName":"朱利亚","id":"8a5c2b0b-32a6-4f98-b96f-54c6f027afb2","originalAuthorName":"朱利亚"},{"authorName":"<span style=\"color:red\">李</span>光俐","id":"64b04bc5-512a-446a-9521-c8cc661cf7dd","originalAuthorName":"李光俐"},{"authorName":"刘文","id":"52e45e73-304e-48bf-bb5e-8ae04eee4efa","originalAuthorName":"刘文"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"05533d07-b2d6-49cc-b513-ed6c322303a9","originalAuthorName":"李勇"},{"authorName":"贺小塘","id":"ea8df9a1-94ba-4508-9b03-6994e054ff6d","originalAuthorName":"贺小塘"},{"authorName":"谭文进","id":"0b033406-bb0d-42cd-be7d-8b6323b41205","originalAuthorName":"谭文进"},{"authorName":"吴喜龙","id":"82ca4d3b-535c-466c-966c-afc3d6dabcdd","originalAuthorName":"吴喜龙"},{"authorName":"韩守礼","id":"5621166d-06ec-433b-b87e-c9a8431c8840","originalAuthorName":"韩守礼"},{"authorName":"管有祥","id":"b483576b-d793-4b41-a608-e48b800a19b4","originalAuthorName":"管有祥"},{"authorName":"谢宏潮","id":"abc59a7e-04be-4367-9855-fc8d88ec97e9","originalAuthorName":"谢宏潮"},{"authorName":"安中庆","id":"86d5fe4c-09ea-4fcc-8623-9e33d999f978","originalAuthorName":"安中庆"}],"doi":"","fpage":"33","id":"3a964d40-40e3-4cc4-84bd-e39af2e7c738","issue":"3","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"eed6a98f-7ec1-458a-8304-7b19f4efb785","keyword":"分析化学","originalKeyword":"分析化学"},{"id":"baa71c96-ceb7-4afb-b4e5-67a71a9aba92","keyword":"电位滴定","originalKeyword":"电位滴定"},{"id":"7e032e5b-34a9-4f8c-ba25-d2cdbabfdbc6","keyword":"锗","originalKeyword":"锗"},{"id":"5e35570b-0909-4be8-b9cb-a8612b0956e7","keyword":"金合金","originalKeyword":"金合金"},{"id":"05dd54b1-dc31-46a5-a89d-112d70f6f443","keyword":"低温","originalKeyword":"低温"},{"id":"1f2f8705-91a6-4772-b5d3-340388fa6711","keyword":"密闭分解","originalKeyword":"密闭分解"},{"id":"dadb0057-12df-4189-b6bf-3f6e39f324af","keyword":"蒸馏","originalKeyword":"蒸馏"}],"language":"zh","publisherId":"gjs201203007","title":"低温密闭消解-KIO3电位滴定法测定金合金中常量锗","volume":"33","year":"2012"},{"abstractinfo":"由于化学性质相似，铂钒分离提纯比较困难。对失效Pt-V/C催化剂中铂的回收进行了研究，重点考察了盐酸浓度、温度和氯化铵的用量3种工艺参数对铂钒分离的影响，得出优化的工艺条件：在室温下，盐酸浓度为3.0 mol/L，氯化铵与铂的质量比为4~5，可以实现铂的有效沉淀分离。经精炼可以获得纯度为99.95%的海绵铂，铂的回收率大于99.5%。","authors":[{"authorName":"刘文","id":"005831cf-950a-4df9-b0ce-60ef8ce7b288","originalAuthorName":"刘文"},{"authorName":"贺小塘","id":"ec745111-7e65-4497-99b3-f94b1b182255","originalAuthorName":"贺小塘"},{"authorName":"王欢","id":"5f6c525e-75ac-4e44-b7c4-71c399d3cb10","originalAuthorName":"王欢"},{"authorName":"吴喜龙","id":"d04c44da-f506-4607-86ce-172b58c1f1b3","originalAuthorName":"吴喜龙"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"c48f39f7-dd20-4edb-b68f-d567d9562e57","originalAuthorName":"李勇"},{"authorName":"赵雨","id":"d76d1de9-9f2a-43ba-82d9-fbe0fd88802a","originalAuthorName":"赵雨"},{"authorName":"韩守礼","id":"c7fad917-5ce2-4e9b-a444-321ce68a8750","originalAuthorName":"韩守礼"},{"authorName":"<span style=\"color:red\">李</span>锟","id":"bf34eabc-6244-4b81-ab7b-e5f1737723b3","originalAuthorName":"李锟"},{"authorName":"李红梅","id":"890dc8a0-349d-42e1-9f31-060f943d3027","originalAuthorName":"李红梅"},{"authorName":"谭明亮","id":"576a7397-d16d-4cdc-a9ae-c317621aca4a","originalAuthorName":"谭明亮"},{"authorName":"李子璇","id":"79b08bd0-ac1c-4fc1-ac5a-3911a075a5e9","originalAuthorName":"李子璇"}],"doi":"","fpage":"27","id":"55e56b57-1b20-4cae-a8ab-78e3526d2dfc","issue":"1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"9e50be0f-0cc2-4436-9c43-075d09ef642a","keyword":"冶金技术","originalKeyword":"冶金技术"},{"id":"c19674dc-8954-494f-aaa1-3ae59454f194","keyword":"铂族金属","originalKeyword":"铂族金属"},{"id":"8316f58f-ffcd-419b-a869-953e60aa99cb","keyword":"铂炭催化剂","originalKeyword":"铂炭催化剂"},{"id":"81856f7c-ee38-4dbf-bfb6-893891974a92","keyword":"精细化工","originalKeyword":"精细化工"},{"id":"1440929d-e151-4be6-b880-7003265b7aa7","keyword":"回收","originalKeyword":"回收"}],"language":"zh","publisherId":"gjs201401006","title":"从失效Pt-V/C催化剂中回收铂的新工艺","volume":"","year":"2014"},{"abstractinfo":"通过硫酸亚铁电位滴定法测定AuBe1、AuNi9、AuAgCu35-5、PdAgCuAuPtZn30-14-10-10-1合金中Au的实践，分析了测定不同Au含量过程中的不确定度来源，建立了数学模型，计算了各标准不确定度分量、合成标准不确定度和扩展不确定度。结果表明：测定合金样品中9.99%、60.16%、90.85%、98.93%的Au含量，扩展不确定度分别为0.02%、0.14%、0.22%、0.24%。","authors":[{"authorName":"刘文","id":"2f56c920-6e8e-4f3c-adc2-4bd151d9afe6","originalAuthorName":"刘文"},{"authorName":"<span style=\"color:red\">李</span>楷中","id":"99dc2d76-3ef3-4812-818e-8a0a1997f1f2","originalAuthorName":"李楷中"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"c932725f-cf33-4d43-8993-4bcf52535fb1","originalAuthorName":"李勇"},{"authorName":"韩守礼","id":"af626db8-9dca-4614-82ae-04b1ad80ce9c","originalAuthorName":"韩守礼"},{"authorName":"贺小塘","id":"1e808414-47ed-4427-9d40-2a07a4297a53","originalAuthorName":"贺小塘"},{"authorName":"曾荷峰","id":"3c8132b6-1117-484e-bc53-7c76367ab99f","originalAuthorName":"曾荷峰"},{"authorName":"林波","id":"8e6ff5a4-5a36-447c-add2-b42f94893169","originalAuthorName":"林波"},{"authorName":"罗仙","id":"274e7526-0c23-4f96-aa34-a807d35f7892","originalAuthorName":"罗仙"},{"authorName":"王应进","id":"1cc7f28f-6856-49f8-8d49-a19bcc16d15e","originalAuthorName":"王应进"},{"authorName":"<span style=\"color:red\">李</span>光俐","id":"6994fb1e-fdcb-47b5-8174-8ee563bd030d","originalAuthorName":"李光俐"},{"authorName":"朱利亚","id":"6ba049e2-29f3-4b8e-8858-135de48a79be","originalAuthorName":"朱利亚"}],"doi":"","fpage":"69","id":"f73e3461-9b3d-4970-bfd7-45b2510b2e46","issue":"3","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"03c1aea7-c7a6-4bb1-b47c-47a735e0902b","keyword":"分析化学","originalKeyword":"分析化学"},{"id":"6cc951c3-f3e4-4903-9fe4-c6736e719061","keyword":"不确定度评定","originalKeyword":"不确定度评定"},{"id":"df3734a3-2468-40d2-aaeb-e63e694092f9","keyword":"硫酸亚铁电位滴定法","originalKeyword":"硫酸亚铁电位滴定法"},{"id":"d99d9966-812b-41f2-978a-37640d392cbb","keyword":"金合金","originalKeyword":"金合金"},{"id":"f94a25e6-7cd4-4395-a40b-675ce1d7625e","keyword":"钯合金","originalKeyword":"钯合金"}],"language":"zh","publisherId":"gjs201303016","title":"硫酸亚铁电位滴定法测定金、钯合金中金的不确定度评定","volume":"","year":"2013"},{"abstractinfo":"以国内某制药企业使用过的废钯炭催化剂为原料,研究了用王水溶解-氯化铵直接沉淀法回收钯的新工艺,取代了传统的王水溶解-氨水配合法.新工艺实现了钯和贱金属的有效分离,贵贱金属分离效果好,大幅度缩短了生产周期,降低了生产成本,提高了生产效率.经过10批次的实际生产验证,钯的平均直收率为99.20％,平均总收率为99.94％.采用氯气微压催化溶解钯的新工艺制备二氯化钯,保证了产品中无硝基,质量稳定、操作简单、环境更友好.","authors":[{"authorName":"贺小塘","id":"5bb7fd2a-d215-4107-922b-e08679a18387","originalAuthorName":"贺小塘"},{"authorName":"吴喜龙","id":"47aa4e79-3531-45bc-a78c-9cf100efd94d","originalAuthorName":"吴喜龙"},{"authorName":"韩守礼","id":"ac505dfe-657b-4319-af4c-6863e793c257","originalAuthorName":"韩守礼"},{"authorName":"<span style=\"color:red\">李</span>锟","id":"04e25aef-c8c9-4d26-a86c-c9adddde4540","originalAuthorName":"李锟"},{"authorName":"谭文进","id":"86434f2d-8597-4c5d-b64e-c8cae40ad7cf","originalAuthorName":"谭文进"},{"authorName":"王欢","id":"f7ed4c8e-4f83-4933-a9c6-5d8275317648","originalAuthorName":"王欢"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"8e973732-5208-4679-aea1-1e4b2086e83f","originalAuthorName":"李勇"},{"authorName":"刘文","id":"212ef3f0-1668-4d4a-bc3e-b51d12389bb4","originalAuthorName":"刘文"},{"authorName":"郑允","id":"ba97b205-68ee-4c2a-bb02-1c5caef8c4fc","originalAuthorName":"郑允"},{"authorName":"杜志杰","id":"c5e2c252-507f-4de0-a7e0-9d2250d5d9d6","originalAuthorName":"杜志杰"}],"doi":"","fpage":"9","id":"0ed54a39-0d47-4f45-97f7-214e7d34206e","issue":"4","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"bc5c9016-32be-492e-8c1b-75944316e74e","keyword":"冶金技术","originalKeyword":"冶金技术"},{"id":"a9b1acd4-359a-46d9-a335-345994d96ac9","keyword":"失效催化剂","originalKeyword":"失效催化剂"},{"id":"9a75a81b-ef17-4ea9-9c7c-b4ab4f31deb1","keyword":"钯","originalKeyword":"钯"},{"id":"2f19110d-bd00-4859-8e85-cc80da67b858","keyword":"回收","originalKeyword":"回收"},{"id":"4b5d2fdf-c624-47a8-a036-bca8099e93d6","keyword":"二氯化钯","originalKeyword":"二氯化钯"}],"language":"zh","publisherId":"gjs201204002","title":"从Pd/C废料中回收钯及制备试剂PdCl2的新工艺","volume":"33","year":"2012"},{"abstractinfo":"离子交换法是铂族金属湿法冶金中一项很有应用前景的绿色环保技术，与传统的化学沉淀法和溶剂萃取法相比有很多优势，因此在铂族金属的分离提纯中得到了广泛的应用。针对铂族金属二次资源回收，介绍了阳离子交换树脂在铂族金属与贱金属分离中的工业应用和阴离子交换树脂在铂族金属富集、分离提纯中的研究及应用；同时也对分子识别技术在铂族金属分离提纯领域的应用做了简要的介绍。","authors":[{"authorName":"谭明亮","id":"43643ba0-9055-4419-a236-83ea90353403","originalAuthorName":"谭明亮"},{"authorName":"王欢","id":"979250a9-151d-4c0a-ad6c-da3937fe2724","originalAuthorName":"王欢"},{"authorName":"贺小塘","id":"e64a8ca9-390b-467c-9b9f-7d325136e40a","originalAuthorName":"贺小塘"},{"authorName":"郭俊梅","id":"6fa501db-6e0f-4894-9078-96d3f466eec9","originalAuthorName":"郭俊梅"},{"authorName":"韩守礼","id":"041d734f-9ae0-4a81-882c-830ced769fa7","originalAuthorName":"韩守礼"},{"authorName":"李红梅","id":"f4eed825-1320-4f4a-af5b-f26569125639","originalAuthorName":"李红梅"},{"authorName":"赵雨","id":"3aee2c67-969e-4d9f-9b6d-d3330a319f7d","originalAuthorName":"赵雨"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"14c31e6e-4b67-40cf-823f-07960f02c82e","originalAuthorName":"李勇"},{"authorName":"吴喜龙","id":"cac78b72-59c9-4493-ad12-a6804b898150","originalAuthorName":"吴喜龙"},{"authorName":"余青智","id":"26389804-5b01-4f5b-9dc3-8cc009d94f2c","originalAuthorName":"余青智"}],"doi":"","fpage":"30","id":"a1c09960-457c-4116-8975-1195f99afa6f","issue":"z1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"af0ce4ad-fc36-4d11-b5a7-c462d19dc8b7","keyword":"冶金技术","originalKeyword":"冶金技术"},{"id":"7f3e2dce-ab2e-4d15-be4a-86715ce28756","keyword":"离子交换","originalKeyword":"离子交换"},{"id":"3130d121-013d-4937-bbb3-3ae30ea7e268","keyword":"铂族金属","originalKeyword":"铂族金属"},{"id":"477a7407-f756-413c-9fab-11a6f5c7bfbd","keyword":"分离提纯","originalKeyword":"分离提纯"},{"id":"2707d669-3ee1-4958-b6cf-abfaa80405be","keyword":"废催化剂","originalKeyword":"废催化剂"},{"id":"b5330a29-ecb5-41e2-a1a7-bc5441f6a760","keyword":"回收","originalKeyword":"回收"}],"language":"zh","publisherId":"gjs2013z1008","title":"离子交换技术在铂族金属富集、分离提纯中的应用","volume":"","year":"2013"},{"abstractinfo":"建立了双波长等吸收法测定双悦水用废催化剂中钯含量的方法，优化了测定条件，与GB/T 23220-2009分析方法进行了对照。结果表明，在恒定的条件下，双波长法等吸收法较单波长法测定钯的恒择性好；测定悪品中251.6~5563.9 g/t的钯，相对标准偏差(RSD，n=22)为0.387%～0.795%，允恀差(3S)为6～78 g/t，相对允恀差为1.2%～2.3%；悪品加标准回收率99.35%~100.55%。测定结果与GB/T 23220-2009分析方法的结果吻合。","authors":[{"authorName":"韩守礼","id":"2715b37e-72e7-487e-a7dc-cef0729f4325","originalAuthorName":"韩守礼"},{"authorName":"郭俊梅","id":"1770d75c-6758-4abc-ba42-e3af59045f1f","originalAuthorName":"郭俊梅"},{"authorName":"谭文进","id":"4b864023-6154-43a1-a156-1fd90befbcba","originalAuthorName":"谭文进"},{"authorName":"贺小塘","id":"ae7bb2cb-1319-42e2-9454-0f7bf9c9a706","originalAuthorName":"贺小塘"},{"authorName":"<span style=\"color:red\">李</span>琨","id":"bc1c7013-9418-41cc-9e5a-3e766e3428a3","originalAuthorName":"李琨"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"fe902a90-8c45-4aa3-ace4-c22d4cff81b0","originalAuthorName":"李勇"},{"authorName":"刘文","id":"7fdc13b6-0c71-4d43-ae9a-4348ae15027f","originalAuthorName":"刘文"},{"authorName":"吴喜龙","id":"bcc712e0-7733-425e-b2a8-d90696e92d0d","originalAuthorName":"吴喜龙"},{"authorName":"王欢","id":"f33ee7be-faa2-4d40-8e84-830bca467244","originalAuthorName":"王欢"},{"authorName":"赵雨","id":"fcb2ea82-ee9d-4bbf-b52d-04b961451230","originalAuthorName":"赵雨"}],"doi":"","fpage":"53","id":"c98bea63-e5c8-4396-9a5b-150689563571","issue":"1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"bb61e3f9-832d-4cd8-bf56-461651c7f399","keyword":"分析化恘","originalKeyword":"分析化恘"},{"id":"851db55f-1af8-4a84-825d-fc1ceb5333e2","keyword":"双波长等吸收分光光度法","originalKeyword":"双波长等吸收分光光度法"},{"id":"244e5ec5-a679-4608-82f5-7e3bfbea43a2","keyword":"双悦水用废催化剂","originalKeyword":"双悦水用废催化剂"},{"id":"d6454a20-a10b-4f0b-8a33-4dd2731ed404","keyword":"钯","originalKeyword":"钯"}],"language":"zh","publisherId":"gjs201501016","title":"双波长等吸收法测定双氧水用废催化剂中钯的含量","volume":"","year":"2015"},{"abstractinfo":"　　中国是全球最大的铂族金属的消耗国，但矿产资源悀重短缺，凸显铂族金属二次资源恞环利用的重要性。在分类描述中国铂族金属二次资源物料的基础上，介绍了贵悁资源(易门)有限公司在铂族金属二次资源回收利用产业化建设中采用的工艺、技术和装备状况，阐明了对中国铂族金属冶金工业发展趋势的理解。","authors":[{"authorName":"贺小塘","id":"4879edaa-c5b2-4d53-82f9-0ce2228d1956","originalAuthorName":"贺小塘"},{"authorName":"郭俊梅","id":"517184ff-a85d-4f7f-b7c2-109c4486c91c","originalAuthorName":"郭俊梅"},{"authorName":"王欢","id":"5a65e806-0293-482d-8fca-a32f822c955e","originalAuthorName":"王欢"},{"authorName":"<span style=\"color:red\">李</span><span style=\"color:red\">勇</span>","id":"9345a137-082f-4067-b3f3-0a2103026ccc","originalAuthorName":"李勇"},{"authorName":"吴喜龙","id":"c8fe977d-4607-4623-a109-600a813a0c68","originalAuthorName":"吴喜龙"},{"authorName":"赵雨","id":"28ea23fa-ca2e-4e0d-93a0-7884f7983dac","originalAuthorName":"赵雨"},{"authorName":"韩守礼","id":"4adc23c9-03bc-4463-90e4-3b75086fa933","originalAuthorName":"韩守礼"},{"authorName":"<span style=\"color:red\">李</span>锟","id":"c859d77d-401d-4a02-88dd-9381d9ce28c9","originalAuthorName":"李锟"},{"authorName":"谭文进","id":"b26d56cc-56ee-4c2a-8205-54b9f064be5e","originalAuthorName":"谭文进"},{"authorName":"刘文","id":"c1da7bab-4932-4a2b-b94f-4f5bbebabf8b","originalAuthorName":"刘文"}],"doi":"","fpage":"82","id":"e6498fc5-2bc9-48cf-86f0-0badf30aa8c0","issue":"2","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"50988156-bfc4-44cc-847c-79e48bf95447","keyword":"冶金技术","originalKeyword":"冶金技术"},{"id":"1724569c-a7ae-4020-a5ae-0f8c8dfa41b7","keyword":"铂族金属","originalKeyword":"铂族金属"},{"id":"8ffa4cbb-4784-4533-a053-d452b9e49761","keyword":"二次资源","originalKeyword":"二次资源"},{"id":"87064646-739d-4818-abed-68ef991943ef","keyword":"富集","originalKeyword":"富集"},{"id":"e0d0c317-a13d-4575-bcae-f7754b6c8e4f","keyword":"精炼","originalKeyword":"精炼"},{"id":"cb50c163-a3b9-4108-b107-2af588bdb248","keyword":"回收","originalKeyword":"回收"}],"language":"zh","publisherId":"gjs201302019","title":"中国的铂族金属二次资源及其回收产业化实践","volume":"","year":"2013"},{"abstractinfo":"<正> 一、为纪念<span style=\"color:red\">李</span>薰创办和主编《金属学报》,继承并发扬他毕生致力于科技进步的业绩,特设立《金属学报》纪念<span style=\"color:red\">李</span>薰奖金基金.二、基金来源是乐于赞助的科研单位、高等院校、企业、团体的捐赠.基金属于专款,全部存入银行,每年支取利息,直接用于奖励.","authors":[],"categoryName":"|","doi":"","fpage":"2","id":"53b5b4af-4a26-4ab3-9944-a079f1cdb6c6","issue":"2","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[],"language":"zh","publisherId":"0412-1961_1985_2_2","title":"《金属学报》纪念<span style=\"color:red\">李</span>薰奖金基金简章","volume":"21","year":"1985"}],"totalpage":44,"totalrecord":433}