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  4. 湿法氯化提金中废水少排新工艺的应用研究

黄金, 2003, 24(2): 45-49. doi: 10.3969/j.issn.1001-1277.2003.02.013

湿法氯化提金中废水少排新工艺的应用研究

李卫锋 1, , 王光忠 2, , 翟爱平 3, , 王本堂 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MPa,125℃时达到20.9 MPa.固化样片经1×108 rad γ-射线(60Co)辐照后,击穿强度由20.1升高到25.2 kV/mm.KH-A浇铸体在真空下的总质量损失(TML)为0.97%,可凝挥发物含量(CVCM)为0.01%.KH-A各项性能指标均满足产品设计要求.","authors":[{"authorName":"","id":"155c52b3-ba13-4d45-a51e-44856a5eda5f","originalAuthorName":"孟宪刚"},{"authorName":"李睿","id":"dd7605c2-a3eb-4194-bff4-ef168e424710","originalAuthorName":"李睿"},{"authorName":"卞茵佳","id":"f8679070-22ec-4a9c-834b-fc3984dc39fe","originalAuthorName":"卞茵佳"},{"authorName":"刘金刚","id":"86b7146a-0415-472b-8107-9c75cba210c6","originalAuthorName":"刘金刚"}],"doi":"10.3969/j.issn.1007-2330.2015.01.011","fpage":"43","id":"62b76bae-97c7-4cd3-a904-9581bbc2be5c","issue":"1","journal":{"abbrevTitle":"YHCLGY","coverImgSrc":"journal/img/cover/YHCLGY.jpg","id":"77","issnPpub":"1007-2330","publisherId":"YHCLGY","title":"宇航材料工艺 "},"keywords":[{"id":"a13d937c-b210-4283-a0d7-fb2659cb8389","keyword":"太阳帆板驱动机构","originalKeyword":"太阳帆板驱动机构"},{"id":"6907f167-bb89-4c14-8978-f7bbc71df11d","keyword":"胶黏剂","originalKeyword":"胶黏剂"},{"id":"b5ad182a-894c-4282-99ec-4dc856944d34","keyword":"Tg","originalKeyword":"Tg"},{"id":"1e4af93a-5773-4054-85bf-e54bc9475114","keyword":"γ-射线(60Co)辐照","originalKeyword":"γ-射线(60Co)辐照"},{"id":"b8d861d9-ee24-43a2-94a8-e29c08f5f533","keyword":"真空挥发性能","originalKeyword":"真空挥发性能"}],"language":"zh","publisherId":"yhclgy201501011","title":"太阳帆板驱动机构用KH-A胶黏剂制备及性能","volume":"45","year":"2015"},{"abstractinfo":"化技术和化材料是空间充气展开结构的一项合材料;热塑性(和轻度交联热固性)复合材料;铝/聚合物层合板.本文介绍了这几种材料的典型化技术,分别介绍了化体系的特点、研究现状以及该化技术相应的优势与局限性.","authors":[{"authorName":"刘宇艳","id":"68122908-d3fe-495e-a7ba-25ed30bfe56f","originalAuthorName":"刘宇艳"},{"authorName":"孟秋影","id":"e14cb1a9-f66d-4c5b-9944-5cc619d393e1","originalAuthorName":"孟秋影"},{"authorName":"谭惠丰","id":"6d2e3152-f077-4b09-a5fe-8011a51e7de2","originalAuthorName":"谭惠丰"},{"authorName":"杜星文","id":"8f3fcc95-4bc0-4d47-8491-a33690eb3fa8","originalAuthorName":"杜星文"}],"doi":"10.3969/j.issn.1001-4381.2008.02.018","fpage":"76","id":"c3cb1cc1-d85c-456c-a1e9-03c8c2d836d6","issue":"2","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"862d0276-4dd1-465b-9341-f64db13e4cd9","keyword":"空间充气展开结构","originalKeyword":"空间充气展开结构"},{"id":"83d2d0c5-b3e0-45c4-ba13-41c58740e0c8","keyword":"化材料","originalKeyword":"刚化材料"},{"id":"b98188ea-f7b0-4e3b-999b-221523bb92cd","keyword":"化技术","originalKeyword":"刚化技术"}],"language":"zh","publisherId":"clgc200802018","title":"空间充气展开结构用化材料和化技术的研究现状","volume":"","year":"2008"},{"abstractinfo":"针对传统数学建模法无法实现CIELAB颜色信号向塞尔色序系统精确转换的问题,提出一种基于结构相似的分级转换算法。首先使用Pearson相关系数分析CIELAB颜色系统与塞尔色序系统间的结构关系,接着在此基础上采用分级转换的方式先后得到CIELAB颜色信号对应的塞尔明度V、色调 H 和彩度C 三色标,并在第二级转换求色标H时使用了一种多次插值求最小色差的新方法,以保证算法的计算精度。对2735组检验样本的测试结果表明,本文算法具有良好的计算精度和可靠性,并可被广泛应用于各类图像颜色信号处理系统中。","authors":[{"authorName":"叶程","id":"b74c4d08-f032-44f0-af70-099138e9bfaa","originalAuthorName":"叶程"},{"authorName":"刘真","id":"6e815251-4b39-497c-bbce-dd29a3a2a154","originalAuthorName":"刘真"},{"authorName":"吴光远","id":"52fa4284-bf6e-4e90-9135-8a3a12a5b312","originalAuthorName":"吴光远"},{"authorName":"朱明","id":"cc0e4afb-562a-4d12-8fb5-068ee18a214f","originalAuthorName":"朱明"}],"doi":"10.3788/YJYXS20163106.0626","fpage":"626","id":"6ebe4eb5-8ae9-4bac-8d6a-fec5d943613a","issue":"6","journal":{"abbrevTitle":"YJYXS","coverImgSrc":"journal/img/cover/YJYXS.jpg","id":"72","issnPpub":"1007-2780","publisherId":"YJYXS","title":"液晶与显示 "},"keywords":[{"id":"3b6131fd-8e95-48c6-99f5-05173eb7ff33","keyword":"跨媒体","originalKeyword":"跨媒体"},{"id":"8c9e6c3d-612b-44ec-ab7c-d093443e3dcd","keyword":"图像信号处理","originalKeyword":"图像信号处理"},{"id":"5d085958-18f4-4a76-81fe-484748bd8b89","keyword":"颜色空间转换","originalKeyword":"颜色空间转换"},{"id":"d232170d-e662-49fb-9735-5661724574cd","keyword":"CIELAB颜色空间","originalKeyword":"CIELAB颜色空间"},{"id":"3602ecfc-77c9-44d7-82e3-3b558bff8f0b","keyword":"塞尔色序系统","originalKeyword":"孟塞尔色序系统"}],"language":"zh","publisherId":"yjyxs201606015","title":"基于结构相似的CIE L?a?b?颜色信号向塞尔色序系统分级转换","volume":"31","year":"2016"},{"abstractinfo":"模拟土壤施用稀土定位试验结果表明:黄土中各组份吸附稀土的能力为:无定形FexOy、紧结有机物>松结有机物>MnOx>晶形FexOy>永久负电荷;进入黄土的外源轻稀土,主要累积于紧结有机态(29.90~49.72%)、无定形氧化铁吸附态(26.81~46.76%),而累积于松结有机态的轻稀土受外源稀土的加入量影响较小(24.93~28.72%).当外源稀土用量在0.684~2.735mg/kg*季时,大豆地上部稀土无明显增加,而用量达13.674mg/kg时,地上部明显增加.黄土外源稀土的最佳用量为0.684mg/kg,此时,大豆增产43.82±15.08%、油菜增产17.92±9.07%.","authors":[{"authorName":"荆国芳","id":"fc1b92c6-600d-4fcd-8e1e-fa3dc5a1c9f5","originalAuthorName":"荆国芳"},{"authorName":"钱晓晴","id":"f0c35fa0-cdb7-47b9-b5f0-473802d2c771","originalAuthorName":"钱晓晴"}],"doi":"10.3969/j.issn.1004-0277.2002.02.011","fpage":"38","id":"8b89503d-85fe-42d8-a31b-5ee41eed9fc4","issue":"2","journal":{"abbrevTitle":"XT","coverImgSrc":"journal/img/cover/XT.jpg","id":"65","issnPpub":"1004-0277","publisherId":"XT","title":"稀土"},"keywords":[{"id":"d9808f7e-67c4-4266-9caf-60295c858dc6","keyword":"稀土","originalKeyword":"稀土"},{"id":"60f39a5b-d062-4283-92b6-49c319b6ff2e","keyword":"形态","originalKeyword":"形态"},{"id":"97b50517-dd4d-4380-b408-02394f1ee3bd","keyword":"生态效应","originalKeyword":"生态效应"}],"language":"zh","publisherId":"xitu200202011","title":"外源稀土在黄土中形态分布和生态效应研究","volume":"23","year":"2002"},{"abstractinfo":"验证已建立的刚性颗粒增强复合材料塑性细观损伤本构理论的合理性和可靠性.将上述本构理论的数值计算结果与SiC颗粒增强的铝基复合材料单轴拉伸实验结果进行比较.结果表明:由此本构模型得到的应力-应变理论曲线与拉伸实验所得的应力-应变曲线基本吻合,从而验证了该本构模型的合理性和可靠性.因此已建立的塑性细观损伤本构模型可用于数值计算,在一定程度上可预测颗粒增强复合材料的力学特性.在此基础上对大、小颗粒增强复合材料的延展性、空洞和颗粒体积分数演化规律等作了讨论.","authors":[{"authorName":"吴国民","id":"caab2819-e99c-4fc5-8f4d-6b19923fd48c","originalAuthorName":"吴国民"},{"authorName":"殷雅俊","id":"bdb5646b-fee1-4f09-b2e0-e0ccf6bf8553","originalAuthorName":"殷雅俊"}],"doi":"10.3321/j.issn:1000-3851.2005.05.003","fpage":"16","id":"afc0715b-f9a4-467d-bd25-4cd5ec674d62","issue":"5","journal":{"abbrevTitle":"FHCLXB","coverImgSrc":"journal/img/cover/FHCLXB.jpg","id":"26","issnPpub":"1000-3851","publisherId":"FHCLXB","title":"复合材料学报"},"keywords":[{"id":"02ca7d0b-8fd2-40c6-a27a-0cb7be1aad5c","keyword":"颗粒增强复合材料","originalKeyword":"颗粒增强复合材料"},{"id":"43506929-0c02-4552-9936-b1c475477d5c","keyword":"细观损伤","originalKeyword":"细观损伤"},{"id":"c2c80041-0bcc-4b7f-87b6-4eba8ed58d2b","keyword":"塑性本构理论","originalKeyword":"刚塑性本构理论"},{"id":"88c1e48f-e34f-4115-b1bf-e919993ce3a3","keyword":"空洞演化","originalKeyword":"空洞演化"}],"language":"zh","publisherId":"fhclxb200505003","title":"颗粒增强复合材料塑性细观损伤本构模型的验证","volume":"22","year":"2005"},{"abstractinfo":"为了满足板材轧制过程在线控制快速计算的要求,首先建立了板材轧制平面应变塑性有限元能量泛函。其次,通过合理的简化建立了只考虑变形区的快速有限元模型,且对有限元建模的关键问题包括中性点、第一类速度奇异点和刚性区等进行了处理。最后,开发了板材轧制快速计算有限元程序,并且利用现场轧制数据测试了快速有限元程序的计算速度和精度,结果表明计算速度和精度满足在线快速计算的要求。","authors":[{"authorName":"张光亮","id":"bc6303e6-8b84-4d65-8672-d5ee15e5fb54","originalAuthorName":"张光亮"},{"authorName":"张士宏","id":"9da410b9-3b45-44e7-9853-9d700d62f223","originalAuthorName":"张士宏"},{"authorName":"刘劲松","id":"75dbd315-11f2-40ec-9f85-ced0db31886f","originalAuthorName":"刘劲松"},{"authorName":"张海渠","id":"6b30ea75-cd6e-4548-8981-625e7aad4746","originalAuthorName":"张海渠"},{"authorName":"李长生","id":"88830a0a-2707-4b41-99bc-930fc5fbe7bf","originalAuthorName":"李长生"}],"categoryName":"|","doi":"","fpage":"32","id":"34c2cb2a-08a5-4e65-9853-436b68135436","issue":"6","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"7f8b6134-1932-4a93-8f0b-74c9734cb805","keyword":"板材轧制;塑性有限元法;在线控制","originalKeyword":"板材轧制;刚塑性有限元法;在线控制"}],"language":"zh","publisherId":"1001-0963_2009_6_8","title":"板材轧制过程轧制力塑性有限元快速计算","volume":"21","year":"2009"},{"abstractinfo":"为了满足板材轧制过程在线控制快速计算的要求,首先建立了板材轧制平面应变塑性有限元能量泛函.其次,通过合理的简化建立了只考虑变形区的快速有限元模型,且对有限元建模的关键问题包括中性点、第一类速度奇异点和刚性区等进行了处理.最后,开发了板材轧制快速计算有限元程序,并且利用现场轧制数据测试了快速有限元程序的计算速度和精度,结果表明计算速度和精度满足在线快速计算的要求.","authors":[{"authorName":"张光亮","id":"cd9a1639-4231-45d5-9f95-2a666115e081","originalAuthorName":"张光亮"},{"authorName":"张士宏","id":"9efa32db-fb88-4038-b77c-adabc4eb4c3f","originalAuthorName":"张士宏"},{"authorName":"刘劲松","id":"a5c70bfa-9001-4ffa-b661-c670e6eabe91","originalAuthorName":"刘劲松"},{"authorName":"张海渠","id":"41bc2ae8-9170-4943-87d9-f68950a1b2df","originalAuthorName":"张海渠"},{"authorName":"李长生","id":"74d58b04-ae35-4787-bea2-7d703aa9e898","originalAuthorName":"李长生"}],"doi":"","fpage":"32","id":"3c7cc817-66c1-42ef-9aab-d0f786b69f05","issue":"6","journal":{"abbrevTitle":"GTYJXB","coverImgSrc":"journal/img/cover/GTYJXB.jpg","id":"30","issnPpub":"1001-0963","publisherId":"GTYJXB","title":"钢铁研究学报"},"keywords":[{"id":"621d02dc-4d98-4336-bb35-7ae6dfaf8302","keyword":"板材轧制","originalKeyword":"板材轧制"},{"id":"3727e566-75ee-468f-a887-3592861220ee","keyword":"塑性有限元法","originalKeyword":"刚塑性有限元法"},{"id":"ac49a1a8-1dee-4159-a68f-ad423e622e4a","keyword":"在线控制","originalKeyword":"在线控制"}],"language":"zh","publisherId":"gtyjxb200906008","title":"板材轧制过程轧制力塑性有限元快速计算","volume":"21","year":"2009"},{"abstractinfo":"分析与探讨了高温玻璃的应力流动模型及其材料参数的温度相关性。利用粘塑性力学模型,基于三维有限元软件DEFORM 3D建立非球面透镜高温模压有限元模型,对光学玻璃L-BAL42球形预制件模压成非球面透镜的整个过程进行了数值仿真,发现非球面透镜应力分布规律:透镜边缘处应力最大,在和模阶段应力快速增加,导致透镜边缘处最易破碎,结果得到实验的验证。采用较大的模压速度及冷却速度将导致残余应力增加,同时分析了透镜非球面偏差变化规律。最后在模具设计时将非球面偏差补偿进去,发现非球面透镜偏差减少,由正偏差变为负偏差。","authors":[{"authorName":"张小兵","id":"acdaaafb-1d57-4199-a58b-b10026bfd6f6","originalAuthorName":"张小兵"}],"doi":"","fpage":"68","id":"0cf3ab32-a23c-4a51-b293-acb9d2170919","issue":"2","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":"e0a0f244-1bb9-4be6-8312-69fe596770d2","keyword":"非球面","originalKeyword":"非球面"},{"id":"5c391287-977d-4916-890f-73513924296a","keyword":"粘塑性模型","originalKeyword":"粘刚塑性模型"},{"id":"f0a4a2b2-474b-45bb-87ee-1af2286e366c","keyword":"三维模压成型模型","originalKeyword":"三维模压成型模型"}],"language":"zh","publisherId":"bqclkxygc201502018","title":"基于粘塑性模型非球面透镜三维模压成型模拟","volume":"","year":"2015"},{"abstractinfo":"采用塑性有限元解析计算了无孔型轧制轧件自由表面的变形,探讨了件辊接触面摩擦因子的取值对计算结果的影响,并与实测值进行了对比,得到了相关结论.","authors":[{"authorName":"韦东滨","id":"c2e07a95-9c8f-4e40-b40d-b0cfa25c7b8f","originalAuthorName":"韦东滨"},{"authorName":"徐建中","id":"9b09b986-2fa7-4214-a024-5c9ade315baa","originalAuthorName":"徐建中"},{"authorName":"吴迪","id":"feff9146-1019-4e54-be4f-4c59ee50329b","originalAuthorName":"吴迪"},{"authorName":"白光润","id":"7600bd0f-2e4c-417a-b6b0-a0137cb5e514","originalAuthorName":"白光润"}],"doi":"10.3969/j.issn.1001-1447.1999.04.010","fpage":"40","id":"3c4efa8d-212b-4942-8b76-4a01ad9b04c5","issue":"4","journal":{"abbrevTitle":"GTYJ","coverImgSrc":"journal/img/cover/GTYJ.jpg","id":"29","issnPpub":"1001-1447","publisherId":"GTYJ","title":"钢铁研究"},"keywords":[{"id":"ac956b8f-d70d-4d7d-be2b-b8b595dae865","keyword":"无孔型轧制","originalKeyword":"无孔型轧制"},{"id":"7d6ef12a-2e46-487d-ba3a-04a2c722c97b","keyword":"自由表面形状","originalKeyword":"自由表面形状"},{"id":"58874faa-a5c6-4c8f-bf22-296c13a4f557","keyword":"塑性有限元","originalKeyword":"刚塑性有限元"}],"language":"zh","publisherId":"gtyj199904010","title":"无孔型轧制轧件自由表面形状的塑性有限元分析","volume":"","year":"1999"}],"totalpage":21,"totalrecord":204}