{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"针对冷拔钢管<span style=\"color:red\">磷化</span>过程中<span style=\"color:red\">磷化</span>沉渣产生过多的现象,在实验室试验得出的<span style=\"color:red\">磷化</span>钢管沉渣量为1.898 g/m2,冷拔钢管<span style=\"color:red\">磷化</span>生产过程中<span style=\"color:red\">磷化</span>钢管沉渣量为5～8 g/m.利用实验室数据结合生产实际情况,提出减少<span style=\"color:red\">磷化</span>沉渣的具体措施,同时指出在钢管的<span style=\"color:red\">磷化</span>过程中,只有有效地控制Fe2+质量浓度的范围,选用配方科学的<span style=\"color:red\">磷化</span><span style=\"color:red\">母液</span>,制定合理的技术参数,才能明显减少<span style=\"color:red\">磷化</span>沉渣,从而达到提高钢管的<span style=\"color:red\">磷化</span>质量,降低消耗的目的.","authors":[{"authorName":"郭永发","id":"d47a0529-be17-4199-81c2-56d5cb14a43c","originalAuthorName":"郭永发"},{"authorName":"姜丽丽","id":"94739232-0a53-481d-8ce3-9bf920a00026","originalAuthorName":"姜丽丽"},{"authorName":"任耀东","id":"b97cfe7a-b6d6-4104-b805-83abc70d4623","originalAuthorName":"任耀东"}],"doi":"","fpage":"56","id":"aa220fdd-2891-42dc-915c-38f11006a258","issue":"1","journal":{"abbrevTitle":"GTYJ","coverImgSrc":"journal/img/cover/GTYJ.jpg","id":"29","issnPpub":"1001-1447","publisherId":"GTYJ","title":"钢铁研究"},"keywords":[{"id":"29857fec-c84c-4335-b461-ce29c19adcbe","keyword":"<span style=\"color:red\">磷化</span><span style=\"color:red\">母液</span>","originalKeyword":"磷化母液"},{"id":"2482fcbf-5b54-47c2-9f8b-14cf6359a73a","keyword":"<span style=\"color:red\">磷化</span>槽液","originalKeyword":"磷化槽液"},{"id":"232268a7-c864-4a5d-818a-72ffd0215ee4","keyword":"<span style=\"color:red\">磷化</span>沉渣","originalKeyword":"磷化沉渣"},{"id":"ac5c0631-c798-46c0-abea-f9b0023bd895","keyword":"Fe2+质量浓度","originalKeyword":"Fe2+质量浓度"},{"id":"8619aa2e-8d9b-4432-a123-780e47086b7d","keyword":"润滑载体","originalKeyword":"润滑载体"}],"language":"zh","publisherId":"gtyj201301015","title":"冷拔钢管<span style=\"color:red\">磷化</span>过程中<span style=\"color:red\">磷化</span>沉渣过多的原因及改进","volume":"41","year":"2013"},{"abstractinfo":"阐述不锈钢<span style=\"color:red\">母液</span>氧化脱磷的基本原理,比较各种脱磷剂的脱磷效果以及氧化脱磷的热力学分析和不锈钢<span style=\"color:red\">母液</span>成分对脱磷的影响.","authors":[{"authorName":"叶斌","id":"d92d8abc-2b9b-43d5-8f18-9a5887b39d22","originalAuthorName":"叶斌"},{"authorName":"丁伟中","id":"2ef9a99e-8c76-4503-b88a-fcd99f657e4f","originalAuthorName":"丁伟中"},{"authorName":"李岚","id":"6f85a362-7bd4-46f0-a520-1514b0e53bc6","originalAuthorName":"李岚"}],"doi":"10.3969/j.issn.1001-7208.2001.05.007","fpage":"26","id":"d991dee8-d0a3-4b1d-958e-7f42568bce41","issue":"5","journal":{"abbrevTitle":"SHJS","coverImgSrc":"journal/img/cover/SHJS.jpg","id":"59","issnPpub":"1001-7208","publisherId":"SHJS","title":"上海金属"},"keywords":[{"id":"7d31e2c2-ddb5-446a-a3a5-464e8fe8d63a","keyword":"不锈钢<span style=\"color:red\">母液</span>-氧化脱磷","originalKeyword":"不锈钢母液-氧化脱磷"},{"id":"4a86f87d-9291-43f0-80b0-2a7539719a51","keyword":"脱磷剂","originalKeyword":"脱磷剂"},{"id":"21828dbe-8eb1-42c7-b4ef-cd45a92da449","keyword":"脱磷效果","originalKeyword":"脱磷效果"},{"id":"1e3199b2-b9e2-4587-83d7-4f7d11671641","keyword":"热力学分析","originalKeyword":"热力学分析"}],"language":"zh","publisherId":"shjs200105007","title":"不锈钢<span style=\"color:red\">母液</span>的氧化脱磷","volume":"23","year":"2001"},{"abstractinfo":"将提锂<span style=\"color:red\">母液</span>与氢氟酸反应,使<span style=\"color:red\">母液</span>中所有金属元素转化成氟化物.分离出溶解度小的氟化铝、氟化锂、氟化钠等.分离后的溶液进行浓缩,分步析出氟化钠、氟化钾和铷铯氟化物.","authors":[{"authorName":"周新泉","id":"d9f20f4c-594e-4b19-bb0a-0c6a7f94f8a7","originalAuthorName":"周新泉"}],"doi":"10.3969/j.issn.0258-7076.1999.02.007","fpage":"108","id":"009bbbac-0371-4e7f-82a7-11543b9b1d05","issue":"2","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"c1d41eb6-624d-4ae6-b0ce-54f20e6d972d","keyword":"提锂<span style=\"color:red\">母液</span>","originalKeyword":"提锂母液"},{"id":"2f741ab9-97ea-40db-9b76-a10d4c0cf3c9","keyword":"氟化反应","originalKeyword":"氟化反应"},{"id":"ee9a594d-dda6-45d9-894e-1993dec90f0f","keyword":"氟化钾","originalKeyword":"氟化钾"}],"language":"zh","publisherId":"xyjs199902007","title":"从提锂<span style=\"color:red\">母液</span>制取氟化钾的研究","volume":"","year":"1999"},{"abstractinfo":"通过对江西某石煤提钒沉钒<span style=\"color:red\">母液</span>的性质分析,系统考察了沉钒<span style=\"color:red\">母液</span>的循环利用对反萃现象、反萃剂H+浓度、V的反萃率、V2O5产品质量等影响,确定了该沉钒<span style=\"color:red\">母液</span>的循环利用方式.研究表明:沉钒<span style=\"color:red\">母液</span>中含有高浓度的Al,SO42-,NH4+;等离子,不经处理直接返回提钒工艺的反萃阶段,会析出NH4Al(SO4)2·12H2O晶体,给原有提钒工艺带来反萃率下降、反萃现象异常等不利影响;采用石灰乳中和法调节沉钒<span style=\"color:red\">母液</span>的pH值至10,固液分离后将处理液中加入硫酸配制成8％稀H2SO4溶液,作为反萃剂返回提钒作业,可实现沉钒<span style=\"color:red\">母液</span>的循环利用;在沉钒<span style=\"color:red\">母液</span>循环利用的过程中反萃现象正常,反萃剂的H+浓度在2.75～2.85 mol·L-1波动,V的反萃率维持在99.2％～ 99.3％波动,V2O5产品质量均可达到GB3283-1987(V2O5-98)的标准.","authors":[{"authorName":"刘涛","id":"19484b3b-78fd-4084-8332-d37d30ce574c","originalAuthorName":"刘涛"},{"authorName":"张国斌","id":"d0628d87-c254-4b0a-ab1d-1a2f2b3c0941","originalAuthorName":"张国斌"},{"authorName":"张一敏","id":"b58bca22-ccd9-43a3-a14f-919020fbf095","originalAuthorName":"张一敏"},{"authorName":"黄晶","id":"26dc064d-c04c-4c42-8870-fb2081b26ae5","originalAuthorName":"黄晶"},{"authorName":"付朝阳","id":"bc5ce244-9ff7-42ce-b755-57420936db20","originalAuthorName":"付朝阳"},{"authorName":"师启华","id":"f6be418f-d339-4b66-abae-22e73830f5ee","originalAuthorName":"师启华"}],"doi":"10.13373/j.cnki.cjrm.2016.01.014","fpage":"85","id":"3a91f0a0-5c78-4a22-b52b-cab991aaf996","issue":"1","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"900f7558-32f7-48db-8b5e-2987de09a364","keyword":"沉钒<span style=\"color:red\">母液</span>","originalKeyword":"沉钒母液"},{"id":"fe73b68a-e411-47e2-966c-87f20436e49e","keyword":"循环利用","originalKeyword":"循环利用"},{"id":"3a76be4f-68e0-4a47-b692-53d503295aad","keyword":"石煤提钒","originalKeyword":"石煤提钒"},{"id":"9c0fd7bc-ac90-4bdd-9e1b-f0746a891585","keyword":"反萃","originalKeyword":"反萃"}],"language":"zh","publisherId":"xyjs201601014","title":"石煤提钒沉钒<span style=\"color:red\">母液</span>的循环利用研究","volume":"40","year":"2016"},{"abstractinfo":"采用Ruthner酸再生装置喷雾焙烧人造金红石<span style=\"color:red\">母液</span>,通过对比分析钢板酸洗液和人造金红石<span style=\"color:red\">母液</span>的化学成分、浓度、密度、粘度,重点对炉膛温度、空煤比、喷洒流量、吸收流量参数进行优化;考察了焙烧炉喷洒流量、炉膛温度、空煤比对Cl.-分解率的影响,并确定出较佳工艺参数;焙烧可获得浓度218.6 g/L再生新酸及TFe含量大于65%的氧化铁粉,解决了废料治理和环保问题,为人造金红石<span style=\"color:red\">母液</span>的综合回收利用找到一条较好的途径.","authors":[{"authorName":"王彦华","id":"b1289e7c-0751-44e4-9b06-bcb3257807f9","originalAuthorName":"王彦华"}],"doi":"","fpage":"35","id":"3bf6a51f-3616-4199-98fe-8b8b811edc65","issue":"3","journal":{"abbrevTitle":"GTFT","coverImgSrc":"journal/img/cover/gtft1.jpg","id":"28","issnPpub":"1004-7638","publisherId":"GTFT","title":"钢铁钒钛"},"keywords":[{"id":"f484998e-c87c-4fc7-a4ba-f3347b7f8c29","keyword":"Ruthner","originalKeyword":"Ruthner"},{"id":"f8e8ae5a-4571-432e-bbeb-5b05b7ec1382","keyword":"人造金红石<span style=\"color:red\">母液</span>","originalKeyword":"人造金红石母液"},{"id":"5af8bf9e-bceb-47ad-98e3-c565c29ed2a3","keyword":"焙烧","originalKeyword":"焙烧"},{"id":"c6ae0461-8e2d-40f7-96b5-45970155f0f4","keyword":"再生新酸","originalKeyword":"再生新酸"},{"id":"c879bcd3-9af9-4874-9369-a946b26bdd09","keyword":"氧化铁","originalKeyword":"氧化铁"}],"language":"zh","publisherId":"gtft200803008","title":"人造金红石浸出<span style=\"color:red\">母液</span>回收处理方法研究","volume":"29","year":"2008"},{"abstractinfo":"采用转炉或高炉方法冶炼含铬铁水可以降低不锈钢生产的成本.总结了国内开展的铁浴熔融还原和高炉过程生产不锈钢<span style=\"color:red\">母液</span>工业试验的结果,着重分析了高炉冶炼含铬铁水的热力学优势和操作顺行的条件,并讨论了铬矿石在高炉内的反应机理.对工业试验中焦比和铁水磷含量高的情况提出了改进的措施.","authors":[{"authorName":"徐匡迪","id":"a57a022e-a258-45f5-981d-08b119f0c713","originalAuthorName":"徐匡迪"},{"authorName":"丁伟中","id":"38b3281c-a295-4d74-908a-9adfa0e40bda","originalAuthorName":"丁伟中"}],"doi":"","fpage":"1","id":"caba1db2-f01e-4ed0-ad68-caed64545575","issue":"8","journal":{"abbrevTitle":"GT","coverImgSrc":"journal/img/cover/GT.jpg","id":"27","issnPpub":"0449-749X","publisherId":"GT","title":"钢铁"},"keywords":[{"id":"8fed3993-5617-41fa-80eb-0db010e66ec3","keyword":"不锈钢<span style=\"color:red\">母液</span>","originalKeyword":"不锈钢母液"},{"id":"907d225c-0327-42bf-bff6-0977bc0241cd","keyword":"熔融还原","originalKeyword":"熔融还原"},{"id":"e72c8a7f-f4a9-4e49-9458-77b3f76af863","keyword":"转炉","originalKeyword":"转炉"},{"id":"b2bc1e9a-d9df-4fbf-8d89-b4884bb5487f","keyword":"高炉","originalKeyword":"高炉"}],"language":"zh","publisherId":"gt200408001","title":"非铁合金方法冶炼不锈钢<span style=\"color:red\">母液</span>","volume":"39","year":"2004"},{"abstractinfo":"采用反渗透膜分离技术对PVC离心<span style=\"color:red\">母液</span>进行试验,研究了不同进膜压力对膜通量、渗透液电导的影响.在确定了压力参数后.分析了运行时间对膜通量、渗透液电导、COD的影响.试验结果表明.第一次通过RO膜的渗透液电导为42.3 μs;在进膜压力为1.0 MPa,膜设备运行30 min情况下.第二次通过RO膜的渗透液电导为7.37 μs,COD接近于0.出水达到排放标准.经进一步处理可回用于生产.","authors":[{"authorName":"刘久清","id":"206d8361-5623-4f29-81f0-01787d992acf","originalAuthorName":"刘久清"},{"authorName":"蒋彬","id":"63f61c40-f3c0-4fe7-a648-957bace689b5","originalAuthorName":"蒋彬"},{"authorName":"杨秋菊","id":"00fdcd41-1ad6-46d5-86c6-aa9e0e1cbbef","originalAuthorName":"杨秋菊"}],"doi":"10.3969/j.issn.1007-8924.2011.01.016","fpage":"94","id":"08cf0e7d-b053-4246-938e-26559585c482","issue":"1","journal":{"abbrevTitle":"MKXYJS","coverImgSrc":"journal/img/cover/MKXYJS.jpg","id":"54","issnPpub":"1007-8924","publisherId":"MKXYJS","title":"膜科学与技术   "},"keywords":[{"id":"925f8a32-8c3a-47fd-9921-cf058e32ad50","keyword":"PVC离心<span style=\"color:red\">母液</span>","originalKeyword":"PVC离心母液"},{"id":"d1e7705b-5b78-45b6-8bd3-803d1dcae53c","keyword":"膜通量","originalKeyword":"膜通量"},{"id":"fc6b539e-775a-4443-b2d8-78259331a06d","keyword":"电导","originalKeyword":"电导"},{"id":"33a297b2-6b65-4d46-85f9-d70736da8389","keyword":"COD","originalKeyword":"COD"}],"language":"zh","publisherId":"mkxyjs201101016","title":"反渗透膜处理PVC离心<span style=\"color:red\">母液</span>","volume":"31","year":"2011"},{"abstractinfo":"在15t复吹转炉中进行了不锈钢<span style=\"color:red\">母液</span>的铁浴熔融还原工业试验，发现铬的收得率不高，且<span style=\"color:red\">母液</span>含磷过多．不锈钢<span style=\"color:red\">母液</span>的铁浴熔融还原过程是某种二燃率条件下的[C]－[Cr]选择性氧化。有高铬残渣伴随的<span style=\"color:red\">母液</span>宜于采取氧化脱磷，这种脱磷是[C]－[Cr]－[P]三元素之间的选择性氧化.以SELF—SReM4模型为基础，定量地分析了有关问题","authors":[{"authorName":"徐匡迪","id":"bcc9588f-6258-4126-8905-9707cdbb7db8","originalAuthorName":"徐匡迪"},{"authorName":"蒋国昌","id":"b8a415b3-5f29-4d21-a8fd-824b254c9471","originalAuthorName":"蒋国昌"},{"authorName":"张晓兵","id":"f785ed52-36c8-4ff3-9afb-e573ea341d0d","originalAuthorName":"张晓兵"},{"authorName":"徐建伦","id":"922f665b-2135-4841-ab75-048c817fea60","originalAuthorName":"徐建伦"}],"categoryName":"|","doi":"","fpage":"467","id":"e176bf21-feec-4b36-a04e-b096f5e8997d","issue":"5","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"72423e21-21b2-467f-a1fe-5bf603310848","keyword":"不锈钢","originalKeyword":"不锈钢"},{"id":"0bcd4415-d29a-4dd3-a0b3-671a37223484","keyword":" bath smelting reduction process","originalKeyword":" bath smelting reduction process"},{"id":"1d2b9132-c624-41a6-adb9-ebab7604872a","keyword":" dephosphorization","originalKeyword":" dephosphorization"},{"id":"34e74ede-ba29-4717-bf4d-1370afcf8111","keyword":" sub-regular melt model","originalKeyword":" sub-regular melt model"}],"language":"zh","publisherId":"0412-1961_1998_5_11","title":"不锈钢<span style=\"color:red\">母液</span>铁浴熔融还原过程中的铬回收率及<span style=\"color:red\">母液</span>的氧化脱磷","volume":"34","year":"1998"},{"abstractinfo":"从<span style=\"color:red\">磷化</span>膜形成过程、<span style=\"color:red\">磷化</span>液组成、促进剂的选择等方面综述了常温<span style=\"color:red\">磷化</span>技术的现状与发展趋势.","authors":[{"authorName":"夏正斌","id":"a6851f00-7c0b-41f6-b3c6-f5fe7896fc4f","originalAuthorName":"夏正斌"},{"authorName":"涂伟萍","id":"abd26348-3816-4312-a3ed-73ab7c43823b","originalAuthorName":"涂伟萍"},{"authorName":"杨卓如","id":"11b52d6d-90a6-4027-847f-de4d47ee1c98","originalAuthorName":"杨卓如"},{"authorName":"陈焕钦","id":"80ccee45-ff9b-4cfa-a0e3-faca5751cf21","originalAuthorName":"陈焕钦"}],"doi":"10.3969/j.issn.1001-1560.1999.08.009","fpage":"16","id":"567f0182-4330-420a-b93b-a4873bd89c06","issue":"8","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"a10b6e20-342f-4a96-bda2-98064efabf35","keyword":"常温<span style=\"color:red\">磷化</span>","originalKeyword":"常温磷化"},{"id":"2aad9a20-9986-4b2b-994d-c01f1af69dd6","keyword":"<span style=\"color:red\">磷化</span>膜","originalKeyword":"磷化膜"},{"id":"e50b407e-75fb-4fb9-b637-859f3d8e280d","keyword":"涂装前处理","originalKeyword":"涂装前处理"},{"id":"7edb3268-d5f1-46aa-bb39-58cbf813b4ff","keyword":"促进剂","originalKeyword":"促进剂"}],"language":"zh","publisherId":"clbh199908009","title":"常温<span style=\"color:red\">磷化</span>技术","volume":"32","year":"1999"},{"abstractinfo":"铌钽沉淀<span style=\"color:red\">母液</span>中含有较高浓度的氟,可通过加入可溶性的稀土盐除去,其产品可制成含氟稀土抛光粉或氟化稀土,除氟后的沉淀<span style=\"color:red\">母液</span>可回收用作南方离子型稀土矿的稀土浸矿剂.将铌钽沉淀<span style=\"color:red\">母液</span>加入硫酸稀土除氟,并加入碳酸氢铵控制pH值在6.2～6.4沉淀稀土,制备含氟稀土抛光粉前驱体,沉淀后<span style=\"color:red\">母液</span>氟含量可达到5.0 mg·L-1以下,稀土含量为30 mg·L-1以下;而加氯化稀土除氟,pH值控制在6.5 ～6.7时,<span style=\"color:red\">母液</span>氟含量可达到3.0 mg·L1以下,稀土含量为20 mg·L-1以下;铌钽沉淀<span style=\"color:red\">母液</span>加入可溶性稀土盐除氟制氟化稀土,沉淀的pH值控制在7.0为宜,除氟后沉淀<span style=\"color:red\">母液</span>氟含量可达到2.5 mg·L-1以下,稀土含量为10 mg·L 1以下;铌钽沉淀<span style=\"color:red\">母液</span>加入可溶性稀土盐除氟加碳酸氢铵沉淀稀土,沉淀过滤、烘干在1000～1050℃煅烧4h,得到粒度分布均匀,粒径范围较窄,中位粒径宜中,抛蚀率较高的含氟稀土抛光粉.除氟沉淀<span style=\"color:red\">母液</span>经蒸发浓缩回收,得到硫酸铵或氯化铵和硫酸铵复合铵盐,产品铵盐含量达到98％以上,氟含量小于3 mg·L-1.","authors":[{"authorName":"周新木","id":"a5d50f24-d1cf-4a09-99b7-58352059a987","originalAuthorName":"周新木"},{"authorName":"阮桑桑","id":"cd13cd1a-54c1-4951-8805-454953420f42","originalAuthorName":"阮桑桑"},{"authorName":"王爱勤","id":"a7979c91-bd1c-4eb0-a0fb-dd246a739c58","originalAuthorName":"王爱勤"},{"authorName":"李永绣","id":"784cb743-d260-4f6b-8a0d-32ca40385d91","originalAuthorName":"李永绣"}],"doi":"10.13373/j.cnki.cjrm.XY15062001","fpage":"1276","id":"8d711db6-3acc-423b-85e4-c652cf328452","issue":"12","journal":{"abbrevTitle":"XYJS","coverImgSrc":"journal/img/cover/XYJS.jpg","id":"67","issnPpub":"0258-7076","publisherId":"XYJS","title":"稀有金属"},"keywords":[{"id":"4979db77-c8e6-428c-9fca-fec1291ff374","keyword":"铌钽沉淀<span style=\"color:red\">母液</span>","originalKeyword":"铌钽沉淀母液"},{"id":"5443f5e7-8146-4055-b39c-5ce086a6cf37","keyword":"除氟","originalKeyword":"除氟"},{"id":"4289302a-cb8e-4761-826c-974dd813f400","keyword":"抛光粉","originalKeyword":"抛光粉"},{"id":"7554b964-4a9c-4f8a-8c7b-2ec6ae1797c1","keyword":"回收利用","originalKeyword":"回收利用"},{"id":"47ba844b-3ca4-4cef-98a6-d62cca6e60c3","keyword":"稀土氟化物","originalKeyword":"稀土氟化物"}],"language":"zh","publisherId":"xyjs201612014","title":"钽铌沉淀<span style=\"color:red\">母液</span>制备含氟稀土产品的研究","volume":"40","year":"2016"}],"totalpage":95,"totalrecord":944}