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  4. 配料组成和氮气流量对高钛渣合成TiN/β′-sialon粉体的影响

功能材料, 2008, 39(6): 1003-1007.

配料组成和氮气流量对高钛渣合成TiN/β′-sialon粉体的影响

李江 1, , 薛向欣 2, , 姜涛 {"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"采用Mg基复合变质处理的方法,探讨过共晶铬铸铁凝固组织的变化特征.研究结果表明,经过Mg基复合变质处理后,铁水的表面张力提高,铁液得到净化,同等冷却条件下,铁液凝固时热力学过冷度增大,不仅使凝固组织中伪共晶程度明显加剧,共晶组织数量有所增加,而且显著改善碳化物形态,从而使铬铸铁的冲击韧性有较大提高.","authors":[{"authorName":"马幼平","id":"3facb85f-c45b-4919-9e4d-f59b5512c945","originalAuthorName":"马幼平"},{"authorName":"李泽宇","id":"d13d8c19-9764-4541-8289-c54e30994c40","originalAuthorName":"李泽宇"},{"authorName":"","id":"af73ed8e-474d-4d5d-a98e-a2960d1bfc86","originalAuthorName":"刘玉高"},{"authorName":"赵峰","id":"ff00bd30-369d-4ee6-9ac4-3aabeda01571","originalAuthorName":"赵峰"},{"authorName":"李俊","id":"df128c33-3a9b-430b-ac18-dfc693fb4810","originalAuthorName":"李俊"},{"authorName":"杨蕾","id":"82edddf0-51c2-4103-8ea5-e8c6cbd8b5d0","originalAuthorName":"杨蕾"}],"doi":"10.3969/j.issn.1004-244X.2007.06.010","fpage":"35","id":"5b8c6481-9572-483e-a896-6436a1b127f4","issue":"6","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":"894968be-a97b-4919-9bf8-567644b29759","keyword":"复合变质","originalKeyword":"复合变质"},{"id":"43607fec-a198-49c1-8080-1b6319c04831","keyword":"铬铸铁","originalKeyword":"高铬铸铁"},{"id":"a4ae7f08-7821-492c-ade7-7b30d7698fc1","keyword":"凝固","originalKeyword":"凝固"},{"id":"8ef67a38-3a2e-4779-808a-b3968f032b54","keyword":"碳化物","originalKeyword":"碳化物"},{"id":"55e06e68-9005-41e8-a854-e8fd0b7019a0","keyword":"冲击韧性","originalKeyword":"冲击韧性"}],"language":"zh","publisherId":"bqclkxygc200706010","title":"复合变质对过共晶铬铸铁凝固组织的影响","volume":"30","year":"2007"},{"abstractinfo":"根据纯镁材在扩渗温度不变的条件下,扩渗合金层形成特征随着扩渗时间的变化.研究了纯镁表面扩渗(Zn,Al)合金层的形成机制.结果表明:扩渗温度在390℃时,表面合金化过程中反应扩渗机理是镁表面合金化过程的关键阶段;扩渗时间由4 h延长至8 h,开始形成Al6Mg10Zn金属间化合物反应层,随后进一步发展为更加稳定的Al5Mg11Zn4金属间化合物.Zn元素的扩渗量对Al6Mg10Zn和Al5Mg11Zn4的转换起主控作用,并建立了相应的扩渗合金化模型.","authors":[{"authorName":"马幼平","id":"4b8144c2-623c-465d-8f41-bfb438d1518c","originalAuthorName":"马幼平"},{"authorName":"杨蕾","id":"3ed85d35-f417-4099-99ac-d1cb8d60a1a1","originalAuthorName":"杨蕾"},{"authorName":"徐可为","id":"5e19a3f3-cba9-458c-b31a-7c155d963cb6","originalAuthorName":"徐可为"},{"authorName":"李泽宇","id":"709c4df9-451c-4cc0-96a3-3933a438ae11","originalAuthorName":"李泽宇"},{"authorName":"","id":"3e17a96f-5d8d-43eb-9f1a-2520c5105866","originalAuthorName":"刘玉高"}],"doi":"","fpage":"5","id":"45bc95ef-b26d-48a5-8386-22502183b0fe","issue":"11","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"4492984d-8365-4de9-b06d-d685842ecde1","keyword":"Zn","originalKeyword":"Zn"},{"id":"9c04c998-7776-452c-ac77-f37b89ac6924","keyword":"Ael扩渗","originalKeyword":"Ael扩渗"},{"id":"904381b6-568b-4e32-8231-b635f5f8e715","keyword":"扩渗温度","originalKeyword":"扩渗温度"},{"id":"5fc4b9c5-7777-4f2b-8333-3a1f14981b49","keyword":"扩渗时间","originalKeyword":"扩渗时间"},{"id":"1ee3d1f1-5d48-462a-811b-844469b5c43d","keyword":"金属间化合物","originalKeyword":"金属间化合物"},{"id":"169084da-dfa6-45fb-bc68-fe32384b4a37","keyword":"形成机制","originalKeyword":"形成机制"}],"language":"zh","publisherId":"clbh200811002","title":"纯镁材表面Zn,Al混合粉合金扩渗层形成的机制","volume":"41","year":"2008"},{"abstractinfo":"对纯镁进行了表面渗锌处理,研究了扩渗温度及扩渗时间对于合金化渗层组织、相结构及反应层连续性的影响.结果表明:扩渗温度的选择有一个合适的范围,温度过低,扩渗速度太慢甚至Zn元素原子的能量达不到其激活能,不能产生活性原子,扩渗过程无法进行.温度过高虽然有利于形成合金化渗层,但会使基体晶粒粗化,甚至改变整个基体,而且,温度过高不利于反应层(金属间化合物区)的稳定;扩渗时间的延长会促使Zn的进入量和金属间化合物的生成量增加,并削弱晶界扩散优势的影响,最终使固溶层和反应层趋于均匀化.要形成连续的反应层,扩渗温度应控制在400℃~420℃,相应的扩渗时间为8 h以上.","authors":[{"authorName":"","id":"96bbd909-8052-46b6-a010-abb1a2ae4e79","originalAuthorName":"刘玉高"},{"authorName":"马幼平","id":"e9b7f239-6180-44be-b6e6-1661bae60f6d","originalAuthorName":"马幼平"},{"authorName":"王丰产","id":"49d658ee-9180-4e92-b206-721d54ab597c","originalAuthorName":"王丰产"},{"authorName":"王向锋","id":"93bbedf9-9a8b-47b0-9649-d5561e4fd05a","originalAuthorName":"王向锋"},{"authorName":"赵峰","id":"85f489ae-0eb4-43f6-ba85-623f50dac998","originalAuthorName":"赵峰"},{"authorName":"张远芬","id":"ee8b4c5b-33f7-45f2-8790-aad8eb9070d4","originalAuthorName":"张远芬"}],"doi":"10.3969/j.issn.1009-9964.2006.03.004","fpage":"15","id":"93625333-8d79-417b-86a4-d39c8acf0308","issue":"3","journal":{"abbrevTitle":"TGYJZ","coverImgSrc":"journal/img/cover/TGYJZ.jpg","id":"60","issnPpub":"1009-9964","publisherId":"TGYJZ","title":"钛工业进展"},"keywords":[{"id":"40ebc5c9-44e7-409e-b518-50d1cef0e24c","keyword":"扩散温度","originalKeyword":"扩散温度"},{"id":"83f59010-5349-42f9-8232-ae72cfdede0d","keyword":"扩散时间","originalKeyword":"扩散时间"},{"id":"58b92a25-fb56-4208-b810-937ca4cea792","keyword":"连续性","originalKeyword":"连续性"},{"id":"0ada7843-7d65-455a-b986-8dd6264fcf64","keyword":"金属间化合物","originalKeyword":"金属间化合物"}],"language":"zh","publisherId":"tgyjz200603004","title":"纯镁渗锌处理表面合金化机制研究","volume":"23","year":"2006"},{"abstractinfo":"研究了在循环载荷作用下V形和线形缺口X70管线钢试样在近中性溶液中的应力腐蚀裂纹的扩展行为.结果表明:线形缺口比V形缺口更容易使裂纹扩展,其原因是线形缺口试样的应力集中系数大于V形缺口试样的,且裂纹扩展速度随应力比的降低而增加;在裂纹扩展初期,环境是主要的影响因素,随着裂纹扩展的不断进行,力学作用逐渐增强,当应力强度因子幅△K达到某一值时,裂纹由稳定扩展转变为不稳定的快速扩展.","authors":[{"authorName":"郭浩","id":"5be80399-fb55-4403-a7f3-2dea014938e0","originalAuthorName":"郭浩"},{"authorName":"","id":"18498fb6-c290-4020-a91d-bd6607fc8caa","originalAuthorName":"刘玉高"},{"authorName":"李光福","id":"b14a8d69-9c13-4201-a794-d718753af119","originalAuthorName":"李光福"},{"authorName":"杨武","id":"5e5c357a-a641-44db-a31b-6b66929de36d","originalAuthorName":"杨武"}],"doi":"","fpage":"39","id":"bd390fc7-34a3-4a8f-80ad-5d916d58a68c","issue":"4","journal":{"abbrevTitle":"JXGCCL","coverImgSrc":"journal/img/cover/JXGCCL.jpg","id":"45","issnPpub":"1000-3738","publisherId":"JXGCCL","title":"机械工程材料"},"keywords":[{"id":"35c5c87d-cfe0-40f3-8cc2-5417b536403c","keyword":"X70管线钢","originalKeyword":"X70管线钢"},{"id":"d62114c5-9864-4818-9cf8-3b97e8ab9606","keyword":"循环载荷","originalKeyword":"循环载荷"},{"id":"fe2da01a-5255-4a7a-98d9-b75a00b1d9ef","keyword":"缺口","originalKeyword":"缺口"},{"id":"aef4aab9-9c74-449b-bcb0-12d8efe12e70","keyword":"应力集中系数","originalKeyword":"应力集中系数"},{"id":"5549cdce-6dc7-4411-a4e4-7ff9ef5072cb","keyword":"裂纹扩展","originalKeyword":"裂纹扩展"}],"language":"zh","publisherId":"jxgccl200904011","title":"循环载荷作用下X70管线钢在近中性溶液中应力腐蚀裂纹的扩展行为","volume":"33","year":"2009"},{"abstractinfo":"泰山指产于山东省泰山西麓区域的蛇纹石质,常呈深色外观.将从泰山产出与泰山文化结合,直接命名为“泰山”,可最大限度地开发应用.关键要找出其区别于辽宁岫以及其它产地蛇纹石质的主要鉴定特征,确定其产地.分别测试了辽宁岫岩、甘肃酒泉及新疆等几个与泰山相似的玉石,得出泰山产地特征的关键检测项目为:(1)颜色:以暗色调的绿色为主.(2)放大检查:常伴有金星状反光包体、白色柱状包体,有黑色矿物包体.(3)X荧光光谱分析:金属元素主要为Fe、Ni、Cr、Mn等元素,其含量明显高于岫产品,并且Ni/Cr=2~4,其它产地的产品的比值接近于1.开展泰山检测实验室须配备参考样品.","authors":[{"authorName":"程佑法","id":"7fe2b7ce-2b18-42c7-b9a0-e1b3e22a85f6","originalAuthorName":"程佑法"},{"authorName":"李建军","id":"1d146e17-7f9f-41f1-96f1-0e556bc940aa","originalAuthorName":"李建军"},{"authorName":"祝培明","id":"5d9e42e0-ccc7-48df-a120-de66adbb405a","originalAuthorName":"祝培明"},{"authorName":"范春丽","id":"65757d69-6c74-45d1-8201-176ab5e8ced8","originalAuthorName":"范春丽"},{"authorName":"山广祺","id":"12616c20-0d88-4c26-af0a-404f0f3757c1","originalAuthorName":"山广祺"}],"doi":"","fpage":"2324","id":"b8704fdb-0b28-44b3-b34f-056f6b133153","issue":"9","journal":{"abbrevTitle":"RGJTXB","coverImgSrc":"journal/img/cover/RGJTXB.jpg","id":"57","issnPpub":"1000-985X","publisherId":"RGJTXB","title":"人工晶体学报"},"keywords":[{"id":"7ea299df-11d4-4030-9126-00b225b1c06b","keyword":"泰山","originalKeyword":"泰山玉"},{"id":"1e7c0cb1-a373-4405-bf0d-82b5313f2e56","keyword":"蛇纹石","originalKeyword":"蛇纹石玉"},{"id":"ca53440a-5050-44a3-92f3-9bdc5f29225f","keyword":"产地特征","originalKeyword":"产地特征"},{"id":"e4501985-f633-4ad2-b6a5-6cda1d8ac956","keyword":"命名","originalKeyword":"命名"}],"language":"zh","publisherId":"rgjtxb98201409026","title":"泰山的产地特征及命名","volume":"43","year":"2014"},{"abstractinfo":"为实现对环境及食品样品中黄曲霉毒素B1的灵敏检测,通过优化一系列试剂盒参数,研制了一步间接竞争ELISA检测试剂盒.优化后的包被缓冲液为90 mmol·L-1、pH 4.6的柠檬酸缓冲液,最佳反应pH值为7.4,抗体包被浓度为0.2μg·mL-1, HRP?BSA?AFB1稀释比为1/4000,标品稀释液为含7%甲醇的PBST溶液.优化后试剂盒IC50值为66 pg·mL-1,检测限为7.6 pg·mL-1,检测线性范围为10—810 pg·mL-1.试剂盒对不同AFB1添加水平(0.5μg·kg-1,1μg·kg-1)的玉米、豆粕和鱼粉样品平均回收率为108.4%—134.8%.对玉米、豆粕和鱼粉样品各20份盲样测试结果表明,试剂盒检测结果与HPLC?MS/MS检测结果吻合.","authors":[{"authorName":"孙清","id":"7c3952a1-ed28-42aa-ac3b-36375413d269","originalAuthorName":"孙清"},{"authorName":"李谷丰","id":"601d124b-ad4b-4b0d-9fec-247a975f9826","originalAuthorName":"李谷丰"},{"authorName":"邓乾民","id":"ae19371f-fb9c-4aca-b27d-0b1b0c765804","originalAuthorName":"邓乾民"},{"authorName":"杰民","id":"73684e21-6b8b-457a-9c83-08853e202204","originalAuthorName":"刘杰民"},{"authorName":"时国庆","id":"e173ff6d-5070-4d1a-86e7-32efd0ddb666","originalAuthorName":"时国庆"}],"doi":"10.7524/j.issn.0254-6108.2015.10.2015031001","fpage":"1845","id":"8a1ff06a-ff36-4b00-a602-559a38b37d70","issue":"10","journal":{"abbrevTitle":"HJHX","coverImgSrc":"journal/img/cover/HJHX.jpg","id":"43","issnPpub":"0254-6108","publisherId":"HJHX","title":"环境化学 "},"keywords":[{"id":"d1b1a8d6-4d80-491a-ba27-73c28edb94a8","keyword":"ELISA","originalKeyword":"ELISA"},{"id":"95516de1-9ed5-4e54-add1-f64b0f8f9cf4","keyword":"黄曲霉毒素B1","originalKeyword":"黄曲霉毒素B1"},{"id":"912060f2-2559-434a-9041-a3cc63ed6aa5","keyword":"残留","originalKeyword":"残留"},{"id":"a45ad9a5-cee4-4439-a8a4-3342ff52c4c4","keyword":"试剂盒","originalKeyword":"试剂盒"}],"language":"zh","publisherId":"hjhx201510012","title":"灵敏黄曲霉毒素B1酶联免疫试剂盒的研制及应用?孙清1,2李谷丰3邓乾民3杰民1,2时国庆2??","volume":"","year":"2015"},{"abstractinfo":"文中,关于贝氏体形成机制,包括形核过程的文献很少被引述。作者(等)的主要论点为贝氏体铁素体以无扩散、非切变机制在奥氏体内贫碳区形核,并未引述形成贫碳区的必要条件。本文作者强调,在钢及铜合金中,不可能由Spinodal分解和位错偏聚形成贫溶质区。等的理念未得到先进理论观点和精细实验结果的支持。在文中,据此对临界核心大小和形核能的计算并无显著意义,期望青年学者对贝氏体相变机制作进一步研究。","authors":[{"authorName":"徐祖耀","id":"f5bc6b26-ec4d-45e7-a1da-067daa9d3115","originalAuthorName":"徐祖耀"}],"doi":"","fpage":"158","id":"66a9e9e8-09a0-408c-8c33-bc00aeff35c0","issue":"2","journal":{"abbrevTitle":"CLRCLXB","coverImgSrc":"journal/img/cover/CLRCLXB.jpg","id":"15","issnPpub":"1009-6264","publisherId":"CLRCLXB","title":"材料热处理学报"},"keywords":[{"id":"5224cfe0-dd6d-4ccc-aac3-2bed80f388a5","keyword":"贝氏体形核","originalKeyword":"贝氏体形核"},{"id":"cae16aae-8a2b-43f5-9886-1ca5759c5972","keyword":"扩散机制","originalKeyword":"扩散机制"},{"id":"36bc9f8f-ee13-4c27-8020-c2c5b0dfca8f","keyword":"切变机制","originalKeyword":"切变机制"},{"id":"a3bb808d-ba7a-4c9a-90ff-d5e59a6a0f1a","keyword":"贫碳区","originalKeyword":"贫碳区"}],"language":"zh","publisherId":"jsrclxb201202033","title":"评宗昌等《贝氏体铁素体的形核》一文","volume":"33","year":"2012"},{"abstractinfo":"利用质子激发X射线荧光分析(PIXE)测试分析汝官瓷、张公巷窑青瓷和家门窑青瓷样品的主要化学组成,用多元统计判别分析方法对数据进行分析,以确定它们的分类和起源关系.结果表明:汝官瓷、张公巷窑青瓷和家门窑青瓷釉基本能很好的区分;但是胎区分得不是很理想,张公巷窑青瓷的胎可以和汝官瓷、家门窑青瓷胎很好的区分,汝官瓷胎和家门窑青瓷胎有个别样品不能分开.","authors":[{"authorName":"蔡敏敏","id":"bf1f4660-208a-4999-ac81-266bf48c5bcb","originalAuthorName":"蔡敏敏"},{"authorName":"李国霞","id":"f8d3a4dc-7472-4dd6-9382-9f4430feef58","originalAuthorName":"李国霞"},{"authorName":"赵维娟","id":"9572b140-eca3-4192-af6e-ab9fdb21502b","originalAuthorName":"赵维娟"},{"authorName":"李融武","id":"e2d1fb82-016c-4ae3-9ee6-0cabbe60a2a0","originalAuthorName":"李融武"},{"authorName":"赵文军","id":"ea875a05-c1f7-4a8f-b405-2005de7db87c","originalAuthorName":"赵文军"},{"authorName":"承焕生","id":"9ff5fa85-a1fb-4cd2-bdc3-3bd240fd6894","originalAuthorName":"承焕生"},{"authorName":"郭敏","id":"d4074d21-787e-429b-8123-a13fcf5ce433","originalAuthorName":"郭敏"}],"doi":"","fpage":"1363","id":"f1ea8842-b3fe-42a2-9557-aa4c186cac5a","issue":"6","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"d281b6ff-a4b5-41d8-ad69-47236e801de5","keyword":"汝官瓷","originalKeyword":"汝官瓷"},{"id":"adf8b648-9625-4b38-96ff-ec6174d0c5d4","keyword":"张公巷窑青瓷","originalKeyword":"张公巷窑青瓷"},{"id":"3a61e23c-a3f8-43e6-84fc-1b7cd4edef5b","keyword":"家门窑青瓷","originalKeyword":"刘家门窑青瓷"},{"id":"494e2983-99cd-4c53-a919-4bfad5b7c54a","keyword":"判别分析","originalKeyword":"判别分析"}],"language":"zh","publisherId":"gsytb201206005","title":"汝官瓷、张公巷窑青瓷和家门窑青瓷的判别分析研究","volume":"31","year":"2012"},{"abstractinfo":"利用化学分析、X射线粉晶衍射、差热及热重分析、红外光谱、扫描电镜及可见光吸收光谱等现代测试方法对俄罗斯穆伦地区查罗石进行了系统的矿物学特征的研究,测得查罗石的主要矿物查罗石(紫硅碱钙石)是一种富钙、钾、钠的硅酸盐矿物;含有一定的结晶水和结构水.主要矿物查罗石(紫硅碱钙石)属单斜晶系,晶胞参数为:a0=1.9626nm,b0=3.2110nm,c0=0.7198nm,β=93.76°.扫描电子显微镜下观察,查罗石主要由细长矩形的片状查罗石组成,查罗石晶体呈定向排列,晶体大小平均长约150~200μm,宽约10~20μm左右,发育良好的多组波状弯曲的片状查罗石晶体及其纤维变晶结构是查罗石具有丝绢光泽的原因.建立了查罗石矿物的标准红外吸收光谱图.最后初步探讨了查罗石的致色机理:Mn3+是产生查罗石紫色的主要原因.","authors":[{"authorName":"李雯雯","id":"386e9067-1d2d-4203-b027-1854977ed0b6","originalAuthorName":"李雯雯"},{"authorName":"吴瑞华","id":"6efb3c65-1577-4f28-88d5-34ac0c957347","originalAuthorName":"吴瑞华"},{"authorName":"陈鸣鹤","id":"d0f3b032-ef23-436e-a41c-acb9f5377c3f","originalAuthorName":"陈鸣鹤"}],"doi":"","fpage":"71","id":"76948c78-a7d6-40c9-b1d1-0839acbb3911","issue":"1","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"dd325c0e-e37c-4d1d-b131-8b1d44de0c3e","keyword":"查罗石","originalKeyword":"查罗石玉"},{"id":"64ea13bd-5a8a-49bf-b3b7-1ebdefd4f8e6","keyword":"紫硅碱钙石","originalKeyword":"紫硅碱钙石"},{"id":"f602b988-f6a5-4f24-96a4-80159a697257","keyword":"矿物学","originalKeyword":"矿物学"},{"id":"2fad16cf-d7db-4ebf-a82a-db033a41c530","keyword":"俄罗斯","originalKeyword":"俄罗斯"}],"language":"zh","publisherId":"gsytb200801017","title":"俄罗斯穆伦地区查罗石矿物学特征的研究","volume":"27","year":"2008"},{"abstractinfo":"本文采用质子激发X射线荧光分析(PIXE)技术测试了34个汝官瓷样品、30个蓝色系列钧官瓷样品(不含红釉系列)和17个家门窑青瓷样品的主量化学组成含量,根据这些样品的主量化学组成含量数据,应用多元统计分析方法进行分析.结果表明:汝官瓷、钧官瓷和家门窑青瓷的釉样品能够较好的区分开;但是3种瓷胎并不能很好的分开.","authors":[{"authorName":"肖朋飞","id":"6c5bc42f-0f99-48b4-b412-749a9ae0e046","originalAuthorName":"肖朋飞"},{"authorName":"赵红梅","id":"27edfee9-f617-4a36-af10-1a11a2aec85c","originalAuthorName":"赵红梅"},{"authorName":"李融武","id":"019184bd-8770-4aad-9618-4e2e6642f646","originalAuthorName":"李融武"},{"authorName":"赵文军","id":"6c10bb80-2026-4274-9965-bf564b102cc6","originalAuthorName":"赵文军"},{"authorName":"李国霞","id":"6f63b95a-67cb-4f68-b4b5-7c0b6f8f38e7","originalAuthorName":"李国霞"},{"authorName":"赵维娟","id":"ee11e4bc-a40c-4de3-90c4-e81dd16a55e3","originalAuthorName":"赵维娟"},{"authorName":"承焕生","id":"528f9874-c9c9-4258-bc3c-5a0d9ea8b362","originalAuthorName":"承焕生"}],"doi":"","fpage":"312","id":"3b352bdd-7627-42ad-a3b3-45e88dc561eb","issue":"2","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"080b7cee-826f-4a82-af62-9feed6531e66","keyword":"汝官瓷","originalKeyword":"汝官瓷"},{"id":"684a6128-65b6-45ce-be61-e74720b4c844","keyword":"钧官瓷","originalKeyword":"钧官瓷"},{"id":"14ccb09f-07d1-4f4b-bb41-c0ad3eea1fa0","keyword":"家门窑青瓷","originalKeyword":"刘家门窑青瓷"},{"id":"4b254520-d0a1-406e-a9ef-92267cd23fb0","keyword":"PIXE","originalKeyword":"PIXE"},{"id":"12b26595-24a4-4ea9-b303-ae046a74c72d","keyword":"因子分析","originalKeyword":"因子分析"}],"language":"zh","publisherId":"gsytb201102013","title":"汝官瓷、钧官瓷和家门窑青瓷的多元统计分析","volume":"30","year":"2011"}],"totalpage":2233,"totalrecord":22329}