{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"应用阳极覆膜、稀酸浸蚀、组织观察和拉伸试验等方法,对PS版用国产热轧带坯、普通铸轧带坯和电磁铸轧带坯制备的铝板与日本进口优质铝板的显微组织与性能进行了比较,分析了生产工艺对铝板组织与性能的影响.结果表明:国产热轧和铸轧铝板的显微组织相似,经中间退火铝板的较未经退火的细小均匀;电磁铸轧及较高的硅、铁含量均可细化组织;国产铝板的组织均匀性较进口铝板的有一定差距;热轧铝板中的<span style=\"color:red\">FeAl2</span>颗粒细小、分布弥散,较普通铸轧铝板中的易腐蚀;电磁铸轧铝板中<span style=\"color:red\">FeAl2</span>颗粒的密度和尺寸较普通铸轧铝板的小,分布也更加均匀;铝板的抗拉强度和伸长率受中间退火后冷轧变形量的影响.","authors":[{"authorName":"毛大恒","id":"be0e6c83-accb-4e3d-acea-9da66a5de08a","originalAuthorName":"毛大恒"},{"authorName":"杨栋","id":"5598afc9-3b57-44da-8ec7-e02a7edf8601","originalAuthorName":"杨栋"}],"doi":"","fpage":"40","id":"f24543ed-5967-42bf-91b8-b74814362a71","issue":"7","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":"3edaf065-b338-4d45-8a88-c11eba138194","keyword":"PS版","originalKeyword":"PS版"},{"id":"b7ba370b-a416-4ace-979c-9f38e26e0cce","keyword":"铝板","originalKeyword":"铝板"},{"id":"7ac2f3a6-ba65-43f3-9f52-de1f155586f9","keyword":"腐蚀","originalKeyword":"腐蚀"},{"id":"b1d4fc3d-e527-449b-b2e4-c429b74dc928","keyword":"<span style=\"color:red\">FeAl2</span>","originalKeyword":"FeAl2"}],"language":"zh","publisherId":"jxgccl200907012","title":"进口与国产PS版用铝板组织与性能的对比","volume":"33","year":"2009"},{"abstractinfo":"以高纯镁砂（5～<span style=\"color:red\">2</span>、≤<span style=\"color:red\">2</span>和≤0．088 mm）、电熔铁铝尖晶石（3～1和≤0．088 mm）为原料，亚硫酸纸浆废液为结合剂，配料混练后机压成型为36 mm ×36 mm及25 mm ×25 mm ×140 mm的试样，经110℃24 h烘干，然后于1650℃3 h热处理。采用热膨胀仪、弹性模量仪、SEM等对试样进行了分析研究，分别研究了<span style=\"color:red\">FeAl2</span> O4粒度（3～1或≤0．088 mm）及加入量（质量分数为0、<span style=\"color:red\">2</span>％、4％、6％、8％、10％、12％）对方镁石-铁铝尖晶石质耐火材料性能的影响。结果表明：随着<span style=\"color:red\">FeAl2</span> O4添加量的增加，试样的常温强度、线膨胀系数、弹性模量降低。<span style=\"color:red\">FeAl2</span> O4以细粉形式加入时，试样的常温强度、弹性模量比以颗粒形式加入的要大；加入约4％（w）<span style=\"color:red\">FeAl2</span> O4就能明显改善镁质制品的抗热震性，其抗热震提高的机制以微裂纹增韧为主；固定尖晶石加入量为8％（w），尖晶石以细粉形式加入时，试样中<span style=\"color:red\">FeAl2</span> O4可完全反应为（Mg，Fe）Al<span style=\"color:red\">2</span> O4，以颗粒形式加入时，仅会在颗粒周围生成少量（Mg，Fe）Al<span style=\"color:red\">2</span> O4。","authors":[{"authorName":"周芬","id":"d2da4ae5-5ad4-45f6-b8f5-4ee0995edd45","originalAuthorName":"周芬"},{"authorName":"赵惠忠","id":"63a1c37a-11cf-47da-b621-46a0db5092d9","originalAuthorName":"赵惠忠"},{"authorName":"王立峰","id":"8cf243bb-a11b-4c35-91eb-28c47691d68c","originalAuthorName":"王立峰"},{"authorName":"慕松林","id":"9cfde7c8-199a-4969-b1d0-00186a0f53ce","originalAuthorName":"慕松林"},{"authorName":"崔江涛","id":"bc1a67f5-ccc6-4bde-8098-9aa1b5fd262c","originalAuthorName":"崔江涛"},{"authorName":"吕永峰","id":"a46e35de-aba5-40cc-9db2-f22e42bbd7b1","originalAuthorName":"吕永峰"}],"doi":"10.3969/j.issn.1001-1935.2014.02.003","fpage":"89","id":"023faea9-edfd-40a4-854d-9cfbd4778c60","issue":"2","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料   "},"keywords":[{"id":"8f591adc-0933-4e05-964e-42d98df9a882","keyword":"方镁石-铁铝尖晶石","originalKeyword":"方镁石-铁铝尖晶石"},{"id":"d377d369-886e-453d-9376-0d153e5f52e0","keyword":"耐火材料","originalKeyword":"耐火材料"},{"id":"fb644232-d108-44fe-b147-7e682c25fde3","keyword":"粒度","originalKeyword":"粒度"},{"id":"b4020de6-cb59-41c9-b8c2-4f8728bb7879","keyword":"显微结构","originalKeyword":"显微结构"},{"id":"c190fdf6-6f58-4f8b-82b7-6f85d462c4dc","keyword":"抗热震性","originalKeyword":"抗热震性"}],"language":"zh","publisherId":"nhcl201402003","title":"<span style=\"color:red\">FeAl2</span>O4对方镁石-铁铝尖晶石质耐火材料性能的影响","volume":"","year":"2014"},{"abstractinfo":"Heusler alloy Ni<span style=\"color:red\">2FeAl</span> has been synthesized by the melt-spinning technique. The dc magnetization and frequency-dependent ac susceptibility measurements reveal that this alloy exhibits the characteristic feature of superparamagnetism. This behaviour may be associated with a structural disorder stemming from the fast quenching after the heat treatment. The small frequency-dependent ac susceptibility shifts in the blocking temperature and the existence of a pronounced peak in FC magnetization as well as Vogel - Fulcher activation processes indicate that intergranular interactions dominate in the melt-spun ribbons of Ni<span style=\"color:red\">2FeAl</span>.","authors":[],"categoryName":"|","doi":"","fpage":"","id":"c1810045-1b53-4013-acc6-0ac92b85e01b","issue":"9","journal":{"abbrevTitle":"JOPM","id":"f0e359df-48a6-4a7f-b16d-2389d3e793ee","issnPpub":"0953-8984","publisherId":"JOPM","title":"Journal of Physics-Condensed Matter"},"keywords":[{"id":"f9e9b2af-540c-4359-a550-510ff6bca5d6","keyword":"magnetic-properties;spin-glass;heusler alloys;particles;films;ferromagnetism;transformation;model","originalKeyword":"magnetic-properties;spin-glass;heusler alloys;particles;films;ferromagnetism;transformation;model"}],"language":"en","publisherId":"0953-8984_2007_9_1","title":"Superparamagnetic behaviour in melt-spun Ni<span style=\"color:red\">2FeAl</span> ribbons","volume":"19","year":"2007"},{"abstractinfo":"A simple modified analytic EAM model for bcc Fe and fcc Al metals is used to calculate the lattice constant and elastic constants of ordered intermetallic alloys of <span style=\"color:red\">FeAl</span>. The formation energies of vacancy and antisite defects, and migration energies of <span style=\"color:red\">FeAl</span> in the B<span style=\"color:red\">2</span> structure type are also calculated. The present calculations are quite in agreement with the experimental data and the results obtained by other authors.","authors":[],"categoryName":"|","doi":"","fpage":"734","id":"8a77690a-3996-44ea-963c-bbb6f0aff64f","issue":"9","journal":{"abbrevTitle":"ZFM","id":"a8e7c1f1-8127-4c84-a2e1-951df624518e","issnPpub":"0044-3093","publisherId":"ZFM","title":"Zeitschrift Fur Metallkunde"},"keywords":[{"id":"00c28a07-6b0a-40b5-a9b8-155f028abafc","keyword":"embedded-atom method;bcc transition-metals;b<span style=\"color:red\">2</span> structure;hcp metals;<span style=\"color:red\">feal</span>;fcc;aluminides","originalKeyword":"embedded-atom method;bcc transition-metals;b2 structure;hcp metals;feal;fcc;aluminides"}],"language":"en","publisherId":"0044-3093_2000_9_1","title":"Properties of point defects and diffusion of the B<span style=\"color:red\">2FeAl</span> alloy calculated by a modified analytic EAM model","volume":"91","year":"2000"},{"abstractinfo":"应用改进分析型EAM模型,系统计算了B<span style=\"color:red\">2FeAl</span>合金的晶格动力学性能,包括晶格常数、形成热、弹性常数、声子谱、态密度、比热、德拜温度和热膨胀系数等,并将计算结果与已有实验数据及其他理论计算结果进行了比较.总的来说,仅从合金组成元素的性质出发,不涉及合金本身性质而构建的改进分析型EAM模型成功地描述了B<span style=\"color:red\">2</span> <span style=\"color:red\">FeAl</span>合金原子间的相互作用,所得计算结果与实验值符合很好.","authors":[{"authorName":"孔毅","id":"f3d09fa9-67f7-4be6-ad1d-6817969a32e6","originalAuthorName":"孔毅"},{"authorName":"胡望宇","id":"e56a7f3b-06c0-4798-ac7b-6c2f782ea55a","originalAuthorName":"胡望宇"},{"authorName":"黄杨程","id":"d83fae78-384a-45d2-b0dd-54c732ad83fa","originalAuthorName":"黄杨程"},{"authorName":"舒小林","id":"51f18ae1-4c6c-491f-87e9-80e54ec8dc5d","originalAuthorName":"舒小林"}],"doi":"","fpage":"87","id":"24c63def-c020-42da-b7a2-6f2082784455","issue":"2","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"ff5b8a2d-f4fc-4dd8-a665-45f204db1691","keyword":"B<span style=\"color:red\">2</span> <span style=\"color:red\">FeAl</span>合金","originalKeyword":"B2 FeAl合金"},{"id":"7b7f422c-36e9-427c-8b58-86f945a95c20","keyword":"改进分析型EAM模型","originalKeyword":"改进分析型EAM模型"},{"id":"0ed55d11-ec4e-44cf-8a60-537fd9c953a8","keyword":"晶格动力学性能","originalKeyword":"晶格动力学性能"}],"language":"zh","publisherId":"xyjsclygc200302002","title":"B<span style=\"color:red\">2FeAl</span>合金晶格动力学的嵌入原子模型计算","volume":"32","year":"2003"},{"abstractinfo":"<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3复合膜层是聚变堆氚增殖包层及辅助涉氚系统结构材料首选的阻氚涂层.其制备过程通常需要铝化和氧化<span style=\"color:red\">2</span>个步骤,铝化是Al原子与基体Fe原子通过相互扩散在基体表面形成铁铝固溶体(Fe,Al)或Fe-Al金属间化合物过渡层;氧化是使铝化涂层表面选择性氧化形成Al<span style=\"color:red\">2</span>O3膜.该阻氚涂层的制备可采用物理气相沉积(PVD)、化学气相沉积(CVD)、热浸铝化(HDA)、包埋渗铝(PC)、等离子体喷涂(PS)和电化学沉积(ECD)等技术.相对而言,CVD、HDA和PC等3种技术有较好的应用前景,有望成为聚变堆中<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3阻氚涂层工程化制备的候选技术;而ECD技术因其制备过程容易控制、涂层性能稳定、可涂镀复杂结构件等特点在<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3阻氚涂层制备方面颇具吸引力.","authors":[{"authorName":"向鑫","id":"2ad9d56a-74dd-49a9-8422-306b8f0d3a37","originalAuthorName":"向鑫"},{"authorName":"张桂凯","id":"4eb5a12b-b587-4b37-a572-49b1b8d6448b","originalAuthorName":"张桂凯"},{"authorName":"汪小琳","id":"a0a92d6b-7240-4cbc-9a30-7f2fd790ee91","originalAuthorName":"汪小琳"},{"authorName":"赖新春","id":"7b1c9362-5f14-4dc4-9d4c-34e053528c06","originalAuthorName":"赖新春"}],"doi":"","fpage":"522","id":"e168255b-7747-4933-a4d6-dbdcae0dd02c","issue":"2","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"22dcb0ec-3bc8-4886-a008-1a4323c30f01","keyword":"<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3","originalKeyword":"FeAl/Al2O3"},{"id":"efff7c02-5277-43de-a4c4-8196f3456aec","keyword":"阻氚涂层","originalKeyword":"阻氚涂层"},{"id":"4f3eb516-c7a6-4a27-a665-1dd00aa5c3dd","keyword":"制备技术","originalKeyword":"制备技术"}],"language":"zh","publisherId":"xyjsclygc201602049","title":"<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3复合阻氚涂层制备技术的研究进展","volume":"45","year":"2016"},{"abstractinfo":"新型陶瓷刀具材料--<span style=\"color:red\">FeAl</span>金属间化合物/Al<span style=\"color:red\">2</span>O3陶瓷复合材料的制备、性能以及新型陶瓷刀具的应用.","authors":[{"authorName":"张玉军","id":"7082baa2-989e-4e8e-ade1-fb17c9884fe4","originalAuthorName":"张玉军"},{"authorName":"尹衍升","id":"67c2bc18-444c-47fa-ab83-ae417479c077","originalAuthorName":"尹衍升"},{"authorName":"王德云","id":"3018f568-7e44-4886-b7d4-60c83c1b45b7","originalAuthorName":"王德云"},{"authorName":"尹衍利","id":"a2613eb6-d5ce-43c3-9fd4-dece4b5f2a66","originalAuthorName":"尹衍利"},{"authorName":"孟昭敏","id":"ad5e3136-e198-4cad-b075-1a885cc25b22","originalAuthorName":"孟昭敏"}],"doi":"10.3969/j.issn.1000-3738.2000.02.011","fpage":"30","id":"5ec23981-0f32-4e6b-8765-6057385b70b0","issue":"2","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":"12767c8a-8cc0-4e31-9da3-dac4b67619a1","keyword":"金属间化合物","originalKeyword":"金属间化合物"},{"id":"56eb17b0-cd7f-4193-b05d-5e783eadb528","keyword":"陶瓷","originalKeyword":"陶瓷"},{"id":"30793ef6-d77c-41f1-91c3-0486b9b96be9","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"0932a353-e861-4c25-80e6-09c470ccd8d6","keyword":"刀具材料","originalKeyword":"刀具材料"}],"language":"zh","publisherId":"jxgccl200002011","title":"<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3陶瓷基复合材料--一种新型刀具材料","volume":"24","year":"2000"},{"abstractinfo":"对不同成分配比的Fe<span style=\"color:red\">2</span>O3粉和Al粉末生坯分别进行900,1 000,1 100℃烧结,利用自蔓延反应放热和加热炉加热的综合作用制备<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3复合材料.用扫描电镜、维氏硬度计、M-200型磨损试验机对烧结合金的金相组织、硬度以及磨损性能进行测试.结果表明:Fe<span style=\"color:red\">2</span>O3-Al在适当配比和烧结温度下,可以合成以<span style=\"color:red\">FeAl</span>为基体、Al<span style=\"color:red\">2</span>O3和铝铁金属间化合物为增强相的复合材料；试样烧结前后相对密度受Al含量和烧结温度的影响,Al含量越高,烧结温度越高,相对密度越大；Al的质量分数为40.3％,1 100℃烧结后的样品具有最高硬度和最佳耐磨性能.","authors":[{"authorName":"王晓亮","id":"b88c6ea2-2206-47ea-83e5-fbe58eaebdcd","originalAuthorName":"王晓亮"},{"authorName":"张琴","id":"b31c7391-aa87-49c4-942a-be61a01df6c1","originalAuthorName":"张琴"},{"authorName":"韩子钰","id":"f650a842-d0c9-4edf-80c4-4e37fa2a26ff","originalAuthorName":"韩子钰"},{"authorName":"盖如凯","id":"29afcb9c-77b3-43bf-b4f7-c852347c4d2f","originalAuthorName":"盖如凯"},{"authorName":"吴礽品","id":"8e35217b-5e8d-4333-821e-aab1481c3940","originalAuthorName":"吴礽品"},{"authorName":"杨绍斌","id":"469b8db3-92fe-4d3a-884e-c12042ada853","originalAuthorName":"杨绍斌"}],"doi":"","fpage":"125","id":"af3e4c64-2490-49db-9f50-3c117e0fdc67","issue":"1","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":"b4d2655e-b283-4dce-80ac-cfa93fbe96ed","keyword":"自蔓延","originalKeyword":"自蔓延"},{"id":"cb124926-2767-4f64-920c-eac0e3ef5337","keyword":"<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3复合材料","originalKeyword":"FeAl/Al2O3复合材料"},{"id":"1ae0cd7e-4a00-4ac2-85a0-53e4e622cb2c","keyword":"成分配比","originalKeyword":"成分配比"},{"id":"c29a5d65-cc02-4c07-aee6-c864b0cf99fc","keyword":"烧结温度","originalKeyword":"烧结温度"}],"language":"zh","publisherId":"bqclkxygc201301036","title":"反应烧结制备<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3复合材料的研究","volume":"36","year":"2013"},{"abstractinfo":"采用室温熔盐电镀-热处理-氧化复合新技术在HR-<span style=\"color:red\">2</span>不锈钢上制备<span style=\"color:red\">FeAl</span>/Al<,<span style=\"color:red\">2</span>>O<,3>涂层,研究热处理温度与时间的影响,并表征涂层的形貌和性能.结果表明:25℃下,采用AlCl<,3>-MEIC(氯化1-甲基3-乙基咪唑)室温熔盐在HR-<span style=\"color:red\">2</span>钢表面获得结合良好的纯铝镀层,电沉积速率为15 μm/h.650～750℃热处理1～30 h,在HR-<span style=\"color:red\">2</span>钢表面制得成分渐变、冶金结合、无缝隙与裂纹的3～27 μm铝化物涂层,涂层截面为3层或<span style=\"color:red\">2</span>层结构;涂层生长速率与热处理温度的关系符合Arrhenius公式,活化能为116.9 kJ/mol;涂层的形成过程受原子扩散过程控制,其厚度随热处理时间变化星抛物线关系.700℃,4 h热处理涂层在10<'-<span style=\"color:red\">2</span>>Pa O<,<span style=\"color:red\">2</span>>中继续氧化80 h后,最终涂层由约30 μm厚的<span style=\"color:red\">FeAl</span>扩散层及约110 nm的γ-Al<,<span style=\"color:red\">2</span>>O<,3>膜组成,600℃下该涂层使HR-<span style=\"color:red\">2</span>不锈钢的氘渗透率降低3个数量级;涂层可抗750℃～室温冷热循环20次以上.该方法有望成为ITER中氚包容容器表面阻氚层的候选制备新方法.","authors":[{"authorName":"张桂凯","id":"4926ce70-7e40-4643-a7a3-b1b17a7728c4","originalAuthorName":"张桂凯"},{"authorName":"李炬","id":"3b12f83b-49db-4fa1-8f3a-a0c172e43327","originalAuthorName":"李炬"},{"authorName":"陈长安","id":"6b046b70-a82a-489f-abb4-07f09f62991d","originalAuthorName":"陈长安"},{"authorName":"黄志勇","id":"12f6c41f-4edd-4a95-9c12-7cb56b1e5945","originalAuthorName":"黄志勇"},{"authorName":"凌国平","id":"8cef531e-2c3c-4006-b826-f5aae9034a55","originalAuthorName":"凌国平"}],"doi":"","fpage":"1120","id":"fe02e238-d718-4441-8e41-defa780f609f","issue":"6","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"d5521f5b-fbc7-4d00-9bf8-ad8137d5519f","keyword":"铝化物涂层","originalKeyword":"铝化物涂层"},{"id":"16ba9f46-5d68-47a8-bf7b-ee95d73384e0","keyword":"室温熔盐电镀","originalKeyword":"室温熔盐电镀"},{"id":"b00b728b-f89c-4f5d-acb2-64c960c79777","keyword":"热处理","originalKeyword":"热处理"},{"id":"6c69e140-e6f9-42f0-823e-3b48fc706bdb","keyword":"氧化","originalKeyword":"氧化"},{"id":"008952ea-20a5-4078-b0f4-12208a5b9895","keyword":"阻氚层","originalKeyword":"阻氚层"}],"language":"zh","publisherId":"xyjsclygc201106039","title":"<span style=\"color:red\">FeAl</span>/Al<span style=\"color:red\">2</span>O3阻氚层的制备新方法与性能","volume":"40","year":"2011"},{"abstractinfo":"采用还原处理技术处理乏燃料,形成的LiO<span style=\"color:red\">2</span>质量分数高达3%以上,这易使反应容器及传送熔盐的装置腐蚀加快.以浸没法研究了<span style=\"color:red\">FeAl</span>金属间化合物在750℃熔融LiCl和LiCl-Li<span style=\"color:red\">2</span>O中的腐蚀行为.<span style=\"color:red\">FeAl</span>在熔融LiCl-Li<span style=\"color:red\">2</span>O中的腐蚀比熔融LiCl中的腐蚀快.<span style=\"color:red\">FeAl</span>合金在750℃熔融LiCl和LiCl-Li<span style=\"color:red\">2</span>O中表现出相同的腐蚀趋势:腐蚀初期出现快速腐蚀现象,后期由于受扩散机制的控制,腐蚀速度变得很慢,因而腐蚀动力学曲线呈抛物线形状.","authors":[{"authorName":"刘瑞岩","id":"3df0ca54-b5a4-4068-9b10-4c3df6e8a269","originalAuthorName":"刘瑞岩"},{"authorName":"王旭","id":"777419e1-db9c-448f-a707-607afb52fe39","originalAuthorName":"王旭"},{"authorName":"王秀敏","id":"e53bb685-7f9b-4b93-a761-4ccb1a9a21e7","originalAuthorName":"王秀敏"},{"authorName":"张俊善","id":"9b694ec7-65b1-4ec7-9e32-f20b513137ec","originalAuthorName":"张俊善"},{"authorName":"祝美丽","id":"2aaede8d-cbc2-44d5-8057-e8f70a5d6431","originalAuthorName":"祝美丽"},{"authorName":"李海英","id":"40bd1041-c300-459b-a876-6d021a3eb5fa","originalAuthorName":"李海英"}],"doi":"10.3969/j.issn.1001-1560.2004.10.001","fpage":"1","id":"5127cddf-d198-4649-bcb8-ee1d8a7101fe","issue":"10","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"e16a2633-5533-4d2c-81aa-79f01dfed748","keyword":"腐蚀行为","originalKeyword":"腐蚀行为"},{"id":"a2735283-c71a-4fea-9d2a-2ab3251247dc","keyword":"<span style=\"color:red\">FeAl</span>材料","originalKeyword":"FeAl材料"},{"id":"6e30cd42-64df-4d05-a647-2a9387bd7851","keyword":"LiCl熔融盐","originalKeyword":"LiCl熔融盐"},{"id":"6cdff5c4-cc64-429c-9e95-99ba86d0a395","keyword":"LiCl-Li<span style=\"color:red\">2</span>O熔融盐","originalKeyword":"LiCl-Li2O熔融盐"}],"language":"zh","publisherId":"clbh200410001","title":"<span style=\"color:red\">FeAl</span>金属间化合物在熔融LiCl和LiCl-Li<span style=\"color:red\">2</span>O中的腐蚀行为","volume":"37","year":"2004"}],"totalpage":7991,"totalrecord":79904}