{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"以聚丙烯腈(PAN)基炭纤维(Cf)针刺整体毡为预制体,用化学气相渗透(CVI)法制备炭纤维增强炭基体(C/C)的多孔坯体,采用熔融渗硅(MSI)法制备C/C-SiC复合材料,研究了渗剂中<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>对复合材料组织结构和力学性能的影响.结果表明:C/C坯体反应溶渗硅后复合材料的物相组成为SiC相、C相及残留Si相.随着渗剂中<span style=\"color:red\">Al</span>量的增加,材料组成相中的<span style=\"color:red\">Al</span>相也增加而其它相减少;SiC主要分布在炭纤维周围,残留Si相分布在远离炭纤维处,而此处几乎不含<span style=\"color:red\">Al</span>;当渗剂中<span style=\"color:red\">Al</span>量由0增加到10%时,复合材料的抗弯强度由116.7 MPa增加到175.4 MPa,提高了50.3%,断裂韧性由5.8 MPa·m1/2增加到8.6 MPa·m1/2,提高了48.2%.<span style=\"color:red\">Al</span>相的存在使复合材料基体出现韧性断裂的特征.","authors":[{"authorName":"冉丽萍","id":"d3b3e83a-3710-4da9-89b4-ea05ce8a6191","originalAuthorName":"冉丽萍"},{"authorName":"易茂中","id":"f6524f7c-bcb9-4bc3-b819-1ddfa228f693","originalAuthorName":"易茂中"},{"authorName":"王朝胜","id":"f0797d3a-65d9-4167-a7b7-5c91d00e0404","originalAuthorName":"王朝胜"},{"authorName":"彭可","id":"50502b36-0139-4811-b4d5-b5c8fecceb7e","originalAuthorName":"彭可"},{"authorName":"黄伯云","id":"5fe2d193-a3b1-488e-85f8-02afab05901e","originalAuthorName":"黄伯云"}],"doi":"10.3321/j.issn:1000-3851.2006.05.007","fpage":"34","id":"9632e7e8-1057-4916-b698-0e903b629792","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":"0c5220f2-95ae-459f-8fc8-8eca01ec4d9b","keyword":"C/C-SiC复合材料","originalKeyword":"C/C-SiC复合材料"},{"id":"2e543d91-fec6-43cf-b829-d37485179ae3","keyword":"C/C坯体","originalKeyword":"C/C坯体"},{"id":"0e70f311-b290-48ee-b326-5c7ea74e17b8","keyword":"熔渗Si","originalKeyword":"熔渗Si"},{"id":"e7c178a3-636a-4201-b2ca-0e1c0b369721","keyword":"<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>","originalKeyword":"添加Al"},{"id":"fe161bd7-fbcc-423d-ad57-4d4d8a451e71","keyword":"显微组织","originalKeyword":"显微组织"},{"id":"8bc3db91-85e6-4691-be19-ef98fd145e02","keyword":"力学性能","originalKeyword":"力学性能"}],"language":"zh","publisherId":"fhclxb200605007","title":"<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>对MSI制备C/C-SiC复合材料组织和力学性能的影响","volume":"23","year":"2006"},{"abstractinfo":"合金中<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>可提高其抗腐蚀性能.在316L不锈钢中<span style=\"color:red\">添加</span>不同含量的<span style=\"color:red\">Al</span>,研究了合成的合金在5%H2SO4中的均匀腐蚀速率和在65%浓HNO3中的晶间腐蚀速率.结果表明:合金均匀腐蚀速率和晶间腐蚀速率均随着<span style=\"color:red\">Al</span>含量增加先减小后增大;<span style=\"color:red\">添加</span>2.00%,4.00%<span style=\"color:red\">Al</span>的合金的均匀腐蚀速率和晶间腐蚀速率较低;<span style=\"color:red\">添加</span>了<span style=\"color:red\">Al</span>的合金的晶间腐蚀速率低于未加<span style=\"color:red\">Al</span>的合金.","authors":[{"authorName":"喇培清","id":"f99625c4-2083-450d-b95e-8591b0a53866","originalAuthorName":"喇培清"},{"authorName":"李玉峰","id":"8690514c-b956-4542-81d2-0c34aee4d135","originalAuthorName":"李玉峰"},{"authorName":"刘闪光","id":"78a11ea9-eaf5-4918-8ea3-4628520b475c","originalAuthorName":"刘闪光"}],"doi":"","fpage":"62","id":"e0b591ac-aa57-4cf6-b097-285ce50fa873","issue":"12","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"468ab077-8767-48aa-a630-0d62bff6db3b","keyword":"均匀腐蚀","originalKeyword":"均匀腐蚀"},{"id":"700aecd6-9294-4b2a-b2b8-f68993d66613","keyword":"晶间腐蚀","originalKeyword":"晶间腐蚀"},{"id":"d6239f42-4933-4b88-be9f-5a4dbca055f6","keyword":"316L不锈钢","originalKeyword":"316L不锈钢"},{"id":"352b33d4-0f81-4e55-8d88-f243f679fc8c","keyword":"<span style=\"color:red\">Al</span>元素","originalKeyword":"Al元素"},{"id":"b5ef491e-6e7c-4158-96a9-1551b46a8c50","keyword":"腐蚀速率","originalKeyword":"腐蚀速率"}],"language":"zh","publisherId":"clbh201012021","title":"316L不锈钢中<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>后的抗腐蚀性能","volume":"43","year":"2010"},{"abstractinfo":"采用烧结镁铝尖晶石、电熔镁砂和鳞片石墨为主要原料,研究了方镁石-尖晶石-碳砖中<span style=\"color:red\">添加</span>的金属<span style=\"color:red\">Al</span>、Mg和不同Mg/<span style=\"color:red\">Al</span>比对其碳化后残存膨胀率、热膨胀率和N2中1500℃,1.5 h处理后的失重率的影响.结果表明:<span style=\"color:red\">添加</span>适量<span style=\"color:red\">Al</span>、Mg组分及控制适当的Mg/<span style=\"color:red\">Al</span>质量比可明显提高其性能.","authors":[{"authorName":"杨丁熬","id":"0acd31f8-21f7-4618-a61b-c1a18c0565a2","originalAuthorName":"杨丁熬"},{"authorName":"韩莉红","id":"230e9c3b-cfc3-4a73-bd3f-fdf54464d3bf","originalAuthorName":"韩莉红"}],"doi":"10.3969/j.issn.1001-1935.2001.05.007","fpage":"267","id":"4aa67082-d2b7-43b1-875b-0dddce88d0df","issue":"5","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料   "},"keywords":[{"id":"bbdd4083-e0a3-405e-87fb-50975a912918","keyword":"<span style=\"color:red\">Al</span>、Mg<span style=\"color:red\">添加</span>剂,方镁石-尖晶石-碳砖","originalKeyword":"Al、Mg添加剂,方镁石-尖晶石-碳砖"}],"language":"zh","publisherId":"nhcl200105007","title":"<span style=\"color:red\">Al</span>、Mg<span style=\"color:red\">添加</span>剂对方镁石-尖晶石-碳砖性能的影响","volume":"35","year":"2001"},{"abstractinfo":"采用OM、SEM、XRD、力学拉伸实验、硬度测试等手段研究了单独<span style=\"color:red\">添加</span>Mg及同时<span style=\"color:red\">添加</span>Mg和Cu对铸态<span style=\"color:red\">Al</span>-Fe-V-Si合金及其热挤压棒材显微组织和力学性能的影响.结果表明:<span style=\"color:red\">添加</span>Mg可以明显细化<span style=\"color:red\">Al</span>-Fe-V-Si合金的铸态组织,改善铝铁相的形貌与分布,还有利于提高合金的硬度与强度;同时<span style=\"color:red\">添加</span>Mg和Cu时,Cu部分抵消了Mg的细化作用,但经过热处理后,Mg2.Si、<span style=\"color:red\">Al</span>2Cu和<span style=\"color:red\">Al</span>2CuMg相的形成,使合金的硬度与强度进一步提高.","authors":[{"authorName":"张林林","id":"8c9276dd-f370-4bfd-8242-24ab00c45fd5","originalAuthorName":"张林林"},{"authorName":"肖于德","id":"d5d1f068-b594-425f-999d-84780dba01d6","originalAuthorName":"肖于德"},{"authorName":"周娟","id":"76130a61-96bf-4a73-b41f-c231ae55f598","originalAuthorName":"周娟"},{"authorName":"黎文献","id":"0956e655-3cbe-4203-be1e-4ab47cd5e2e7","originalAuthorName":"黎文献"}],"doi":"","fpage":"874","id":"b385b9cc-7d33-4f7a-9388-31d3faf5a9ba","issue":"5","journal":{"abbrevTitle":"ZGYSJSXB","coverImgSrc":"journal/img/cover/ZGYSJSXB.jpg","id":"88","issnPpub":"1004-0609","publisherId":"ZGYSJSXB","title":"中国有色金属学报"},"keywords":[{"id":"9dcca652-77d8-438c-a681-824a7cd44b4a","keyword":"<span style=\"color:red\">Al</span>-Fe-V-Si合金","originalKeyword":"Al-Fe-V-Si合金"},{"id":"8ccf46d4-bdf0-4772-aaed-062aae889ce0","keyword":"镁","originalKeyword":"镁"},{"id":"a2554525-f9f4-4c14-90b3-7c235bac5f0f","keyword":"铜","originalKeyword":"铜"},{"id":"d3bb567e-5503-484d-8bf1-24248fc6c474","keyword":"组织","originalKeyword":"组织"}],"language":"zh","publisherId":"zgysjsxb200605022","title":"<span style=\"color:red\">添加</span>Mg和Cu对<span style=\"color:red\">Al</span>-Fe-V-Si合金组织与性能的影响","volume":"16","year":"2006"},{"abstractinfo":"研究了<span style=\"color:red\">添加</span>元素Cu对6082<span style=\"color:red\">Al</span>-Mg-Si合金时效过程及微观组织变化的影响.结果表明,<span style=\"color:red\">添加</span>元素Cu后提高了<span style=\"color:red\">Al</span>-Mg-Si合金的峰值硬度,同时缩短了合金达到峰值硬度的时间.根据透射电镜及三维原子探针的观察可知,经过170℃时效2h后,<span style=\"color:red\">添加</span>元素Cu的<span style=\"color:red\">Al</span>-Mg-Si合金中所形成的β\"析出相中有Cu原子的富集,而未<span style=\"color:red\">添加</span>元素Cu的合金仍以GP区为主.170℃时效8h后,在含0.6%Cu合金中形成了明显的板条形Q'析出相.","authors":[{"authorName":"金曼","id":"61f0b72f-ce7a-4102-bf1d-d77c4dc52c44","originalAuthorName":"金曼"},{"authorName":"邵光杰","id":"f0a82492-be76-4203-88a7-f314416033e0","originalAuthorName":"邵光杰"}],"doi":"","fpage":"67","id":"9b9fa303-466b-48dc-b07c-cc380ceaf9e5","issue":"3","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":"d5e656f6-00e4-484b-9604-11d7f4537ba9","keyword":"Cu","originalKeyword":"Cu"},{"id":"8b99fe5c-bd12-472e-bea1-5251610ed9cc","keyword":"<span style=\"color:red\">Al</span>-Mg-Si","originalKeyword":"Al-Mg-Si"},{"id":"389f5639-f891-4893-9588-4135992a49ff","keyword":"时效","originalKeyword":"时效"},{"id":"62f75f33-e001-4ccd-9e14-0889a96366eb","keyword":"三维原子探针","originalKeyword":"三维原子探针"},{"id":"538799b0-8bf3-446d-be97-a4f4f295e902","keyword":"析出相","originalKeyword":"析出相"}],"language":"zh","publisherId":"jsrclxb200903015","title":"<span style=\"color:red\">添加</span>元素Cu对<span style=\"color:red\">Al</span>-Mg-Si合金析出相行为的影响","volume":"30","year":"2009"},{"abstractinfo":"分别从理论计算和实验研究两个方面对氟盐法制备<span style=\"color:red\">Al</span>-Ti-B中间合金过程中K2TiF6和KBF4的<span style=\"color:red\">添加</span>顺序对合金组织的影响进行讨论.结果表明:不同的加料顺序对<span style=\"color:red\">Al</span>-Ti-B中间合金的物相组成、TiAl3颗粒尺寸、洁净度等影响很大;在保证高细化效果和洁净度的情况下,使用混合<span style=\"color:red\">添加</span>K2TiF6和KBF4制备<span style=\"color:red\">Al</span>-Ti-B中间合金的工艺最佳.该研究结果为工业上选取合适的原料<span style=\"color:red\">添加</span>顺序制备<span style=\"color:red\">Al</span>-Ti-B中间合金提供了参考.","authors":[{"authorName":"廖成伟","id":"94743e71-fbed-485c-a11e-5f876a4fe7f4","originalAuthorName":"廖成伟"},{"authorName":"陈闻天","id":"2b2c7a21-e198-4c8d-a463-8a22dd8d4fac","originalAuthorName":"陈闻天"},{"authorName":"陈欢","id":"aeed81be-fd36-4952-a207-eeb4dc424bc8","originalAuthorName":"陈欢"},{"authorName":"付建平","id":"80b699a6-c124-41ca-9d5b-d7e29dc5cd08","originalAuthorName":"付建平"},{"authorName":"潘春旭","id":"f15dd68f-abb7-46e1-a80d-075bfad1dd81","originalAuthorName":"潘春旭"}],"doi":"","fpage":"204","id":"74a6c20c-f2d5-44d9-b29c-7ed4283ad87c","issue":"1","journal":{"abbrevTitle":"ZGYSJSXB","coverImgSrc":"journal/img/cover/ZGYSJSXB.jpg","id":"88","issnPpub":"1004-0609","publisherId":"ZGYSJSXB","title":"中国有色金属学报"},"keywords":[{"id":"38cea78b-4483-4484-a284-4c207e46ae19","keyword":"<span style=\"color:red\">Al</span>-Ti-B","originalKeyword":"Al-Ti-B"},{"id":"564de754-685d-4c9c-8bb9-885c76d4979a","keyword":"中间合金","originalKeyword":"中间合金"},{"id":"3f91a51c-ccfe-44b1-b43a-0cf9a13e6366","keyword":"加料顺序","originalKeyword":"加料顺序"},{"id":"b4f4a60a-2cd3-4b95-a6c8-6e838dcdc16c","keyword":"物相","originalKeyword":"物相"},{"id":"50838507-ea9d-4f0d-8007-cb9edd50a388","keyword":"TiAl3","originalKeyword":"TiAl3"},{"id":"194acb62-1585-4805-a70f-773c134f0615","keyword":"洁净度","originalKeyword":"洁净度"}],"language":"zh","publisherId":"zgysjsxb201601024","title":"原料<span style=\"color:red\">添加</span>顺序对氟盐法制备<span style=\"color:red\">Al</span>-Ti-B中间合金的影响","volume":"26","year":"2016"},{"abstractinfo":"应用电化学方法研究了在有机硅涂料中<span style=\"color:red\">添加</span>不同含量的铝粉对其性能的影响.实验结果表明，<span style=\"color:red\">添加</span>5%和25%<span style=\"color:red\">Al</span>粉的有机硅涂层在相当长浸泡时间内保持优良的耐蚀性能.<span style=\"color:red\">Al</span>粉明显提高了304不锈钢的电化学反应电阻.<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>粉的有机硅涂层的耐蚀性与其含量之间不是简单的线性关系.","authors":[{"authorName":"王成","id":"fedd055c-bfe1-4508-93be-0706c3a1b52b","originalAuthorName":"王成"},{"authorName":"江峰","id":"fd162359-8920-4d04-afae-594daaf4e80a","originalAuthorName":"江峰"},{"authorName":"王福会","id":"761d5c6b-6adc-46e3-a453-f35b060d5307","originalAuthorName":"王福会"}],"categoryName":"|","doi":"","fpage":"21","id":"4fbdb0c6-df05-4eb4-be95-f4ed9f691907","issue":"1","journal":{"abbrevTitle":"FSXB","coverImgSrc":"journal/img/cover/腐蚀学报封面.jpg","id":"24","issnPpub":"2667-2669","publisherId":"FSXB","title":"腐蚀学报（英文）"},"keywords":[{"id":"60c3fd8a-a8da-4f1d-82a5-02f9fcc303bd","keyword":"涂料","originalKeyword":"涂料"},{"id":"3e1fec35-9a57-4352-845a-e7a7a6b1a4ea","keyword":"\nEIS","originalKeyword":"\nEIS"},{"id":"bc561397-b079-4917-accd-9c75761936aa","keyword":"\nstainless steel","originalKeyword":"\nstainless steel"},{"id":"ce70362d-33eb-4cb0-9267-45084f3f4876","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"1002-6495_2004_1_12","title":"<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>粉对有机硅树脂涂层性能的影响","volume":"16","year":"2004"},{"abstractinfo":"应用电化学方法研究了在有机硅涂料中<span style=\"color:red\">添加</span>不同含量的铝粉对其性能的影响.实验结果表明,<span style=\"color:red\">添加</span>5%和25%<span style=\"color:red\">Al</span>粉的有机硅涂层在相当长浸泡时间内保持优良的耐蚀性能.<span style=\"color:red\">Al</span>粉明显提高了304不锈钢的电化学反应电阻.<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>粉的有机硅涂层的耐蚀性与其含量之间不是简单的线性关系.","authors":[{"authorName":"王成","id":"2baa73ff-d77f-44b3-96fd-ae27c6613235","originalAuthorName":"王成"},{"authorName":"江峰","id":"e2fc26e7-4212-4d30-ac56-bf1733c94b09","originalAuthorName":"江峰"},{"authorName":"王福会","id":"ac5f51bc-d7d2-4b46-98ae-613a5dd13631","originalAuthorName":"王福会"}],"doi":"10.3969/j.issn.1002-6495.2004.01.006","fpage":"21","id":"44704693-7ed1-42ba-bd16-a4a2382a4554","issue":"1","journal":{"abbrevTitle":"FSXB","coverImgSrc":"journal/img/cover/腐蚀学报封面.jpg","id":"24","issnPpub":"2667-2669","publisherId":"FSXB","title":"腐蚀学报（英文）"},"keywords":[{"id":"38fc36ba-520c-4971-be63-170ff61a9511","keyword":"有机硅涂料","originalKeyword":"有机硅涂料"},{"id":"ef69ca7a-6f2a-4882-af69-40946134b849","keyword":"电化学","originalKeyword":"电化学"},{"id":"7e540dc6-0c18-4b38-bf79-20dd261b88cd","keyword":"交流阻抗","originalKeyword":"交流阻抗"},{"id":"08a9a38e-560a-4bbb-866c-10c7e55091aa","keyword":"不锈钢","originalKeyword":"不锈钢"}],"language":"zh","publisherId":"fskxyfhjs200401006","title":"<span style=\"color:red\">添加</span><span style=\"color:red\">Al</span>粉对有机硅树脂涂层性能的影响","volume":"16","year":"2004"},{"abstractinfo":"通过PCT测试及XRD分析研究了<span style=\"color:red\">添加</span>10%(质量分数,下同)Ni并球磨对Mg17<span style=\"color:red\">Al</span>12合金吸放氢性能及结构的影响.10%Ni的<span style=\"color:red\">添加</span>改善了Mg17<span style=\"color:red\">Al</span>12合金的吸放氢性能.合金在423 K下即可快速吸氢,在523 K下表现最优的吸放氢性能并具有优异的动力学性能,在15 min内吸氢量可以达到2.93%(质量分数,下同),饱和吸氢量达到4.20%.合金在523 K下放氢平台压达到0.3 MPa,放氢量为3.45%.合金氢化物的生成焓和生成熵分别为-68.37 kJ·mol-1H2、-121.42 J.(mol-1·K-1).在Mg17<span style=\"color:red\">Al</span>12合金<span style=\"color:red\">添加</span>10%Ni球磨1 h后,主相仍然为Mg17<span style=\"color:red\">Al</span>12相并有少量的<span style=\"color:red\">Al</span>-Ni金属间化合物相,吸氢饱和后合金的相组成为MgH2、<span style=\"color:red\">Al</span>以及<span style=\"color:red\">Al</span>-Ni金属间化合物,放氢后主相为Mg17<span style=\"color:red\">Al</span>12相,表明Mg17<span style=\"color:red\">Al</span>12相在吸放氢过程中的相变是可逆的.","authors":[{"authorName":"庞立娟","id":"4884c9ac-db11-413c-a9fc-facccd46bc8a","originalAuthorName":"庞立娟"},{"authorName":"陈云贵","id":"ca165d81-f604-441f-beac-a688fbc750a9","originalAuthorName":"陈云贵"},{"authorName":"严义刚","id":"ba0cb730-019c-41af-86a5-3f05e9eb851d","originalAuthorName":"严义刚"},{"authorName":"郑欣","id":"2191a8e3-8472-48de-8539-1a303fa7f6d0","originalAuthorName":"郑欣"},{"authorName":"吴朝玲","id":"65f90400-e129-4461-95d7-40c8e7400689","originalAuthorName":"吴朝玲"},{"authorName":"陶明大","id":"ffae2605-9c68-4e9b-8f22-393292b04f7b","originalAuthorName":"陶明大"}],"doi":"","fpage":"1392","id":"3e8552ec-84d6-4866-ad4c-5afa3852981e","issue":"8","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":"7d1c36c6-581a-4973-854a-3e36b86da12b","keyword":"Mg1TAl12","originalKeyword":"Mg1TAl12"},{"id":"82638268-15d2-42e3-badc-3fd9941fb379","keyword":"球磨","originalKeyword":"球磨"},{"id":"37b0bec1-2bfc-479c-a4eb-6ce551829da0","keyword":"Ni","originalKeyword":"Ni"},{"id":"d56260dc-fc8c-4156-9c12-a36df53f4079","keyword":"贮氢合金","originalKeyword":"贮氢合金"}],"language":"zh","publisherId":"xyjsclygc200808017","title":"Ni<span style=\"color:red\">添加</span>对Mg17<span style=\"color:red\">Al</span>12合金吸放氢性能的影响","volume":"37","year":"2008"},{"abstractinfo":"采用2AP-LEITZ高温显微镜对TiC-Ni<SUB>3</SUB><span style=\"color:red\">Al</span>的润湿接触角进行了实验测定,着重探讨了Ni<SUB>3</SUB><span style=\"color:red\">Al</span>对TiC的润湿特性以及Ni<SUB>3</SUB><span style=\"color:red\">Al</span>中<span style=\"color:red\">添加</span>少量Mo的影响机制.结果表明,TiC与Ni<SUB>3</SUB><span style=\"color:red\">Al</span>之间具有良好的润湿性能.5wt％Mo的<span style=\"color:red\">添加</span>使Ni<SUB>3</SUB><span style=\"color:red\">Al</span>向TiC基板浸渗的深度增大,并与TiC颗粒发生固溶反应置换出部分Ti,在其周围形成一个含Mo的壳层.在这个壳层里,Ti、Mo进一步与Ni<SUB>3</SUB><span style=\"color:red\">Al</span>固溶,这些反应降低了液-固表面张力,导致了润湿接触角的下降,从而改善了TiC-Ni<SUB>3</SUB><span style=\"color:red\">Al</span>的润湿性.","authors":[{"authorName":"沈强","id":"a6c0afda-8192-43ae-9202-6aecf743f982","originalAuthorName":"沈强"},{"authorName":"张联盟","id":"656a2170-3c2d-4cb0-ae4f-f42cc34f601a","originalAuthorName":"张联盟"},{"authorName":"涂溶","id":"230e14f4-a01d-4035-8ed5-f7becddc2f85","originalAuthorName":"涂溶"}],"categoryName":"|","doi":"","fpage":"1306","id":"fcf5122e-2ad3-4dc8-9c8e-6f933c50dba9","issue":"6","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"494b5671-12d2-40b0-86c1-1fa2d3e9e5dc","keyword":"Ni<SUB>3</SUB><span style=\"color:red\">Al</span>-TiC","originalKeyword":"Ni<SUB>3</SUB>Al-TiC"},{"id":"32a89e2b-d352-4173-af2c-500bc442ea84","keyword":" Mo","originalKeyword":" Mo"},{"id":"66044bd4-9c8d-4714-b3a8-caea76c84a8b","keyword":" wettability","originalKeyword":" wettability"},{"id":"7d961c3d-d228-4761-9bd9-9205e732c10b","keyword":" effect mechanism","originalKeyword":" effect mechanism"}],"language":"zh","publisherId":"1000-324X_2002_6_5","title":"Mo<span style=\"color:red\">添加</span>对Ni<SUB>3</SUB><span style=\"color:red\">Al</span>-TiC润湿特性的影响机制研究","volume":"17","year":"2002"}],"totalpage":3400,"totalrecord":33992}