{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"针对蓝宝石单晶生长过程中因热应力集中坩埚使用寿命短问题,基于ANSYS有限元分析,对晶体熔化过程中的坩埚进行瞬态传热分析,在此基础上进行不同情况下热-结构耦合分析,计算得出晶体完全熔化后坩埚的热应力分布情况.分析显示:最大热应力存在于坩埚与托盘结合处；在满足晶体生长条件下,减缓升温速度,减小温度梯度,增大托杆中间空隙,改变托盘托杆材料等方法可以减小热应力.","authors":[{"authorName":"<span style=\"color:red\">白亮亮</span>","id":"bd24859d-1eb4-42d0-aa48-32505161ffcb","originalAuthorName":"白亮亮"},{"authorName":"刘云霞","id":"a59ba02c-7ea7-4b18-bf70-c9b58ea9c74e","originalAuthorName":"刘云霞"},{"authorName":"杨军良","id":"95a1d219-8ed2-4dd5-8fa0-d2865853763c","originalAuthorName":"杨军良"},{"authorName":"赵宜琳","id":"f4b6f73c-1efa-4764-941e-c8fae7df606c","originalAuthorName":"赵宜琳"}],"doi":"","fpage":"1458","id":"f7875a51-4a0e-480a-a2ff-7be43058d8b6","issue":"5","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":"b9bca5f0-8687-4637-bdbd-d46aca1d4b25","keyword":"坩埚","originalKeyword":"坩埚"},{"id":"78f38e74-5f29-44ba-9388-6326cef227ec","keyword":"有限元","originalKeyword":"有限元"},{"id":"75341e9c-865c-4b07-8ede-17d10bcba4b2","keyword":"温度场","originalKeyword":"温度场"},{"id":"81585b08-3618-46b0-a700-37dbb79ac604","keyword":"热应力","originalKeyword":"热应力"}],"language":"zh","publisherId":"rgjtxb98201205057","title":"蓝宝石单晶生长坩埚热应力分析","volume":"41","year":"2012"},{"abstractinfo":"简述连铸钢<span style=\"color:red\">白亮</span>带的形成机理及其影响因素,并进行<span style=\"color:red\">白亮</span>带钢材机能试验.结果表明,连铸钢<span style=\"color:red\">白亮</span>带对机能有影响,但控制在一定级别内则不影响钢材使用性能.","authors":[{"authorName":"万俊","id":"24dbf3a5-f2ae-4ac6-aa16-d3b17186e239","originalAuthorName":"万俊"},{"authorName":"刘海平","id":"e8a7ac4c-2920-403a-bcad-4c7f6d76de79","originalAuthorName":"刘海平"},{"authorName":"许秋松","id":"d8d495db-460b-4959-b6ff-abf7ed261371","originalAuthorName":"许秋松"}],"doi":"10.3969/j.issn.1005-4006.2002.06.014","fpage":"33","id":"9e79cad6-4d4f-445a-8550-67cd5bae5f61","issue":"6","journal":{"abbrevTitle":"LZ","coverImgSrc":"journal/img/cover/LZ.jpg","id":"52","issnPpub":"1005-4006","publisherId":"LZ","title":"连铸"},"keywords":[{"id":"d4a1166e-ba76-451e-ab38-f08e49e6487f","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"lz200206014","title":"<span style=\"color:red\">白亮</span>带对连铸钢性能的影响","volume":"","year":"2002"},{"abstractinfo":"电磁搅拌使连铸钢坯上产生<span style=\"color:red\">白亮</span>带,其形成机制目前尚无定论.作者提出了一个新的机制来解释<span style=\"color:red\">白亮</span>带的形成原因,即正在凝固的连铸钢坯位于搅拌区时,在凝固前沿形成一个薄壳,由此导致先发生负偏析,紧随其后又发生正偏析的<span style=\"color:red\">白亮</span>带.<span style=\"color:red\">白亮</span>带结束处的疏松证明了该机制的正确.","authors":[{"authorName":"赵航","id":"bab9e905-ebf4-4b49-8faa-048f3c10bda5","originalAuthorName":"赵航"},{"authorName":"李铮","id":"80517cdf-22ef-4bb9-8f3d-1d20557e5bc2","originalAuthorName":"李铮"}],"doi":"","fpage":"71","id":"7bbd1f34-023f-4f5e-95f6-bce706145efc","issue":"1","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":"93f78b0e-c323-4680-a315-00b4c20d8e5f","keyword":"连铸","originalKeyword":"连铸"},{"id":"1519f5be-3646-41c2-8f76-a3f9013ec030","keyword":"钢坯","originalKeyword":"钢坯"},{"id":"436d0cca-7205-4202-a477-bc348fd22322","keyword":"<span style=\"color:red\">白亮</span>带","originalKeyword":"白亮带"}],"language":"zh","publisherId":"gtyjxb200001017","title":"连铸钢坯上<span style=\"color:red\">白亮</span>带的形成机制","volume":"34","year":"2000"},{"abstractinfo":"在现代的金属工艺中，为节约材料和提高材料性能，对线材或棒材等长材经常采用拉拔工艺进行加工。在这种加工艺中，会出现一种表面因拉拔而产生的<span style=\"color:red\">白亮</span>层，这一<span style=\"color:red\">白亮</span>层很薄，但硬度很高，常常引起拉拔件表面开裂，有时甚至会引起拉拔件断裂。在以往的文献记载中，常根据其硬度接近马氏体，将其归结为拉拔过程中表面异常升温而产生的马氏体。作者有幸于2010年6月接触到了一起因表面<span style=\"color:red\">白亮</span>层而导致的表面开裂，但分析结果是<span style=\"color:red\">白亮</span>层为极其破碎的渗碳体与铁素体的机械混合物，只是腐蚀剂由于表面张力无法进入，而使得其在金相显微镜下观察呈白色。","authors":[{"authorName":"周刚","id":"706e79d9-ab03-4cc8-8ce8-907e87a8113a","originalAuthorName":"周刚"}],"categoryName":"|","doi":"","fpage":"37","id":"a35ba350-cedd-4f03-84c7-b4dcbbb63e6f","issue":"1","journal":{"abbrevTitle":"WLCS","coverImgSrc":"journal/img/cover/WLCS.jpg","id":"64","issnPpub":"1001-0777","publisherId":"WLCS","title":"物理测试"},"keywords":[{"id":"afa4d974-039b-413e-815d-72c5abde66ac","keyword":"拉拔","originalKeyword":"拉拔"},{"id":"048e551c-69a6-445f-b0ee-890e56b8a06f","keyword":"white layer","originalKeyword":"white layer"},{"id":"6471ad26-0b3f-4d59-80ff-7ebf63851a98","keyword":"micro-hardness","originalKeyword":"micro-hardness"},{"id":"c31ae937-6efa-402c-ba93-4ebd06720ee6","keyword":"surface tension.","originalKeyword":"surface tension."}],"language":"zh","publisherId":"1001-0777_2011_1_1","title":"75钢拉拔开裂的表面<span style=\"color:red\">白亮</span>层分析","volume":"29","year":"2011"},{"abstractinfo":"在现代的金属工艺中,为节约材料和提高材料性能,对线材或棒材等长材经常采用拉拔工艺进行加工.在这种加工艺中,会出现一种表面因拉拔而产生的<span style=\"color:red\">白亮</span>层,这一<span style=\"color:red\">白亮</span>层很薄,但硬度很高,常常引起拉拔件表面开裂,有时甚至会引起拉拔件断裂.在以往的文献记载中,常根据其硬度接近马氏体,将其归结为拉拔过程中表面异常升温而产生的马氏体.作者有幸接触到了一起因表面<span style=\"color:red\">白亮</span>层而导致的表面开裂,但分析结果是<span style=\"color:red\">白亮</span>层为极其破碎的渗碳体与铁素体的机械混合物,只是腐蚀剂由于表面张力无法进入,而使得其在金相显微镜下观察呈白色.","authors":[{"authorName":"周刚","id":"a010b032-3fb6-4744-a064-2851cb1c56bc","originalAuthorName":"周刚"}],"doi":"","fpage":"37","id":"fc8e6885-2a34-403d-885e-4853514d730c","issue":"1","journal":{"abbrevTitle":"WLCS","coverImgSrc":"journal/img/cover/WLCS.jpg","id":"64","issnPpub":"1001-0777","publisherId":"WLCS","title":"物理测试"},"keywords":[{"id":"48f124c8-fa7a-4f21-8062-2044f7e19162","keyword":"拉拔","originalKeyword":"拉拔"},{"id":"533ff299-1648-463c-9907-cd6eddc8c0df","keyword":"<span style=\"color:red\">白亮</span>带","originalKeyword":"白亮带"},{"id":"4c9a2c58-6a1f-46bd-b25e-8a138dda98d9","keyword":"显微硬度","originalKeyword":"显微硬度"},{"id":"6304f63b-061c-40d8-a237-079b267a856c","keyword":"表面张力","originalKeyword":"表面张力"}],"language":"zh","publisherId":"wlcs201101010","title":"75钢拉拔开裂的表面<span style=\"color:red\">白亮</span>层分析","volume":"29","year":"2011"},{"abstractinfo":"总结了<span style=\"color:red\">亮</span>镍镀层脆性的一般规律,给出了用以判断<span style=\"color:red\">亮</span>镍镀层脆性的简单方法,讨论了分别由内应力、异种阳离子引入及有机杂质夹杂所引起的脆性问题.强调了正确采用并补加添加剂的重要性,分析了对镀液盲目进行大处理的不良后果,指出了采用活性炭吸附有机杂质时应注意的问题.","authors":[{"authorName":"袁诗璞","id":"7da12486-878c-41c5-aac2-c4898d95c088","originalAuthorName":"袁诗璞"}],"doi":"","fpage":"11","id":"97ce6beb-7bbc-426f-8c9e-df571060538a","issue":"6","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰   "},"keywords":[{"id":"ee9ed82e-bb54-42f1-ae67-43d5eed55c71","keyword":"<span style=\"color:red\">亮</span>镍镀层","originalKeyword":"亮镍镀层"},{"id":"8c7d156f-876c-425b-a23f-3e58ab2cf651","keyword":"脆性","originalKeyword":"脆性"},{"id":"541ebd0a-508d-4d45-acae-e83b4ba30258","keyword":"内应力","originalKeyword":"内应力"},{"id":"472f3489-a5ff-47c1-96e8-f77906cf9629","keyword":"光亮剂","originalKeyword":"光亮剂"},{"id":"6077250e-d50c-4c57-b7de-98861a1ff930","keyword":"杂质","originalKeyword":"杂质"},{"id":"5816283b-fcb1-4be0-ae6b-693d762a0c6f","keyword":"活性炭","originalKeyword":"活性炭"},{"id":"5595bb9d-8e9a-459f-b4b6-125ee86f4de4","keyword":"吸附","originalKeyword":"吸附"}],"language":"zh","publisherId":"ddyts200906004","title":"<span style=\"color:red\">亮</span>镍镀层的脆性问题","volume":"28","year":"2009"},{"abstractinfo":"研究了色素<span style=\"color:red\">亮</span>蓝对氢离子浓度大于1 mol/L溶液的颜色响应及其变色机理,并将其作为显色剂应用于高酸度试纸的研发.研究表明,固定于改性基纸上的<span style=\"color:red\">亮</span>蓝处于氢离子浓度为0.1～9.0 mol/L范围的介质溶液中时,其颜色变化表现出明显的酸度响应特征,即随着溶液酸度的提高,<span style=\"color:red\">亮</span>蓝逐渐由蓝色转化为蓝绿色、绿色、黄绿色直至黄色.该响应具有普适性,不受无机酸的种类与氧化性强弱的影响.采用分光光度法研究了溶液酸度对<span style=\"color:red\">亮</span>蓝光吸收特性的影响,提出其可能的变色机理.以<span style=\"color:red\">亮</span>蓝为显色剂开发出高酸度试纸,该试纸可以直接检测溶液中0.1～9.0 mol/L范围内的氢离子平衡浓度,精确度为±1 mol/L.","authors":[{"authorName":"赫春香","id":"0bc88707-1aa0-41ac-8782-897824fff08b","originalAuthorName":"赫春香"},{"authorName":"王微","id":"8ad89714-eddb-46ef-83a8-443570928b66","originalAuthorName":"王微"},{"authorName":"霍春宝","id":"1153967b-ef5e-4d0c-ad8d-8a345cd172be","originalAuthorName":"霍春宝"},{"authorName":"高峰","id":"11cbcccb-6605-4197-a592-e340c6fccadd","originalAuthorName":"高峰"}],"doi":"10.11944/j.issn.1000-0518.2015.10.150056","fpage":"1215","id":"c621bd7e-bc94-4491-b310-411950809ed7","issue":"10","journal":{"abbrevTitle":"YYHX","coverImgSrc":"journal/img/cover/YYHX.jpg","id":"73","issnPpub":"1000-0518","publisherId":"YYHX","title":"应用化学"},"keywords":[{"id":"53d6502b-b468-492d-a765-dc2994762737","keyword":"<span style=\"color:red\">亮</span>蓝","originalKeyword":"亮蓝"},{"id":"dac163ad-c797-4aa3-9563-443817db3a80","keyword":"酸度响应","originalKeyword":"酸度响应"},{"id":"7af48c2a-ff83-4208-b066-da7028606c35","keyword":"高酸度试纸","originalKeyword":"高酸度试纸"},{"id":"82663404-968c-4d18-ab4c-13f311963da4","keyword":"变色机理","originalKeyword":"变色机理"}],"language":"zh","publisherId":"yyhx201510019","title":"基于<span style=\"color:red\">亮</span>蓝为显色剂的高酸度试纸","volume":"32","year":"2015"},{"abstractinfo":"采用超景深三维显微镜和扫描电镜(SEM)对汉代含“银灰<span style=\"color:red\">亮</span>”钱币锈蚀产物进行显微观察,并通过电子能谱、X射线粉末衍射和X射线荧光光谱等手段,对钱币本体、银灰<span style=\"color:red\">亮</span>层及其他锈蚀产物进行了研究,利用离子色谱法对钱币的包裹土进行了分析.确定钱币表面的锈蚀物主要为Cu2S(银灰色)、Cu2O(红褐色)、Cu2(OH)2CO3(绿色)和PbCO3(白色),探讨了含银灰<span style=\"color:red\">亮</span>钱币锈蚀结构的形成机理.","authors":[{"authorName":"贾松","id":"254f6e44-f5d2-4ae4-a01e-2265711acee1","originalAuthorName":"贾松"},{"authorName":"刘成","id":"03307780-f1e4-43e3-80e0-63d5cc859508","originalAuthorName":"刘成"}],"doi":"10.11973/fsyfh-201701017","fpage":"73","id":"8a958ab6-6834-4ca2-91eb-03f4e7b52888","issue":"1","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"5ac086cd-16af-4804-872c-5ccf3895d3b2","keyword":"汉代钱币","originalKeyword":"汉代钱币"},{"id":"b36d40e8-0770-490e-90d6-132c8e3cd6b2","keyword":"银灰亮光泽","originalKeyword":"银灰亮光泽"},{"id":"64a52dd3-18a3-4df9-8a2b-138677ec67fa","keyword":"锈蚀结构","originalKeyword":"锈蚀结构"},{"id":"583bd912-7b2b-4c87-ad2a-643f6e32bdf0","keyword":"形成机理","originalKeyword":"形成机理"}],"language":"zh","publisherId":"fsyfh201701017","title":"汉代含“银灰<span style=\"color:red\">亮</span>”钱币的锈蚀产物","volume":"38","year":"2017"},{"abstractinfo":"成品轴承钢球表面的磷化膜一般较粗糙,为此,对含硝酸钡的磷化液在钢球表面获得<span style=\"color:red\">亮</span>黑色磷化膜的配方进行了试验研究.结果表明,成分为30 g/L Ba(NO3)2,10 g/L Zn(H2PO4)2,15 g/L Zn(NO3)2的磷化液,在磷化温度80～85 ℃,磷化时间10 min的条件下可在钢球表面获得膜厚为2 μm的<span style=\"color:red\">亮</span>黑色磷化膜,膜层抗CuSO4点蚀时间大于2 min.","authors":[{"authorName":"周元贵","id":"edd840f6-a932-48a0-8e08-dfb3d9862a75","originalAuthorName":"周元贵"},{"authorName":"张黔","id":"d2b43633-d042-4dcd-8d94-1db90ceebc9f","originalAuthorName":"张黔"}],"doi":"10.3969/j.issn.1001-1560.2005.02.010","fpage":"34","id":"fe2fa516-bfbb-4952-8920-9fbdafda2d74","issue":"2","journal":{"abbrevTitle":"CLBH","coverImgSrc":"journal/img/cover/CLBH.jpg","id":"7","issnPpub":"1001-1560","publisherId":"CLBH","title":"材料保护"},"keywords":[{"id":"55c9dba4-056e-4fce-9fbd-cca98efcdd48","keyword":"磷化","originalKeyword":"磷化"},{"id":"24a92046-61cb-4c4c-b553-b8331e4257e1","keyword":"轴承钢球","originalKeyword":"轴承钢球"},{"id":"c0ede170-19d4-4a9d-941e-f0514b6a8bb0","keyword":"着色","originalKeyword":"着色"}],"language":"zh","publisherId":"clbh200502010","title":"钢球表面磷化着<span style=\"color:red\">亮</span>黑色的工艺研究","volume":"38","year":"2005"},{"abstractinfo":"冷轧板最主要的质量问题就是表面缺陷,<span style=\"color:red\">亮</span>带缺陷是目前首钢冷轧板最为常见的表面问题。通过研究不同<span style=\"color:red\">亮</span>带表面缺陷形貌及<span style=\"color:red\">亮</span>带处缺陷形貌、发生规律、元素构成、以及全流程缺陷的遗传性,分析了首钢冷轧<span style=\"color:red\">亮</span>带缺陷的主要原因,包括连铸坯皮下夹渣、皮下气泡、氧化铁皮压入以及辊印等因素。","authors":[{"authorName":"王畅","id":"e28c3b03-7621-41f7-9f0b-ca75ab4a3ffd","originalAuthorName":"王畅"},{"authorName":"徐海卫","id":"47754669-341b-4956-bb7e-cb3bcd9abcba","originalAuthorName":"徐海卫"},{"authorName":"任群","id":"f1993b0a-1ff5-48c1-b4b7-f7d4fd8f4d06","originalAuthorName":"任群"},{"authorName":"李飞","id":"196f34b5-710e-46ea-9956-26bb6037a7c2","originalAuthorName":"李飞"},{"authorName":"朱国森","id":"075753da-1f9c-451b-a6e4-cb41c7be0637","originalAuthorName":"朱国森"}],"doi":"","fpage":"41","id":"ce5f1efb-33d4-45ee-a4b3-26a08206879f","issue":"6","journal":{"abbrevTitle":"WLCS","coverImgSrc":"journal/img/cover/WLCS.jpg","id":"64","issnPpub":"1001-0777","publisherId":"WLCS","title":"物理测试"},"keywords":[{"id":"0c0a0f46-1f36-4f99-844f-d9c9016e218a","keyword":"冷轧板","originalKeyword":"冷轧板"},{"id":"7ab34ccd-5805-4737-97f9-25066431819f","keyword":"<span style=\"color:red\">亮</span>带缺陷","originalKeyword":"亮带缺陷"},{"id":"4f1194b7-f031-4323-ab22-5b97493b72ec","keyword":"夹杂物","originalKeyword":"夹杂物"},{"id":"4f36f7ad-15a2-49c7-8af0-5549f275d1a3","keyword":"氧化铁皮","originalKeyword":"氧化铁皮"}],"language":"zh","publisherId":"wlcs201206013","title":"冷轧产品表面<span style=\"color:red\">亮</span>带类缺陷成因及预防措施","volume":"30","year":"2012"}],"totalpage":29,"totalrecord":282}