{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"阴极压降是反映铝电解槽炉底状况好坏的一项重要技术参数,电解槽启动后期的各项操作质量及技术参数的管理是降低阴极压降的重点.本文结合铝电解生产实践,从启动后期的主要生产管理入手,浅析阴极压降的有效控制.","authors":[{"authorName":"","id":"2bd8c84a-1261-48c3-85ff-5d92d68bba2b","originalAuthorName":"田元欢"}],"doi":"10.3969/j.issn.1000-6826.2010.02.024","fpage":"53","id":"bfabad33-4463-4159-8a24-b7a92832adb3","issue":"2","journal":{"abbrevTitle":"JSSJ","coverImgSrc":"journal/img/cover/3abe017a-2574-4821-8152-4ae974ef0471.jpg","id":"47","issnPpub":"1000-6826","publisherId":"JSSJ","title":"金属世界"},"keywords":[{"id":"7238c807-0755-418c-ab81-b9c58fc38dbf","keyword":"铝电解槽","originalKeyword":"铝电解槽"},{"id":"f17e18c5-9131-4178-a26a-41cbc995da17","keyword":"启动后期","originalKeyword":"启动后期"},{"id":"14d9fabe-a58a-4648-9371-3dc23d5c5e17","keyword":"阴极压降","originalKeyword":"阴极压降"},{"id":"002440bc-f436-423e-b863-3ca6234e109c","keyword":"控制","originalKeyword":"控制"},{"id":"1bf1419f-fc71-43fe-a5ae-4e353861edee","keyword":"措施","originalKeyword":"措施"}],"language":"zh","publisherId":"jssj201002024","title":"浅析铝电解槽启动后期阴极压降的有效控制","volume":"","year":"2010"},{"abstractinfo":"本文提出了一种稳健的对冲压模具参数设计方法,以V形件冲压过程研究对象,采用有限仿真软件ABAQUS建立了V形件冲压加工过程仿真模型,并利用口方法,分析了所有建模因子对仿真模型的稳健性影响,找出最有利于提高模型稳健性的建模因子及水平设置.采用正交实验设计,就模具参数的稳健设计进行了分析,并以试验对本研究方法进行了验证.确认了在现有的仿真实验和试验水平下,本文提出的方法是可行的,结论是合理的.","authors":[{"authorName":"潘尔顺","id":"4e63f0d1-d8bf-43c8-8580-9891b3a7ef52","originalAuthorName":"潘尔顺"},{"authorName":"徐小芸","id":"c3409e04-11fc-492c-ac44-16bebb91f328","originalAuthorName":"徐小芸"},{"authorName":"奚立峰","id":"2c7c3270-94e5-498d-a030-b63d94b5124e","originalAuthorName":"奚立峰"}],"doi":"10.3969/j.issn.1005-0299.2008.05.022","fpage":"679","id":"4cd66b50-09dc-43a8-b872-104c12b785eb","issue":"5","journal":{"abbrevTitle":"CLKXYGY","coverImgSrc":"journal/img/cover/CLKXYGY.jpg","id":"14","issnPpub":"1005-0299","publisherId":"CLKXYGY","title":"材料科学与工艺"},"keywords":[{"id":"9210ffed-ae1d-4bb1-b97b-ceeadbd7c7db","keyword":"口方法","originalKeyword":"田口方法"},{"id":"a7c2f25b-782d-4355-b96f-84a01770a2ac","keyword":"有限方法","originalKeyword":"有限元方法"},{"id":"3590131e-f1d9-4136-85af-769399ea10fe","keyword":"V形件冲压","originalKeyword":"V形件冲压"},{"id":"e2bc88cc-1ac8-4fe5-b17d-249786ebccb1","keyword":"模具","originalKeyword":"模具"},{"id":"c9ee5744-c82a-45ca-9af9-2b2085482287","keyword":"稳健参数设计","originalKeyword":"稳健参数设计"}],"language":"zh","publisherId":"clkxygy200805022","title":"有限口实验设计中冲压加工模具参数稳健性设计","volume":"16","year":"2008"},{"abstractinfo":"聚合物中水树的引发与生长不仅与多个内部、外部参数有直接的关系,还与这些参数之间的协同作用有关.在研究水树生长的过程中,采用统计方法是非常必要的,这些统计方法首先要包括可靠的重要变量,还要能够对大量的试验结果进行合理的解释.运用口方法和有限法相结合的模拟方法可以在短时间内找到诱发水树的原因,还可以表征水树的危险性并采取适当的方法加以抑制其生长.数值分析及水树培养试验结果显示,水树内部的介电常数及介电常数分布是影响水树诱发的主要原因,而水树本身的几何尺寸的作用则相对次要.","authors":[{"authorName":"金天雄","id":"17078112-b388-4657-af84-1b5d1e2fa58c","originalAuthorName":"金天雄"},{"authorName":"金石男","id":"e8f6d755-70ca-477c-bbc1-a037a20ea1f3","originalAuthorName":"金石男"},{"authorName":"江平开","id":"d428af17-ff5f-44c6-b377-858013ff2a64","originalAuthorName":"江平开"},{"authorName":"金惠日","id":"4ffe9c4e-2095-45dc-b058-c167b585253e","originalAuthorName":"金惠日"},{"authorName":"玄胜日","id":"04509462-6783-41f6-969e-9f6bda11f966","originalAuthorName":"玄胜日"}],"doi":"10.3969/j.issn.1009-9239.2008.03.014","fpage":"45","id":"217b3a40-0b3f-4959-a2b4-b04af164db0a","issue":"3","journal":{"abbrevTitle":"JYCL","coverImgSrc":"journal/img/cover/JYCL.jpg","id":"50","issnPpub":"1009-9239","publisherId":"JYCL","title":"绝缘材料"},"keywords":[{"id":"efccf905-e90a-419d-9a97-1197a168cd93","keyword":"交联聚乙烯电缆绝缘","originalKeyword":"交联聚乙烯电缆绝缘"},{"id":"c4481191-0cae-4eac-82d2-24a8f83c7400","keyword":"水树枝","originalKeyword":"水树枝"},{"id":"8e076cc5-7d77-45da-965b-a58d7ebac0a4","keyword":"电场分布","originalKeyword":"电场分布"},{"id":"aa5cc3e5-0948-4cc9-a297-33832fb729b5","keyword":"有限法","originalKeyword":"有限元法"},{"id":"385e8c1e-598c-434f-9001-1572e2bd3906","keyword":"口方法","originalKeyword":"田口方法"}],"language":"zh","publisherId":"jycltx200803014","title":"有限法与口方法相结合模拟研究交联聚乙烯电缆绝缘中的水树现象","volume":"41","year":"2008"},{"abstractinfo":"介绍了口方法在钕铁硼生产品质分析中的应用方法,并应用口方法对钕铁硼产品厚度偏差问题提出了新的解决思路和解决方案.","authors":[{"authorName":"戎利军","id":"641ad1c2-be73-4ee6-977f-4a24044566e5","originalAuthorName":"戎利军"},{"authorName":"李培忠","id":"e266f0b2-76f9-4653-8f20-7a0bec3bca6d","originalAuthorName":"李培忠"},{"authorName":"陈大力","id":"0237f155-d0f9-4ef0-a70a-8c7e9c85b5c6","originalAuthorName":"陈大力"},{"authorName":"李红","id":"648ff3b5-39f3-4176-9e06-d357a90e981e","originalAuthorName":"李红"},{"authorName":"贾海军","id":"252a96bb-b1a8-4332-a7a4-b84b61afac69","originalAuthorName":"贾海军"}],"doi":"10.3969/j.issn.1004-0277.2009.05.016","fpage":"67","id":"c74c3014-6be5-4f84-aad5-c80230e76fc1","issue":"5","journal":{"abbrevTitle":"XT","coverImgSrc":"journal/img/cover/XT.jpg","id":"65","issnPpub":"1004-0277","publisherId":"XT","title":"稀土"},"keywords":[{"id":"1d478082-0a39-46dc-87a7-6da2dc7cb633","keyword":"口方法","originalKeyword":"田口方法"},{"id":"b65f5922-4509-4448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"},"keywords":[{"id":"fcde117f-b30d-4be0-9ef3-cf052f14a24b","keyword":"\"口方法\"","originalKeyword":"\"田口方法\""},{"id":"4a8eb604-21cc-4751-9f52-0cf190c36d29","keyword":"吸波涂料","originalKeyword":"吸波涂料"},{"id":"0cc9c545-a67e-4655-bb03-f4c97ca1fbf4","keyword":"优化设计","originalKeyword":"优化设计"}],"language":"zh","publisherId":"bmjs200504025","title":"\"口方法\"在吸波涂料中的应用","volume":"34","year":"2005"},{"abstractinfo":"考察了芬顿试剂对菁胶的氧化降解行为. 系统研究了H_2O_2和Fe~(2+)用量、温度和降解时间对菁胶粘度的影响. 结果表明,H_2O_2和Fe~(2+)合适的体积比为2:1. 在较低的温度(25 ℃)和较短的时间(20 min)内芬顿试剂就能使菁胶粘度下降90%以上. 另外,pH值的变化对其降解性能影响不大,显示了较好的降解效果.","authors":[{"authorName":"薛蔓","id":"1df0b7c4-f745-4232-b326-f0049e20758c","originalAuthorName":"薛蔓"},{"authorName":"张磊","id":"4ff78fe1-f1ec-4350-b836-8e8f11da993d","originalAuthorName":"张磊"},{"authorName":"崔元臣","id":"88f3798a-3fe5-4857-92d4-0d7c4518fb55","originalAuthorName":"崔元臣"}],"doi":"10.3969/j.issn.1000-0518.2009.10.023","fpage":"1241","id":"ac72e2b8-d4ec-4810-9e42-a1c67c1f9249","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":"a0645a33-2fae-40d0-a84c-27182bda62ec","keyword":"芬顿试剂","originalKeyword":"芬顿试剂"},{"id":"1bfaaa79-c590-480d-9f20-c107090af2df","keyword":"菁胶","originalKeyword":"田菁胶"},{"id":"72605c0b-eab7-4124-a392-4577f52502dc","keyword":"氧化降解","originalKeyword":"氧化降解"},{"id":"d2518369-0b06-47d5-b409-10a2e3555700","keyword":"粘度","originalKeyword":"粘度"}],"language":"zh","publisherId":"yyhx200910023","title":"芬顿试剂对菁胶的氧化降解","volume":"26","year":"2009"},{"abstractinfo":"以水、乙醇为分散介质,用季铵型阳离子试剂(CHPAC)修饰天然聚多糖大分子菁胶,得到了高取代度的季铵型阳离子菁胶.研究了反应条件对菁胶中伯羟基(PHG)取代度的影响,初步探讨了季铵型阳离子菁胶在水处理中的絮凝特性.结果表明,在n(菁胶中伯羟基):n(阳离子试剂)=1:1、反应温度为50℃、pH值为9~10、V(乙醇):V(水)=1:10、反应时间为6 h条件下,取代度可达0.68;所得季铵型阳离子菁胶与聚合硫酸铁复配处理城市生活废水CODcr去除率达90%,与聚合氯化铁复配处理黄河水时可使吸光度降至0.1以下.","authors":[{"authorName":"崔元臣","id":"2143fa9f-f078-4408-ac67-8348887c5249","originalAuthorName":"崔元臣"},{"authorName":"王新海","id":"b4d1e5a4-339d-40dd-8366-e5151dc984fa","originalAuthorName":"王新海"},{"authorName":"李德亮","id":"df2e3d3e-f8c8-412f-80a5-1c7a932c98b4","originalAuthorName":"李德亮"},{"authorName":"李明玉","id":"7da87753-aae5-4650-b1f4-3ad95e8009cc","originalAuthorName":"李明玉"},{"authorName":"周大鹏","id":"4e49c531-22e3-4d8a-a4ea-8ca52b3dc299","originalAuthorName":"周大鹏"}],"doi":"10.3969/j.issn.1000-0518.2004.07.015","fpage":"717","id":"2375382d-4219-45d4-ab13-cda698365719","issue":"7","journal":{"abbrevTitle":"YYHX","coverImgSrc":"journal/img/cover/YYHX.jpg","id":"73","issnPpub":"1000-0518","publisherId":"YYHX","title":"应用化学"},"keywords":[{"id":"057a792c-9e30-4037-bd0e-24bcaf384334","keyword":"阳离子菁胶","originalKeyword":"阳离子田菁胶"},{"id":"b2e060e6-1f79-4804-864d-4bfb70107431","keyword":"化学改性","originalKeyword":"化学改性"},{"id":"03ede477-80c0-4c32-84f2-4a9139d6555e","keyword":"混凝","originalKeyword":"混凝"}],"language":"zh","publisherId":"yyhx200407015","title":"季铵型阳离子菁胶的制备及絮凝作用","volume":"21","year":"2004"},{"abstractinfo":"菁胶是从菁种子胚乳中提取的一种天然多糖类高分子有机物.天然的化学结构反映出的理化性质限制了其应用和推广.化学结构式的修饰改进是扩大其应用的有效手段.修饰改进后的菁胶无毒、无污染,在石油开采、煤开采、纺织、印刷、造纸和食品等领域得到了广泛应用.文中对羧甲基法、羟乙基法、羟丙基法、交联法、羟烷基-羧甲基法、羧甲基-羟烷基法、阳离子法、酶解法、氧化法和两性法等菁胶化学结构式的主要修饰改进方法进行了详述.总结了修饰改进技术注意事项,并对前景进行了展望.","authors":[{"authorName":"陈虹宇","id":"fef11d1b-a6e0-4258-8089-09cd1d3b4df1","originalAuthorName":"陈虹宇"},{"authorName":"唐洪波","id":"a816fc7c-75c2-4ea4-9807-e7e05aae814a","originalAuthorName":"唐洪波"},{"authorName":"王锦霞","id":"71b182cb-3156-4052-8247-8405c03e55d5","originalAuthorName":"王锦霞"},{"authorName":"谢宏伟","id":"4b9a9a85-09fd-44e3-a2a9-4b806a213006","originalAuthorName":"谢宏伟"}],"doi":"10.16865/j.cnki.1000-7555.2017.03.033","fpage":"186","id":"528f1f0a-16e4-4d07-8981-4ca3d6e847cd","issue":"3","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"11e970d8-597a-4e65-a828-13393bac16d9","keyword":"菁胶","originalKeyword":"田菁胶"},{"id":"4fb24dbd-4d11-4970-b773-9b970f5caf5e","keyword":"羧甲基法","originalKeyword":"羧甲基法"},{"id":"c21778b5-fb41-4309-a67c-3d3cb91adfcc","keyword":"羟基法","originalKeyword":"羟基法"},{"id":"e3e65e8a-2e36-4e3f-ba09-559a1ded4920","keyword":"阳离子法","originalKeyword":"阳离子法"},{"id":"a2dbabe7-d8ee-4fe5-a40f-de830ca9a5d1","keyword":"酶解法","originalKeyword":"酶解法"},{"id":"74c249f7-e46c-4893-a079-96e79b3eed90","keyword":"改性","originalKeyword":"改性"}],"language":"zh","publisherId":"gfzclkxygc201703033","title":"高分子菁胶化学结构式修饰方法综述","volume":"33","year":"2017"},{"abstractinfo":"针对高分一号卫星(GF-1)玉米遥感图像中玉米光谱复杂和地块边缘模糊导致的面积统计误差大的问题,本文提出一种块模糊增强和最小值边缘提取相结合的边缘检测方法进行玉米田地块分割处理,以减小面积统计误差.首先将彩色遥感图像从RGB变换到I1I2I3彩色空间,提取出含丰富特征的单色图I1;然后利用模糊理论对I1进行基于块的增强处理;再对增强后的图像进行最小值边缘提取;最后利用Full Lambda-Schedule算法对区域边缘进行优化.通过与Canny和Sobel等边缘提取方法比较,证明本文的边缘检测结果能有效地分割出玉米田地块目标,减少了玉米光谱复杂和边缘模糊带来的影响,检测出的边缘更符合玉米实际分布,玉米面积统计结果更符合实际.","authors":[{"authorName":"梁若飞","id":"6db20805-cfeb-4359-ac48-3d073cb6ca85","originalAuthorName":"梁若飞"},{"authorName":"杨风暴","id":"c5dfbfe6-dbca-4ead-8949-cf50ea8683c2","originalAuthorName":"杨风暴"},{"authorName":"王毅敏","id":"f23ed425-ef71-4d25-bc72-c39a1a8a8925","originalAuthorName":"王毅敏"},{"authorName":"李大威","id":"3cb0fc4e-7695-48ed-a488-d3c54c7ff706","originalAuthorName":"李大威"},{"authorName":"冯裴裴","id":"0c560bd7-eff9-4370-9eee-a284ad4df367","originalAuthorName":"冯裴裴"}],"doi":"10.7517/j.issn.1674-0475.2016.02.190","fpage":"190","id":"15d4a07b-dc05-4b96-9a0b-6fc7a5919912","issue":"2","journal":{"abbrevTitle":"YXKXYGHX","coverImgSrc":"journal/img/cover/YXKXYGHX.jpg","id":"74","issnPpub":"1674-0475","publisherId":"YXKXYGHX","title":"影像科学与光化学 "},"keywords":[{"id":"a8fc0cdb-ad1c-4672-991f-28256cdbd23b","keyword":"块模糊增强","originalKeyword":"块模糊增强"},{"id":"b4243179-06da-454e-8656-b94e8b1a1409","keyword":"边缘检测","originalKeyword":"边缘检测"},{"id":"15a86a75-02b7-43e7-bc9a-6701f4f37c91","keyword":"玉米田地块分割","originalKeyword":"玉米田地块分割"}],"language":"zh","publisherId":"ggkxyghx201602009","title":"一种基于块模糊增强的玉米遥感图像边缘检测方法","volume":"34","year":"2016"}],"totalpage":997,"totalrecord":9965}