{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":4,"startPagecode":1},"records":[{"abstractinfo":"研究了复合材料表面上HM108B4密封剂和H06-1020HD抗静电涂层材料在航空煤油中的质量变化、密封剂的180°剥离强度和破坏模式.研究结果表明:随着时间的延长,HM108B4密封剂/复合材料和抗静电涂层/密封剂/复合材料在航空煤油中质量变化率均先下降后上升,最后趋于稳定,抗静电涂层/密封剂/复合材料在煤油中质量变化率小于密封剂/复合材料.未浸油老化和60±2℃浸油老化7天密封剂/抗静电涂层试样的180°剥离强度分别为10.9KN/m和11.1KN/m,试样的破坏模式为内聚破坏.","authors":[{"authorName":"欧秋仁","id":"2d559f36-7645-4cdf-8409-d21769937db6","originalAuthorName":"欧秋仁"},{"authorName":"嵇培军","id":"52f74bd4-caa7-4bf5-a4f7-acb74acf9e97","originalAuthorName":"嵇培军"},{"authorName":"赵亮","id":"2daaa2fd-6c8d-4609-b6ef-efc167fee9b4","originalAuthorName":"赵亮"},{"authorName":"武玲","id":"3402e8b2-13e5-4cfa-9e38-712fac5b43f9","originalAuthorName":"武玲"},{"authorName":"曹辉","id":"2a4f920c-2057-4571-b331-8bf3c0799fd8","originalAuthorName":"曹辉"}],"doi":"10.3969/j.issn.1671-5381.2010.02.006","fpage":"27","id":"06d7613d-5ac0-4312-a8ef-affb9ca82705","issue":"2","journal":{"abbrevTitle":"HCCLLHYYY","coverImgSrc":"journal/img/cover/HCCLLHYYY.jpg","id":"42","issnPpub":"1671-5381","publisherId":"HCCLLHYYY","title":"合成材料老化与应用"},"keywords":[{"id":"f6014c33-8619-4718-9dc0-05ae8d0bdd41","keyword":"密封剂","originalKeyword":"密封剂"},{"id":"37d3055c-fe65-4795-a9d2-f11bae575af0","keyword":"抗静电涂层","originalKeyword":"抗静电涂层"},{"id":"53b81ba0-0ee9-48e7-9eba-babe8888a8cd","keyword":"稳定性","originalKeyword":"稳定性"},{"id":"34f5afea-ae3a-463b-8e31-0039479984df","keyword":"剥离强度","originalKeyword":"剥离强度"}],"language":"zh","publisherId":"hccllhyyy201002006","title":"复合材料表面密封剂与抗静电涂料在燃油中稳定性研究","volume":"39","year":"2010"},{"abstractinfo":"为提高水性环氧富锌底漆的抗流挂性,研究了凹凸棒土、气相二氧化硅、膨润土3种触变剂预凝胶的黏度、微观形貌及粒径分布情况,通过单因素试验及三水平三因素正交试验研究了不同种类及用量的触变剂对双组分水性环氧富锌底漆抗流挂性能的影响.结果表明:单一触变剂虽对水性环氧富锌底漆有一定的抗流挂作用,但效果不明显;3种触变剂共同作用时,膨润土起主要作用.添加1%的凹凸棒土、1.2%的膨润土和1.5%的气硅协同作用对水稀释后的水性环氧富锌底漆抗流挂性能有极大的提高.","authors":[{"authorName":"邢宏楠","id":"b1347809-1d81-48b0-b598-820ca156f1c9","originalAuthorName":"邢宏楠"},{"authorName":"顾广新","id":"506a1f79-49ea-4366-829a-e30156e37aad","originalAuthorName":"顾广新"},{"authorName":"武玲","id":"fbc905a2-11f8-46fc-aecf-83b6f0345549","originalAuthorName":"武玲"},{"authorName":"徐杰","id":"dd93d776-96fc-404b-91c6-5fb4df0da6dc","originalAuthorName":"徐杰"}],"doi":"","fpage":"1","id":"d74b4842-e66c-43cd-a856-1eb0de431b99","issue":"2","journal":{"abbrevTitle":"TLGY","coverImgSrc":"journal/img/cover/TLGY.jpg","id":"61","issnPpub":"0253-4312","publisherId":"TLGY","title":"涂料工业 "},"keywords":[{"id":"68a3309a-fd6f-43a4-a294-0d6eb36577a4","keyword":"水性环氧富锌底漆","originalKeyword":"水性环氧富锌底漆"},{"id":"19e81b28-ae0c-45af-a080-3c3e2acff0a6","keyword":"气相二氧化硅","originalKeyword":"气相二氧化硅"},{"id":"8b0277a8-590c-433a-917d-f0975b5d57a5","keyword":"凹凸棒土","originalKeyword":"凹凸棒土"},{"id":"896df727-06f9-4f5f-8f7a-52c73162eaf5","keyword":"膨润土","originalKeyword":"膨润土"},{"id":"88949562-2126-4089-ae30-d2df033354e2","keyword":"抗流挂","originalKeyword":"抗流挂"}],"language":"zh","publisherId":"tlgy201702001","title":"水性环氧富锌底漆抗流挂性的研究","volume":"47","year":"2017"},{"abstractinfo":"利用细观力学的代表体积元(RVE)法,预测了平纹织物复合材料的弹性模量.建立了表征RVE形态的数学模型,分析了细观结构与宏观性能之间的关系,编制了从组分材料的弹性性能推测复合材料的弹性性能的预测程序.对理论预测进行了实验验证,理论值与实测值在一定误差范围内能较好吻合,说明此预测方法具有一定的可靠性.","authors":[{"authorName":"王瑞","id":"fc5c3c99-3d4b-4f15-b2ad-f7862c904bb6","originalAuthorName":"王瑞"},{"authorName":"王建坤","id":"8c2dd81c-d1d5-4305-ba33-e948ba73d863","originalAuthorName":"王建坤"},{"authorName":"武玲","id":"0dacd017-e3ac-4f16-a3f3-0394f256f56f","originalAuthorName":"武玲"}],"doi":"10.3321/j.issn:1000-3851.2002.01.019","fpage":"90","id":"1b1904f6-3a5e-4254-9651-fa1efba24f45","issue":"1","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":"64f6e754-2c5a-4e9a-aced-2cf17d40705f","keyword":"平纹织物复合材料","originalKeyword":"平纹织物复合材料"},{"id":"123bdc6d-be8b-4ce1-843c-abcbf8bb7b41","keyword":"弹性模量","originalKeyword":"弹性模量"},{"id":"ecadac87-0f9a-48ae-954c-f4136ac29e93","keyword":"预测","originalKeyword":"预测"},{"id":"e662c933-2109-488f-8f5b-1096f3beea4d","keyword":"代表体积元法(RVE)","originalKeyword":"代表体积元法(RVE)"}],"language":"zh","publisherId":"fhclxb200201019","title":"平纹织物复合材料的弹性模量预测","volume":"19","year":"2002"},{"abstractinfo":"采用GPS卫星同步断电法对忠武管道进行了断电电位测量,对结果进行了分析,评价了忠武管道阴极保护系统的有效性,并提出了改进建议.结果表明,三层PE管道相比于环氧粉末涂层管道更容易出现过保护现象,而且还容易受到干扰;电位是反应管道所处状态的主要指标,阴极保护系统的通电电位呈规律分布,但断电电位影响因素复杂,无明显规律.","authors":[{"authorName":"罗鹏","id":"18512348-d250-458d-bf3e-c0e9710d5a5c","originalAuthorName":"罗鹏"},{"authorName":"金鑫","id":"b3f412f6-6973-42ba-9881-3e553616f798","originalAuthorName":"金鑫"},{"authorName":"徐承伟","id":"784ec7f1-f012-452a-ba06-7609c0b10b0f","originalAuthorName":"徐承伟"},{"authorName":"薛致远","id":"48838684-38dc-4b1e-96e1-c13bc71f5694","originalAuthorName":"薛致远"},{"authorName":"高强","id":"aa4f9f94-5b47-40f2-a60b-5c90d1f80e89","originalAuthorName":"高强"},{"authorName":"张永盛","id":"dcf5fb27-5c7a-4933-98b7-981aca29f748","originalAuthorName":"张永盛"}],"doi":"","fpage":"224","id":"670a796f-6251-4fb3-8541-c3fb55741e13","issue":"3","journal":{"abbrevTitle":"FSYFH","coverImgSrc":"journal/img/cover/FSYFH.jpg","id":"25","issnPpub":"1005-748X","publisherId":"FSYFH","title":"腐蚀与防护"},"keywords":[{"id":"3ed78c05-3e52-49dd-a17f-0e442c522d84","keyword":"阴极保护","originalKeyword":"阴极保护"},{"id":"75cb2ded-b721-47f2-93b6-852438d3e430","keyword":"通电电位","originalKeyword":"通电电位"},{"id":"bbbc7c8f-15ec-440e-8d5b-7e5162d1c5e7","keyword":"断电电位","originalKeyword":"断电电位"}],"language":"zh","publisherId":"fsyfh201103016","title":"忠武管道阴极保护断电电位测量结果分析","volume":"32","year":"2011"},{"abstractinfo":"","authors":[],"doi":"","fpage":"71","id":"587c59e2-3fbc-4451-a05a-9389982aa1f5","issue":"4","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":"bd4c9d47-cc7f-4646-bcfe-7df179ff3b37","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"bqclkxygc199904016","title":"材料科学家--钱匡武","volume":"22","year":"1999"},{"abstractinfo":"孔沙湾金矿床位于老挝中辽地区的西部巴莱县,矿床金平均品位达3.65×10-6。在下二叠统的剪切构造带中发现厚度大于300 m的透镜状、细脉状金矿(化)体,判断该地层为矿区主要含矿层位。金矿体的产出受NNE向为主的宽缓复式褶皱、断裂和纵向、NNW向的断裂、次级褶皱以及横向次级断裂控制,同时矿区大量节理裂隙、面理构造以及众多小型次级断裂构造发育。矿区单元素异常总体呈NE向,与矿区大断裂构造方向一致;硅质岩及角岩中的Au元素异常平均值较高,达0.021×10-6及0.022×10-6;二叠系玄武岩和硅质岩中Au元素异常值最高,达0.69×10-6,具备良好的成矿远景。推断孔沙湾金矿床类型属于为受构造和次级构造破碎带控制的热液蚀变岩型金矿床。","authors":[{"authorName":"密文天","id":"ccf71610-b192-46c0-8c5a-148ecaf5d7fd","originalAuthorName":"密文天"},{"authorName":"张雪松","id":"a4e2af35-744b-4a13-b510-4d4029aa5ade","originalAuthorName":"张雪松"},{"authorName":"辛杰","id":"85e84650-23cd-4073-aa8a-bc1da6b922ef","originalAuthorName":"辛杰"},{"authorName":"穆军青","id":"ce88edc0-a386-4a70-90d3-a45988bb2859","originalAuthorName":"穆军青"}],"doi":"10.11792/hj20161004","fpage":"19","id":"bda2d3c7-789a-486d-86e3-12ba43f32c3e","issue":"10","journal":{"abbrevTitle":"HJ","coverImgSrc":"journal/img/cover/HJ.jpg","id":"44","issnPpub":"1001-1277","publisherId":"HJ","title":"黄金"},"keywords":[{"id":"d088a468-71d3-4088-9b46-0e2d894de8f4","keyword":"孔沙湾金矿床","originalKeyword":"孔沙湾金矿床"},{"id":"0a3fd2ff-8065-4e66-a9da-6c78fc5267b7","keyword":"元素异常","originalKeyword":"元素异常"},{"id":"105562eb-3c05-4136-b068-de21075a6529","keyword":"成矿远景","originalKeyword":"成矿远景"},{"id":"8962ef63-621f-4c5f-81a4-8a8a51029a11","keyword":"金矿床类型","originalKeyword":"金矿床类型"}],"language":"zh","publisherId":"huangj201610005","title":"老挝沙耶武里巴莱孔沙湾金矿床研究","volume":"37","year":"2016"},{"abstractinfo":"本期刊登的是2012年4月份国家知识产权局公布的有关表面处理系列类专利信息。如需专利全文,请与我部联系(联系人:吴海玲;电话:020-61302516)。","authors":[],"doi":"","fpage":"75","id":"ccad5c63-d7f4-4f38-b9e5-2b6b8902f890","issue":"8","journal":{"abbrevTitle":"DDYTS","coverImgSrc":"journal/img/cover/DDYTS.jpg","id":"21","issnPpub":"1004-227X","publisherId":"DDYTS","title":"电镀与涂饰 "},"keywords":[{"id":"3c1626a4-6225-4be6-bca7-12ef6b6d255d","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"ddyts201308020","title":"中国专利信息","volume":"","year":"2013"},{"abstractinfo":"针对718HL中板边部裂纹的形成机制进行研究,认为微裂纹不是轧制时产生的新裂纹,而是由于铸坯内弧横裂纹扩展形成。造成横裂缺陷的主要原因是铸坯玲却不均匀。通过保证连铸关键设备功能精度、优化二冷配水工艺以及加强保护浇铸,能够有效降低中板边裂缺陷。","authors":[{"authorName":"柳泽民","id":"3608ac32-4321-4a45-aa31-6e9016421ba5","originalAuthorName":"柳泽民"}],"doi":"","fpage":"40","id":"a6606986-05b4-4e15-a9c3-6795207a327b","issue":"4","journal":{"abbrevTitle":"LZ","coverImgSrc":"journal/img/cover/LZ.jpg","id":"52","issnPpub":"1005-4006","publisherId":"LZ","title":"连铸"},"keywords":[{"id":"04bea11b-cd7a-491a-a7bc-309613107232","keyword":"中板","originalKeyword":"中板"},{"id":"0573854a-430f-442e-a33d-849a5c90bd6e","keyword":"边部裂纹","originalKeyword":"边部裂纹"},{"id":"c618555b-1c1f-4950-bef4-07e055fbeccd","keyword":"铸坯","originalKeyword":"铸坯"},{"id":"f26f1b96-6bb4-4053-a796-5d173ed3d420","keyword":"横裂","originalKeyword":"横裂"}],"language":"zh","publisherId":"lz201204010","title":"718HL中板边部裂纹成因与控制","volume":"","year":"2012"},{"abstractinfo":"为了改善聚合物材料的挤出胀大现象,将振动力场引入聚合物的挤出过程.采用动态毛细管流变仪对不同振动参数下的挤出胀大进行研究,建立了相应的物理模型和数学模型,并借鉴前人的工作成果,运用数学推导得到了挤出胀大与振动参数间关系的解析武.研究表明:随着振动频率和振幅的增加,挤出胀大呈非线性减少,并最后趋于稳定.","authors":[{"authorName":"曾广胜","id":"261b596a-2c19-4d68-bb65-486f034ab271","originalAuthorName":"曾广胜"},{"authorName":"瞿金平","id":"e24754d5-f3ae-4d9f-aca9-ffd5ffdad215","originalAuthorName":"瞿金平"}],"doi":"10.3969/j.issn.1005-0299.2008.02.022","fpage":"235","id":"3e0f6441-3000-413a-832d-d77679e2b6a2","issue":"2","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":"82f7e604-d56d-4aa7-b3df-8e52edfb26b3","keyword":"毛细管","originalKeyword":"毛细管"},{"id":"b16d8354-956a-408b-b607-8d2f63b4b80e","keyword":"挤出胀大","originalKeyword":"挤出胀大"},{"id":"48eb266a-d549-45ba-9ae5-0a12aebf0621","keyword":"聚合物","originalKeyword":"聚合物"},{"id":"d100c582-d04c-4a45-95c9-7c802be6627c","keyword":"电磁动态","originalKeyword":"电磁动态"}],"language":"zh","publisherId":"clkxygy200802022","title":"振动力场对聚合物挤出胀大的影响","volume":"16","year":"2008"},{"abstractinfo":"本构关系是影响模拟结果准确性的重要因素之一,本文采用一种数值模拟和压缩实验相结合的方法鼓度法,即由鼓度θ估算摩擦因子,然后通过主应力法公武去除压缩实验中摩擦因素的影响,得到6063铝合金的真实应力-应变曲线,并回归出本构方程.","authors":[{"authorName":"陈志英","id":"a0851480-66bc-4996-b58e-70413cbb2dc7","originalAuthorName":"陈志英"},{"authorName":"许树勤","id":"11d7b152-448d-4dd6-a9c6-f75f1e0676b7","originalAuthorName":"许树勤"},{"authorName":"董湘怀","id":"e58e6c32-1b4f-43a2-bf1e-83a3b5f14267","originalAuthorName":"董湘怀"},{"authorName":"阮雪榆","id":"da5b7e39-6423-4426-b311-590c3b58b5a9","originalAuthorName":"阮雪榆"}],"doi":"","fpage":"847","id":"5c00159c-8ba8-4937-9dbd-0af49936365e","issue":"6","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":"2b09a70f-c346-4bb8-b5c2-de060f09068d","keyword":"本构方程","originalKeyword":"本构方程"},{"id":"46ab4b58-4085-4390-ab97-238aa04ac64c","keyword":"鼓度","originalKeyword":"鼓度"},{"id":"23013033-a84c-40b4-b9fe-bb3561866c77","keyword":"压缩实验","originalKeyword":"压缩实验"},{"id":"434ebbdb-0149-4638-b939-798bb38d812a","keyword":"数学模型","originalKeyword":"数学模型"}],"language":"zh","publisherId":"clkxygy200806027","title":"6063铝合金压缩实验摩擦修正及高温流动应力模型","volume":"16","year":"2008"}],"totalpage":4,"totalrecord":34}