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  3. {"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"研究了1-十八烷基-3-甲基氯化咪唑修饰的蒙脱土/聚丙烯复合材料耐热老化性能.结果表明,热老化前改性蒙脱土/聚丙烯复合材料的拉伸性能、弯曲性能与聚丙烯相比均有所改善,分别提高了7.3%和17.5%,冲击性能提高达54%.经以5 d为一老化周期的热老化,研究了4个老化周期中改性蒙脱土/聚丙烯复合材料的力学性能保持率,质量变化率,以及颜色变化的情况.研究发现,在热老化过程中,复合材料的力学性能有很高的保持率,部分性能甚至得到改善,复合材料的质量变化很小,颜色无明显加深,说明该离子液体修饰的蒙脱土/聚丙烯纳米复合材料不仅有很好的力学性能,而且耐热老化性能优越.","authors":[{"authorName":"张效敏","id":"2456c2cb-ac6f-41c5-b1c2-04b108e64fa2","originalAuthorName":"张效敏"},{"authorName":"丁运生","id":"4c90159d-1ddf-4b28-9840-8cf2fff711b7","originalAuthorName":"丁运生"},{"authorName":"吴淑莹","id":"3adbaada-3691-482f-9cbc-7e17142b5f2c","originalAuthorName":"吴淑莹"},{"authorName":"","id":"5fc8dff5-d72e-4087-bb89-e2a65d9d721b","originalAuthorName":"田亮"},{"authorName":"熊仁艳","id":"dcb64b10-00ac-45c6-994a-1ca9cd61fac8","originalAuthorName":"熊仁艳"},{"authorName":"陈龙","id":"acc6fb4e-02d2-4ee4-a6c4-0a0b788ac74b","originalAuthorName":"陈龙"},{"authorName":"唐海欧","id":"375dd377-26bb-451c-adea-fcf8f302586e","originalAuthorName":"唐海欧"},{"authorName":"查敏","id":"a6584d38-9cc0-4ce2-800b-82c5b57cc056","originalAuthorName":"查敏"}],"doi":"","fpage":"82","id":"ca9ac49a-9c23-42e6-997f-7f11def8877c","issue":"6","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":"82b4f49c-14b4-40f0-a37f-71c6e77e28e3","keyword":"离子液体","originalKeyword":"离子液体"},{"id":"28414942-1abc-4877-98dc-e21b10f2c8fe","keyword":"蒙脱土/聚丙烯复合材料","originalKeyword":"蒙脱土/聚丙烯复合材料"},{"id":"6469f195-0f2f-4f25-a47a-0f108f7c6df5","keyword":"耐热老化","originalKeyword":"耐热老化"},{"id":"2a90b807-deb1-4a5f-a694-fd7434417a0c","keyword":"力学性能","originalKeyword":"力学性能"}],"language":"zh","publisherId":"gfzclkxygc200906023","title":"咪唑基离子液体修饰蒙脱土/聚丙烯复合材料的耐热老化性能","volume":"25","year":"2009"},{"abstractinfo":"总结了直接加入碳纳米管法和催化酚醛树脂原位生成碳纳米管法应用在低碳耐火材料中的研究现状,提出了碳纳米管增强碳复合耐火材料目前存在的问题和今后潜在的发展方向。","authors":[{"authorName":"王军凯","id":"b3ea046b-4afa-4934-97ec-0d2eff0ff4be","originalAuthorName":"王军凯"},{"authorName":"邓先功","id":"5474f6e6-91db-4058-9d0b-bf1b18cd5157","originalAuthorName":"邓先功"},{"authorName":"张海军","id":"b887a917-6c20-473e-be46-b4578d84a722","originalAuthorName":"张海军"},{"authorName":"李发亮","id":"1d74b6c1-46ca-43b7-b891-aef9d4bc1877","originalAuthorName":"李发亮"},{"authorName":"宋健波","id":"e347ab08-039f-4dbb-a223-a1a3122deaa9","originalAuthorName":"宋健波"},{"authorName":"","id":"217ec135-bdd2-402b-9611-750feb18ddcb","originalAuthorName":"田亮"},{"authorName":"张少伟","id":"a30e3187-0c69-4ab5-b8b3-a0ef16da81f8","originalAuthorName":"张少伟"}],"doi":"10.3969/j.issn.1001-1935.2016.02.019","fpage":"150","id":"0c829e9d-b76b-4c6e-b04d-81822ac731bc","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":"7926e42e-7838-4252-9111-fdf4d30dabcb","keyword":"碳纳米管","originalKeyword":"碳纳米管"},{"id":"9c0dcd18-d086-460f-a165-b2f292ca8699","keyword":"碳复合耐火材料","originalKeyword":"碳复合耐火材料"},{"id":"6392b522-0280-4e25-ab80-e8750e17abf1","keyword":"催化","originalKeyword":"催化"},{"id":"7e3529da-c93e-4eee-819a-d889e563fa05","keyword":"酚醛树脂","originalKeyword":"酚醛树脂"}],"language":"zh","publisherId":"nhcl201602019","title":"碳纳米管增强碳复合耐火材料的研究进展","volume":"50","year":"2016"},{"abstractinfo":"设计一种新型生物医用亚稳定β钦合金,合金成分为Ti-25Nb-10Ta- 1Zr-0.2Fe(质量分数),采用真空自耗电弧熔炼制备合金锭坯,研究合金的固溶时效行为.通过X射线衍射(XRD)仪,透射电子显微镜(TEM),扫描电子显微镜(SEM)研究合金的相组成及微观组织.测量合金时效后的抗拉强度和不同时效时间的硬度.结果表明:800℃,1 h固溶后合金得到马氏体a″相,400℃下时效,短时间即得到ω相和β相.ω相为脆性相,大量ω相的产生使合金的硬度值提高很多,但是强度值相比较冷轧态下降明显,使得材料断裂方式变为脆性断裂.合金在72 h时效后ω相仍然保持较多量.","authors":[{"authorName":"廉才浩","id":"d2a0626d-ff3d-467f-bf64-307e946a3a16","originalAuthorName":"廉才浩"},{"authorName":"易丹青","id":"0f890300-cb1e-42e3-b44c-8c97cbe1544a","originalAuthorName":"易丹青"},{"authorName":"刘会群","id":"441e187d-e3f3-48fa-9eae-58a1c7240bb9","originalAuthorName":"刘会群"},{"authorName":"杨伏良","id":"bcb6e3c7-ab19-4290-933a-3ed82c15bccf","originalAuthorName":"杨伏良"},{"authorName":"","id":"cc518c8f-6232-4ef4-a05b-f576ec66a593","originalAuthorName":"田亮"}],"doi":"","fpage":"1633","id":"0c377321-23af-48c4-a482-448f3f2cde41","issue":"9","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":"e181f6d2-a415-45de-ba6f-c0f76e6fd354","keyword":"β钛合金","originalKeyword":"β钛合金"},{"id":"057c7e4b-8d4e-48f7-abb8-3e1d9282f1c9","keyword":"固溶时效","originalKeyword":"固溶时效"},{"id":"ee55a62d-5ccc-43bf-bd3e-9b81910f311a","keyword":"力学性能","originalKeyword":"力学性能"},{"id":"ae7d1a2a-4d47-4c02-a766-7793da9ac445","keyword":"ω相","originalKeyword":"ω相"}],"language":"zh","publisherId":"xyjsclygc201109028","title":"新型β钛合金Ti-25Nb-10Ta-1Zr-0.2Fe的固溶时效行为","volume":"40","year":"2011"},{"abstractinfo":"采用真空钎焊方法,以Ti50Cu+W钎料连接Si/SiC复相陶瓷与殷钢.观察分析了获得接头显微组织结构,测定了接头的力学性能,研究了工艺参数和增强相W含量对接头组织结构和力学性能的影响.研究结果表明:采用Ti50Cu+W钎料连接Si/SiC复相陶瓷与殷钢,可获得连接良好、组织致密的接头,W含量30%(体积分数),钎焊温度970℃,保温时间5rain时,接头室温剪切强度达到最大值106MPa.","authors":[{"authorName":"","id":"df5ed0c6-104e-401b-a932-5807af2ec6d3","originalAuthorName":"田亮"},{"authorName":"黄继华","id":"aae3960e-9671-4885-81e4-539604d7fb9e","originalAuthorName":"黄继华"},{"authorName":"张志远","id":"17a53728-9780-4712-8b8f-c7089995e089","originalAuthorName":"张志远"},{"authorName":"赵兴科","id":"445dec24-acb3-40ea-a040-d63bce68d05c","originalAuthorName":"赵兴科"},{"authorName":"张华","id":"71e00f4e-0569-4232-84ee-87f01e91f806","originalAuthorName":"张华"}],"doi":"10.3969/j.issn.1001-4381.2008.09.019","fpage":"71","id":"316fe4a5-9b49-4351-a8b9-16aa54b3b2bb","issue":"9","journal":{"abbrevTitle":"CLGC","coverImgSrc":"journal/img/cover/CLGC.jpg","id":"9","issnPpub":"1001-4381","publisherId":"CLGC","title":"材料工程"},"keywords":[{"id":"31cd1624-0586-4ecc-9fdc-bd88f8326742","keyword":"Si/SiC复相陶瓷","originalKeyword":"Si/SiC复相陶瓷"},{"id":"d54ef780-8273-40cc-be2c-b8771076b8e2","keyword":"殷钢","originalKeyword":"殷钢"},{"id":"61df221e-5bdb-434d-9dfb-0e1b1761abf6","keyword":"Ti50Cu+W钎料","originalKeyword":"Ti50Cu+W钎料"},{"id":"33aef18a-b831-4e59-9493-12acc8b51b87","keyword":"真空钎焊","originalKeyword":"真空钎焊"}],"language":"zh","publisherId":"clgc200809019","title":"用Ti50Cu+W钎料连接Si/SiC复相陶瓷与殷钢的研究","volume":"","year":"2008"},{"abstractinfo":"本文根据油罐火灾的燃烧特点,从基本的传热规律和燃烧机理出发,以油品表面热反馈的能量平衡为前提,并利用化工热力学方法计算了火焰的平均温度,通过迭代方法,并结合相关的实验数据和结果,提出了油罐火灾燃烧过程的通用模型,该模型可适用于多种碳氢类燃料.本文以汽油为例,通过计算可以得到着火油罐的多项燃烧特性,包括燃烧速度、平均火焰温度等,是获取油罐周围热辐射规律的基础和前提,计算结果可为火灾现场战术的决策以及预案的制订提供依据.","authors":[{"authorName":"魏东","id":"9369bf24-f0c5-45c4-97c8-ab8ea45d6bcb","originalAuthorName":"魏东"},{"authorName":"薛岗","id":"4cd01930-a0ca-4c46-8ccb-f31284fd05c4","originalAuthorName":"薛岗"},{"authorName":"","id":"b6c11096-a704-4c1a-910c-ea22b0424523","originalAuthorName":"田亮"},{"authorName":"杨君涛","id":"19384704-ad31-4e93-9c94-d2f6252952f3","originalAuthorName":"杨君涛"}],"doi":"","fpage":"335","id":"57a1abfa-1930-4d46-b2e5-0afc58f7d357","issue":"2","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"51e0b94d-d4ce-424b-a984-eef050e30aae","keyword":"油罐火灾","originalKeyword":"油罐火灾"},{"id":"0d70df1e-069e-4d7e-aa70-b33a04bf3375","keyword":"燃烧特性","originalKeyword":"燃烧特性"},{"id":"5a43f3ec-6967-4c42-b1f2-f84197834319","keyword":"热量传递","originalKeyword":"热量传递"},{"id":"96678d1e-62c2-43f0-801d-a155c3e28687","keyword":"通用模型","originalKeyword":"通用模型"}],"language":"zh","publisherId":"gcrwlxb200502048","title":"着火油罐燃烧过程预测的通用模型","volume":"26","year":"2005"},{"abstractinfo":"采用水解改性PAN超滤膜作为基膜.通过动态电场强化技术复合聚乙烯亚胺(PEI)制备聚电解质渗透汽化复合膜,考察了不同电压对聚离子复合膜的渗透汽化性能的影响.实验测定了复合膜对不同醇/水体系的分离性能,发现在仅复合一层PEI时,电场强化LBL组装膜(5 V电压作用)对质量分数为95%的异丁醇/水体系的分离因子可达485,渗透通量为1521g/(m2·h)(60℃).","authors":[{"authorName":"高学","id":"49390507-58d4-4b8b-930e-d5f43c84059f","originalAuthorName":"高学"},{"authorName":"张国俊","id":"b9b9cbe4-5b0e-4020-9d22-eeee99c7bb8f","originalAuthorName":"张国俊"},{"authorName":"纪树兰","id":"133b91da-3066-4dce-b1d3-c38889f3470c","originalAuthorName":"纪树兰"},{"authorName":"刘忠洲","id":"0b8ac5bd-5cd1-400e-b297-2fef516f67aa","originalAuthorName":"刘忠洲"},{"authorName":"","id":"216e9899-1560-4cb2-8a73-19e8db021db6","originalAuthorName":"田亮"}],"doi":"10.3969/j.issn.1007-8924.2008.04.020","fpage":"97","id":"8c8f399a-02cf-4aac-9bc5-badd140a28ed","issue":"4","journal":{"abbrevTitle":"MKXYJS","coverImgSrc":"journal/img/cover/MKXYJS.jpg","id":"54","issnPpub":"1007-8924","publisherId":"MKXYJS","title":"膜科学与技术 "},"keywords":[{"id":"2ad2b54e-419e-4be9-b3d9-82eda9d11bff","keyword":"电场强化组装","originalKeyword":"电场强化组装"},{"id":"2a20cd5b-fa43-4974-a028-5745eeee9622","keyword":"聚丙烯腈超滤膜","originalKeyword":"聚丙烯腈超滤膜"},{"id":"12b25ce6-384a-4400-8ada-5870dd966385","keyword":"渗透汽化","originalKeyword":"渗透汽化"},{"id":"17b5ac9b-1e2e-4707-950f-2e67017c73f2","keyword":"聚离子复合膜","originalKeyword":"聚离子复合膜"}],"language":"zh","publisherId":"mkxyjs200804020","title":"电场强化组装聚离子复合物膜研究","volume":"28","year":"2008"},{"abstractinfo":"通过对直径D=1 m、1.5 m、2.7 m全掀顶油罐着火特性实验研究,分别得出汽油、柴油的火焰形状,及距油罐1D,1.5D的火焰辐射强度和温度动态分布数据,对直径1 m的相邻油罐,得出在火灾辐射场中其壁面温度分布和罐体内部压力及温度动态变化曲线,研究内容对修订我国相关消防规范和工程设计提供参考,同时为开展数值模拟提供参照标准.","authors":[{"authorName":"刘万福","id":"f6dc0a3b-f548-43eb-bb4b-ada3dff68e52","originalAuthorName":"刘万福"},{"authorName":"","id":"3aa7127c-504a-4611-bae6-7683b90fde2e","originalAuthorName":"田亮"},{"authorName":"薛岗","id":"f2e41d6d-4e38-4162-90de-2d747a607db2","originalAuthorName":"薛岗"},{"authorName":"赵大林","id":"cdd26be7-b1fa-476b-9b4c-b9b9dd4fe60d","originalAuthorName":"赵大林"}],"doi":"","fpage":"271","id":"cfb9fc0b-60c9-4e2c-a97a-287353ade3dd","issue":"2","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"1932ada6-9aec-4193-9ce7-135e91490371","keyword":"火焰辐射","originalKeyword":"火焰辐射"},{"id":"10370bc5-af75-4982-a53a-0f94eeba1411","keyword":"火焰形状","originalKeyword":"火焰形状"},{"id":"65cfe2eb-2c19-40bb-8b57-b6d2c18a1c8a","keyword":"火焰温度","originalKeyword":"火焰温度"},{"id":"0752ae66-613a-40a5-a2d8-bc735a1330e6","keyword":"油罐火灾","originalKeyword":"油罐火灾"}],"language":"zh","publisherId":"gcrwlxb200402027","title":"着火油罐辐射热传递过程实验研究","volume":"25","year":"2004"},{"abstractinfo":"本文通过对直径为1 m、1.5 m和2.7 m的汽油储罐进行火灾实验,分析了汽油罐燃烧时不同阶段的燃烧特性.本文重点讨论了描述燃烧特性的几个重要参数的变化规律,包括火焰脉动频率、火焰高度、倾斜角度以及火焰的温度分布等,并将结果拟合为相应的实验关联式,以揭示油罐火灾的内在规律和预测其发展趋势.","authors":[{"authorName":"赵大林","id":"cd52f334-7947-452e-a924-da50fd0bd72a","originalAuthorName":"赵大林"},{"authorName":"魏东","id":"f41e2713-d3dc-47d7-bfc8-87b4170ded58","originalAuthorName":"魏东"},{"authorName":"","id":"8339b9d2-772e-4cf3-9ec0-19e2040ad58e","originalAuthorName":"田亮"},{"authorName":"薛岗","id":"fe2229b8-cf15-44db-8706-e51bb0c91cee","originalAuthorName":"薛岗"}],"doi":"","fpage":"341","id":"f3599934-e99b-4bc5-922e-c30ab6debc2e","issue":"2","journal":{"abbrevTitle":"GCRWLXB","coverImgSrc":"journal/img/cover/GCRWLXB.jpg","id":"32","issnPpub":"0253-231X","publisherId":"GCRWLXB","title":"工程热物理学报 "},"keywords":[{"id":"b3dbdbf6-943d-498e-b191-3599986b1bce","keyword":"汽油储罐","originalKeyword":"汽油储罐"},{"id":"f8375333-1480-4c2e-8138-bc97b9de9ca3","keyword":"池火","originalKeyword":"池火"},{"id":"f4bf174d-d3da-4c1a-98ed-928d10dabf1b","keyword":"燃烧特性","originalKeyword":"燃烧特性"},{"id":"1385e6a2-dc5f-42c8-8462-9e76bec2c254","keyword":"火焰温度","originalKeyword":"火焰温度"}],"language":"zh","publisherId":"gcrwlxb200402049","title":"汽油储罐火灾燃烧特性的实验研究","volume":"25","year":"2004"},{"abstractinfo":"测量了碳含量(质量分数,%)分别为0.24,0.28,0.30,0.39和0.44的Cr-Ni-Mo装甲钢板基体、变形区及绝热剪切带的显微硬度,观察绝热剪切带形貌和微观组织结构.结果表明:随硬度升高,绝热剪切带的数量增多.绝热剪切带的硬度远高于基体及淬火态试样的硬度,其硬度随碳含量变化的规律与淬火态试样随碳含量变化的规律一致.绝热剪切带微观组织是由非常细小的马氏体板条构成的,未观察到绝热剪切带内部析出碳化物相.可以认为,高硬度装甲钢板中绝热剪切带的硬化可分为碳和合金元素的固溶强化、变形亚结构的相变遗传和组织细化三个部分.","authors":[{"authorName":"时捷","id":"befc86c7-b9d3-42a3-a775-43491e44592a","originalAuthorName":"时捷"},{"authorName":"董瀚","id":"2f6dd37a-5065-4921-973b-c10cb96c7c54","originalAuthorName":"董瀚"},{"authorName":"王琪","id":"f096ca67-e116-4f46-b8b7-93ce384e96ff","originalAuthorName":"王琪"},{"authorName":"","id":"04a8d600-c0d7-4f73-b491-5cbda1c8a94d","originalAuthorName":"田亮"}],"doi":"10.3321/j.issn:0412-1961.2000.10.009","fpage":"1045","id":"ec19a240-533c-4d15-b73c-40f4ed018b5a","issue":"10","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"6e7c20de-dfae-4e66-9723-a7518826b2f7","keyword":"装甲钢","originalKeyword":"装甲钢"},{"id":"caa5853d-16e3-4c69-a4bf-7894cefba6e0","keyword":"绝热剪切带","originalKeyword":"绝热剪切带"},{"id":"acba5991-a1ca-4bfb-8738-74bbabc209f9","keyword":"显微硬度","originalKeyword":"显微硬度"},{"id":"e59a6d4b-2e95-4c81-b2d2-ddd6cb502b97","keyword":"微观组织结构","originalKeyword":"微观组织结构"}],"language":"zh","publisherId":"jsxb200010009","title":"装甲钢板中绝热剪切带的特征","volume":"36","year":"2000"},{"abstractinfo":"测量了碳含量(质量分数, %)分别为0.24, 0.28, 0.30, 0.39和0.44的Cr-Ni-Mo装甲钢板基体, 变形区及绝热剪切带的显微硬度, 观察绝热剪切带形貌和微观组织结构. 结果表明: 随硬度升高, 绝热剪切带的数量增多. 绝热剪切带的硬度远高于基体及淬火态试样的硬度, 其硬度随碳含量变化的规律与淬火态试样随碳含量变化的规律一致.","authors":[{"authorName":"时捷","id":"53eab0df-fdb0-43b5-b5cb-1214a083728d","originalAuthorName":"时捷"},{"authorName":"董瀚","id":"68bd3f99-e59d-49ed-8ac9-ca6c3527276e","originalAuthorName":"董瀚"},{"authorName":"","id":"1df8e4f3-422e-4a1e-9493-c0954afdbbc3","originalAuthorName":"田亮"}],"categoryName":"|","doi":"","fpage":"1045","id":"d3845178-486b-4687-9b72-e75920f8e017","issue":"10","journal":{"abbrevTitle":"JSXB","coverImgSrc":"journal/img/cover/JSXB.jpg","id":"48","issnPpub":"0412-1961","publisherId":"JSXB","title":"金属学报"},"keywords":[{"id":"c3afe08b-d4a9-4777-be2f-42d35f19037a","keyword":"装甲钢","originalKeyword":"装甲钢"},{"id":"2096672e-39bd-4377-a279-0c05390bd684","keyword":"null","originalKeyword":"null"}],"language":"zh","publisherId":"0412-1961_2000_10_12","title":"装甲钢板中绝热剪切带的特征","volume":"36","year":"2000"}],"totalpage":31,"totalrecord":308}