{"newsList":[{"detailid":30392241,"title":"高分子技术助力综合管廊外墙防水","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180421-8140-30392241.html","summery":"记者日前从成都天府国际机场建设方获悉,一种新型高分子模板加固止水杆,成功应用于机场综合管廊工程。该技术通过优化高分子模板加固方式,有效增加了综合管廊外墙防水止水性能。","metakeywords":"高分子技术,模板","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-14 09:09:31","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15604746517311163946749406700273.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20196/15604746519067328230725254892243.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20196/15604746520457208465066714544518.jpg","intervalStr":"2019-06-14 09:09","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30392177,"title":"常说的充气膜结构建筑的三大安全性是什么?","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":69000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180421-8500-30392177.html","summery":"充气膜结构全封闭的结构形式以及安全性能是唯一能达到北美生态景区环保要求的轻质结构形式。","metakeywords":"充气膜结构,安全性","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-13 16:25:39","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15604144336418483207591565859911.jpg","listpic2":"","listpic3":"","intervalStr":"2019-06-13 16:25","channelStr":"编辑视点","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391894,"title":"聚酰亚胺(PI)技术待突破 2024年全球市场超30亿美元","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180421-8420-30391894.html","summery":"《2019-2024年聚酰亚胺(PI)行业市场深度调研及投资前景预测分析报告》显示,2018年全球PI薄膜的市场规模为17.8亿美元,预计2024年将达到36.1亿美元。","metakeywords":"聚酰亚胺,市场前景,投资趋势,发展概况,新材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-13 08:30:48","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-13 08:30","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391754,"title":"苹果欲收购英特尔调制解调器业务 加快芯片自研速度","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":41000,"newstypesub":74003,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180422-8130-30391754.html","summery":"苹果正在和英特尔洽谈,意欲收购英特尔位于德国的调制解调器芯片业务,从而加快其自研芯片的步伐。","metakeywords":"苹果,英特尔,芯片","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180422,"typename":"无机非金属材料","urlcode":180422,"nameAB":"inorganic"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-12 11:23:00","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15603098120364055009853083677200.jpg","listpic2":"","listpic3":"","intervalStr":"2019-06-12 11:23","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391669,"title":"电厂储煤场的封闭形式","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180421-8110-30391669.html","summery":"目前用气膜来实现电厂煤场全封闭可解决以上问题。","metakeywords":"气膜全封闭,电厂储煤场","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-12 10:00:07","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15603049006085417411371790890353.jpg","listpic2":"","listpic3":"","intervalStr":"2019-06-12 10:00","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391615,"title":"瑞典公司推出SiCA轻量化铝刹车盘","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180420-8110-30391615.html","summery":"在欧洲制动器专业展会(EuroBrake)上,汽车零部件公司Floby重新推出SiCA light制动盘。这是一种带有碳化硅增强颗粒的铝刹车盘,具有轻量化、安全耐用和可持续的特点。","metakeywords":"SiCA,铝刹车盘","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180420,"typename":"金属材料","urlcode":180420,"nameAB":"metal"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-12 09:17:34","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-12 09:17","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391566,"title":"可循环利用食品包装透明薄膜问世","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180422-8140-30391566.html","summery":"英国牛津大学科学家研发出一种完全可循环、非常安全的透明薄膜,甚至可以取代现有的用于食品包装的金属涂层复合材料。该薄膜采用了一种全新环保制造工艺,比目前行业所使用的材料更容易循环利用。","metakeywords":"透明薄膜,食品包装","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180422,"typename":"无机非金属材料","urlcode":180422,"nameAB":"inorganic"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-12 08:32:23","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-12 08:32","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391463,"title":"Arm和AMD“熄火”后,高通大力投入的RISC-V能否给华为托底?","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":25000,"newstypesub":74005,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180422-8470-30391463.html","summery":"对于想要破局的国内科技公司来说,积极发挥对这一架构的影响,依托市场走势去做深入改进以使其找到自己独有的应用方向,或是更加需要考虑的事。","metakeywords":"华为,高通,RISC-V,芯片","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180422,"typename":"无机非金属材料","urlcode":180422,"nameAB":"inorganic"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-11 14:24:56","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15602342809402923273712102876995.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20196/15602342812314442783684164902669.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20196/15602342815494650679542465622653.jpg","intervalStr":"2019-06-11 14:24","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391408,"title":"金属与玻璃焊接新工艺 或为汽车制造业带来颠覆性变化","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180424-8140-30391408.html","summery":"苏格兰爱丁堡赫瑞瓦特大学(Heriot-Watt University)的研究人员,研发出一种超高速激光系统,可将玻璃和金属焊接在一起。汽车制造业或将因此迎来颠覆性变化。","metakeywords":"金属,玻璃,焊接新工艺","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-11 11:13:33","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-11 11:13","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391397,"title":"海思能否带领中国的芯片设计突围?","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180422-8420-30391397.html","summery":"近年来我国设计产业发展迅猛,行业增速远超国际平均水平,华为海思已经达到7nm先进制程,在5G芯片技术上也走在世界前列。比特大陆、寒武纪科技等在ASIC芯片领域独树一帜,让中国在芯片设计领域弯道超车成为可能。","metakeywords":"芯片,海思,华为","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180422,"typename":"无机非金属材料","urlcode":180422,"nameAB":"inorganic"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-11 10:59:51","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15602220355514613615764492430372.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20196/15602220357375778257748514368940.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20196/15602220360903906397630460360695.png","intervalStr":"2019-06-11 10:59","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391248,"title":"锶铁氧体块状单晶生长成功","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180424-8140-30391248.html","summery":"俄罗斯南乌拉尔国立大学首次生长出锶铁氧体块状单晶结构。","metakeywords":"锶铁氧体,纳米材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-11 08:39:09","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-11 08:39","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391219,"title":"应用材料公司在台湾南部建设显示设备工厂","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":25000,"newstypesub":74004,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180421-8460-30391219.html","summery":"应用材料公司(Applied Materials)在台湾南部科学工业园区(Southern Taiwan Science Park,STSP)设立了显示设备制造中心和研发实验室,旨在探索10.5代液晶面板等先进显示材料和设备以及柔性和传统刚性OLED显示解决方案的商机","metakeywords":"显示设备,应用材料公司","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-10 16:39:00","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-10 16:39","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391025,"title":"可循环使用的超疏水超亲油PC/cMWCNTs多孔整体材料","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180421-8140-30391025.html","summery":"近期,美国田纳西大学联合山东理工大学、河南郑州大学等国内四所大学研发了一种可以从水中吸收特定油的多孔整体材料(超疏水/超亲油的聚碳酸酯/碳纳米管多孔材料)。","metakeywords":"多孔整体材料,聚碳酸酯,碳纳米管","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180421,"typename":"高分子材料","urlcode":180421,"nameAB":"polymers"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-10 09:55:01","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15601317939593684257094037405155.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20196/15601317943546477033838000001403.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20196/15601317947095729883484433623191.jpg","intervalStr":"2019-06-10 09:55","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30391018,"title":"三星折叠屏重启发售在即?内部人士称或将下个月","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180422-8110-30391018.html","summery":"据韩媒报道,此前因为屏幕故障而暂停发售的三星折叠屏手机Galaxy Fold已经完成了修复工作,预计将于下个月重新发售。","metakeywords":"折叠屏,三星","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180422,"typename":"无机非金属材料","urlcode":180422,"nameAB":"inorganic"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-10 09:46:10","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15601311348421548597385763654548.jpg","listpic2":"","listpic3":"","intervalStr":"2019-06-10 09:46","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30390976,"title":"空客在华合资企业成为A350机型部分复合材料结构件全球唯一供应商","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180423-8110-30390976.html","summery":"空中客车公司日前表示,空客在华合资公司——哈尔滨哈飞空客复合材料制造中心目前已经成为空客A350XWB宽体飞机方向舵等复合材料结构件的全球唯一供应商,成为其全球供应链的重要部分。","metakeywords":"复合材料,结构件,空客","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180423,"typename":"复合材料","urlcode":180423,"nameAB":"composite"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-10 09:09:21","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-10 09:09","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30390944,"title":"我研制出世界目前最薄钙钛矿二维材料","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180422-8140-30390944.html","summery":"6月6日,国际顶级期刊《自然》发表了南京大学科研团队一项成果,他们成功制备了原子层厚度的氧化物钙钛矿二维材料。该成果开启了一扇通往具有丰富强关联二维量子现象的大门。","metakeywords":"二维材料,钙钛矿,石墨烯","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180422,"typename":"无机非金属材料","urlcode":180422,"nameAB":"inorganic"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-10 08:40:40","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-10 08:40","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30390938,"title":"新型仿生隔热材料结构类似北极熊毛发","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180424-8140-30390938.html","summery":"中国科技大学化学系俞书宏教授课题组仿照单根北极熊毛发的中空结构,并将其扩展到由许多毛发组成的块体材料上。研究成果6月6日发表在细胞出版社旗下期刊《化学》上。","metakeywords":"仿生隔热材料,新材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-10 08:38:06","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-10 08:38","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30390884,"title":"彩虹邵阳特种玻璃项目首条生产线提前达产","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180424-8120-30390884.html","summery":"近日,在湖南省委省政府、邵阳市委市政府及社会各界的大力支持下,在中国电子的正确领导下,彩虹集团(邵阳)特种玻璃有限公司G7.5盖板玻璃智能化工厂首条生产线提前达产,达到项目验收条件。该项目是在咸阳G6盖板玻璃产线量产成功的基础上,彩虹集团与邵阳市签约合作投资建设的","metakeywords":"特种玻璃,盖板玻璃","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-09 01:19:00","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15598056949476205746912562783374.jpg","listpic2":"","listpic3":"","intervalStr":"2019-06-09 01:19","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30390840,"title":"是什么成就了稀土这张王牌","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180420-8420-30390840.html","summery":"作为不可再生的稀缺性战略资源,它有“工业维生素”“新材料之母”之称,广泛应用于尖端科技领域和军工领域。","metakeywords":"稀土,金属","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180420,"typename":"金属材料","urlcode":180420,"nameAB":"metal"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-08 01:09:00","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15598122700131263830675588790391.jpg","listpic2":"","listpic3":"","intervalStr":"2019-06-08 01:09","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30390762,"title":"专注柔性电子材料 柔电云科正在为面膜材质革新提供更多可能","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":20000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180424-8600-30390762.html","summery":"胡雪丰博士告诉动脉新医药,他在研究中发现,当微电流可以显著提高抗生素对细菌生物被膜的杀灭效果。","metakeywords":"柔电云科,柔性电子材料","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"smallType":{"typeid":180424,"typename":"前沿新材料","urlcode":180424,"nameAB":"qianyan"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-06-07 01:06:00","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/1559804982831484415889497320846.jpg","listpic2":"","listpic3":"","intervalStr":"2019-06-07 01:06","channelStr":"高端访谈","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0}]}