{"newsList":[{"detailid":30300560,"title":"曾豪言3000亿市值如今仅200亿,“中国的3M”何以坠落?","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":25000,"newstypesub":74005,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180421-8470-30300560.html","summery":"短短数月,这家有着“中国的3M”之称的新材料巨头屡遭重创:债务违约、董事长传闻失联、被证监会立案调查、被ST。","metakeywords":"康得新,碳纤维","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":"2019-01-24 09:55:40","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20191/15482950440537959651908449924798.jpg","listpic2":"","listpic3":"","intervalStr":"2019-01-24 09:55","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30300529,"title":"利用3D飞秒激光纳米光刻技术制备晶体纳米结构","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8140-30300529.html","summery":"材料的光学特性由其化学性质和固有的亚波长结构决定,尽管后者仍有待深入表征。光子晶体和超材料已经证明了这一点,它们通过表面的改变可提供一种全新的超越材料已知自然光学特性的光操控。","metakeywords":"晶体纳米结构,激光","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":"2019-01-24 09:27:00","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20191/15482934003803609613223551122993.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20191/15482934006956947840959242408085.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20191/15482934010221828109480198708800.jpg","intervalStr":"2019-01-24 09:27","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30300495,"title":"科研人员施妙手 棉籽壳变身新型碳材料","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8140-30300495.html","summery":"原本用于饲料和食用菌培养基的棉籽壳,经过新疆科研人员施以妙手,变身为功能强大的氮掺杂多孔碳材料。","metakeywords":"碳材料,电极材料","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":"2019-01-24 08:48:41","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-24 08:48","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30300473,"title":"全新磁性材料展现量子自旋液态","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180420-8140-30300473.html","summery":"一个国际科研团队在寻找新的物质形态方面取得重大突破:他们证明,与钙钛矿相关的金属氧化物TbInO3展现出量子自旋液态,这是科学家很长时间以来一直在追寻的一种物质形态,有望应用于量子计算等领域。","metakeywords":"磁性材料,金属氧化物","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":"2019-01-24 08:33:52","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-24 08:33","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30300287,"title":"2019年欧盟RoHS/REACH/中国RoHS管控新要求","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180420-8140-30300287.html","summery":"2018年9月4日,欧洲化学品管理局(ECHA)公布对6种潜在的高度关注物质SVHC展开公众评议。为期45天的公众评议将于2018年10月19日结束。如果所有提议的物质都被确定为高度关注物质(SVHCs),则候选名单上列出的SVHC总数将从191个增加到197个。","metakeywords":"RoHS,REACH,管控","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":"2019-01-23 10:30:09","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20191/15482107879263773309069435555369.jpg","listpic2":"","listpic3":"","intervalStr":"2019-01-23 10:30","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30300077,"title":"传巴菲特旗下伯克希尔-哈撒韦公司从地热井中提取锂供应特斯拉","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":74003,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180420-8130-30300077.html","summery":"沃伦巴菲特(Warren Buffett)旗下的伯克希尔-哈撒韦公司(Berkshire Hathaway)已经采取措施进军锂行业,并且进行了谈判,以允许从该公司位于加州的地热井中提取锂。","metakeywords":"金属锂,特斯拉","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":"2019-01-22 15:05:39","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-22 15:05","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30299841,"title":"生物相容性包扎材料效果持久无需换","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180421-8110-30299841.html","summery":"俄罗斯国立研究型技术大学莫斯科国立钢铁合金学院与捷克中欧技术学院合作,开发出一种有抗菌效果的包扎用生物分解材料。用这种材料制成的绷带具有点式效应,且效果持久,无需更换新绷带。","metakeywords":"包扎材料,纳米纤维","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":"2019-01-22 08:38:59","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-22 08:38","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30299834,"title":"欧盟大力推进镁电池研发 有助于减少对锂原材料的依赖","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":74003,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180420-8130-30299834.html","summery":"德国乌尔姆亥姆霍兹研究所和卡尔斯鲁厄理工学院正在共同开发基于镁的储能技术。镁电池是欧盟“展望2020”科研计划下的项目(E-MAGIC),欧盟为此已投资超过650万欧元。","metakeywords":"镁电池,锂原材料","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":"2019-01-22 08:35:11","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-22 08:35","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30299623,"title":"阿尔伯塔大学欲用纳米硅材料打造新款锂电池","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8140-30299623.html","summery":"阿尔伯塔大学(University of Alberta)化学家旨在创建新一代的硅基锂电池,相较于当前电池电芯产品,其充电容量(charge capacity)翻了10倍。","metakeywords":"纳米硅材料,锂电池","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":"2019-01-21 10:34:39","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20191/15480382232747448770393185205237.jpg","listpic2":"","listpic3":"","intervalStr":"2019-01-21 10:34","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30299534,"title":"新研究或大幅提高钙钛矿电池寿命","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180420-8140-30299534.html","summery":"日前,北京大学工学院材料科学与工程系周欢萍课题组和化学与分子工程学院严纯华院士课题组的合作成果“利用Eu3+/Eu2+氧化还原离子对提高铅碘钙钛矿太阳能电池工作寿命”,在线发表于国际期刊《科学》主刊。","metakeywords":"钙钛矿,电池","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":"2019-01-21 09:21:39","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-21 09:21","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30299483,"title":"新型防冰材料问世 冬季结冰不再可怕","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8110-30299483.html","summery":"冰雪灾害有时让人望冰兴叹,无可奈何。但美国休斯顿大学研究人员近日开发出一种防冰新材料,有望彻底解决飞机、缆线等表面的结冰问题。","metakeywords":"防冰材料,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":"2019-01-21 08:39:36","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-21 08:39","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30299473,"title":"液体活检再添“神器” 纳米金颗粒来助力","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8140-30299473.html","summery":"近日来自澳大利亚生物工程及纳米技术研究所Matt Trau教授率领的研究团队,开发出一种全新的纳米金颗粒,助力目前的“滴血验癌”,该研究发表于Nature Communications杂志。","metakeywords":"纳米金颗粒,液体活检","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":"2019-01-21 08:33:49","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20191/15480310087157720182107816995402.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20191/15480310092714925556100105900940.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20191/15480310095738420796127852661299.jpg","intervalStr":"2019-01-21 08:33","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30299173,"title":"布局中高端领域 江苏石墨烯勇立潮头积极探索","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8120-30299173.html","summery":"如今在电子器件、传感器、电池/超级电容器、催化剂载体以及基于石墨烯的复合材料等领域应用前景广阔。随着相关技术的不断精进,石墨烯行业发展正全面提速。","metakeywords":"石墨烯,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":"2019-01-18 10:35:13","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-18 10:35","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30299068,"title":"我国首个石墨烯国家标准出炉","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8120-30299068.html","summery":"记者17日从泰州巨纳新能源有限公司获悉,该公司牵头起草的我国首个石墨烯国家标准GB/T 30544.13-2018:《纳米科技 术语 第13部分:石墨烯及相关二维材料》正式发布。该标准也是二维材料领域的第一个国家标准。","metakeywords":"石墨烯,国家标准","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":"2019-01-18 09:03:12","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-18 09:03","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30298804,"title":"超双疏介绍:超疏水超疏油","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8110-30298804.html","summery":"超疏水自清洁涂料为德国专业科学机构历经多年的研究成果,此种纳米涂料模拟荷叶表面结构,具有超疏水、超疏油、自清洁性质,利用简单喷涂可在镀锌板、铝塑、纺织材料表面,快速形成“荷叶效应”界面。","metakeywords":"超疏水自清洁涂料,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":"2019-01-17 09:42:22","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20191/15476895021833554235941356665053.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20191/15476895024196864188301298916336.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20191/15476895027184677260859372181800.png","intervalStr":"2019-01-17 09:42","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30298771,"title":"自主研发+收购外企 华天科技5G加持封装技术打天下","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180422-8140-30298771.html","summery":"为了迎接5G时代的到来,各个封测厂商全力备战,而华天科技作为主力军之一,其自主研发的封装技术也有了新的进展。","metakeywords":"华天科技,5G,封装技术","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":"2019-01-17 09:15:26","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-17 09:15","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30298712,"title":"AMD第三代锐龙处理器将于年中发布:7nm工艺,支持PCIe4.0","content":"","addtime":0,"bigclass":180400,"smallclass":180422,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180422-8110-30298712.html","summery":"CES2019上,Lisa高调宣称第三代锐龙桌面级处理器将在2019年中发布,时间直指台北电脑展!","metakeywords":"AMD,显卡,电脑,驱动,游戏,CPU","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":"2019-01-17 08:32:02","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20191/15476853021044378425119011477633.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20191/15476853023581231433953239346129.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20191/15476853030084595969305538653388.jpg","intervalStr":"2019-01-17 08:32","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30298604,"title":"赫氏携两款复材结构件亮相北美车展 可提升强度并实现减重","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180423-8110-30298604.html","summery":"赫氏(Hexcel)的一项汽车业务,其专注于为结构件、悬架系统、车身件及内饰研发所需的各类复合物材料。","metakeywords":"复合材料,赫氏","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":"2019-01-16 14:31:05","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-16 14:31","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30298446,"title":"汽车座椅钢制框架将被塑料框架取代? 韩国推GMT-PP实现汽车减重","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180421-8140-30298446.html","summery":"韩国韩华先进材料公司(Hanwha Advanced Materials)表示,其计划在不久的将来制作一种GMT-PP汽车座椅框架,该框架采用玻璃纤维毡增强热塑性塑料聚丙烯(GMT-PP)复合物制成,与常规的钢制框架相比,具有诸多优势。","metakeywords":"钢制框架,塑料框架,聚丙烯","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":"2019-01-16 09:28:15","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-16 09:28","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30298371,"title":"一生创业三次的材料院士走了","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-01/ART-180424-8120-30298371.html","summery":"“科技没有终点,报国不会退休。”这是中国工程院院士涂铭旌生前,最后一次接受采访时所表达的观点。这位著名材料学家用一生践行了这句话,直至生命终点。","metakeywords":"纳米材料,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":"2019-01-16 08:38:15","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-01-16 08:38","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0}]}