{"newsList":[{"detailid":30446505,"title":"聚焦 | 多维度布局新材料 彤程新材全军出击","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":25000,"newstypesub":74004,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-07/ART-180423-8460-30446505.html","summery":"橡胶助剂是橡胶加工过程中添加的化工产品的总称,用于赋予橡胶制品优良弹性和提高使用性能、调整橡胶产品的结构、改善橡胶加工工艺等,在橡胶工业中扮演着不可或缺的角色,是橡胶工业重要的原材料。","metakeywords":"新材料,彤程新材,橡胶助剂","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":"2020-07-03 10:22:29","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-07-03 10:22","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30446417,"title":"科学家开发可提供电刺激的支架材料,有望被用于治愈断裂的骨头","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-07/ART-180424-8140-30446417.html","summery":"在生物医学工程师Thanh Nguyen的带领下,康涅狄格大学的科学家们却开发出了一种可提供电刺激的支架材料,而且这种材料永远不用取出来。它是由一种无毒的压电聚合物的纳米纤维制成的,这种聚合物被称为聚L-乳酸或PLLA--压电材料在施加机械应力后会产生电荷。","metakeywords":"Thanh Nguyen,支架材料,断裂骨头,电刺激","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":"2020-07-02 14:56:16","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-07-02 14:56","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30446342,"title":"国风塑业2020年上半年预计净利同比增长50%-100%","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":75011,"newstypesub":75014,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-07/ART-180421-12003-30446342.html","summery":"国风塑业(000859)发布2020年半年度业绩预告:去年预计盈利2280万元–2960万元,上年同期盈利1492.55万元,同比增长50%-100%。","metakeywords":"国风塑业,净利,高分子功能膜材料","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":"2020-07-02 10:18:20","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-07-02 10:18","channelStr":"财经","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30446295,"title":"浩通科技创业板发行上市获受理:主营业务毛利率比其他业务低","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":25000,"newstypesub":74004,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-07/ART-180420-8460-30446295.html","summery":"徐州浩通新材料科技股份有限公司创业板发行上市获得受理。","metakeywords":"浩通科技,创业板","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":"2020-07-01 17:19:12","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-07-01 17:19","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30446145,"title":"产品遍布国内高校,阿拉丁如何抢占国内科研试剂市场?","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-07/ART-180423-8420-30446145.html","summery":"提到“科学服务”,很多人不明就里。服务科研机构的企业究竟做哪些工作?为何“科学服务”企业纷纷“报考”科创板?","metakeywords":"阿拉丁,科研试剂,科学服务","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":"2020-07-01 10:09:46","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20207/15935695761925984656655115293473.png","listpic2":"","listpic3":"","intervalStr":"2020-07-01 10:09","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30446023,"title":"热点 | 俄研制新材料氰化铪陶瓷可耐4200摄氏度高温","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8140-30446023.html","summery":"报道称,俄罗斯国家科学技术大学的材料科学家研制出一种氰化铪陶瓷,理论上能承受4200摄氏度高温。在此之前,世界上公认的最耐高温、最难熔化的人造物质是钽铪碳化物。","metakeywords":"高温,氰化铪陶瓷,新材料","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":"2020-06-30 11:26:38","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15934878211974102376988249213049.png","listpic2":"https://images.ofweek.com/Upload/NewsList/20206/15934878217473699411466196305000.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20206/1593487822457503618967080426082.png","intervalStr":"2020-06-30 11:26","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30446018,"title":"新锐 | 氮化镓挑起半导体界的大梁,进入倒计时?","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":69000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180421-8500-30446018.html","summery":"近些年,由于第三代半导体材料的相关研究大多处于初级阶段,围绕其展开的各种争论不绝于耳,其中最为激烈的便是碳化硅(SiC)、氮化镓(GaN)的“一哥”之争。而最近,无论是从研发应用引起的市场反响来讲,还是从年后股票市场追捧程度来看,氮化镓王者之相已露端倪。","metakeywords":"氮化镓,半导体,宽禁带半导体","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":"2020-06-30 11:18:53","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15934873590262852313586673930304.png","listpic2":"","listpic3":"","intervalStr":"2020-06-30 11:18","channelStr":"编辑视点","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30445999,"title":"一文带你了解有机硅行业进出口市场现状与发展趋势分析","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180421-8420-30445999.html","summery":"近十年,有机硅全球产能向中国国内转移趋势明显,我国已经成为有机硅生产和消费大国,国内有机硅产品优势愈加明显,进口替代效应显著。","metakeywords":"有机硅发展现状,有机硅趋势分析,有机硅行业市场","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":"2020-06-30 10:33:32","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-06-30 10:33","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30445744,"title":"裂解设备龙头,恒誉环保在废轮胎中炼取“真经”","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":69000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8500-30445744.html","summery":"恒誉环保所在的领域除裂解工艺外,还存在多种处理技术路线,且部分工艺已经较成熟并大规模应用。技术路径的争端会直接影响其市场竞争力,恒誉环保将如何赢得市场?近三年,公司营业收入增速放缓,甚至出现负增长,恒誉环保如何重启业绩增速发动机?","metakeywords":"恒誉环保,裂解设备,环保,科创板","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":"2020-06-28 15:55:31","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15933311548761951282407333603125.png","listpic2":"","listpic3":"","intervalStr":"2020-06-28 15:55","channelStr":"编辑视点","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30445635,"title":"西部超导流通股增6.4倍,中科创星参股陕西引导基金解禁赚100%","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":25000,"newstypesub":74004,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8460-30445635.html","summery":"2020年7月22日,西部超导科创板上市已满一周年。依据上交所减持细则,其首发前投资机构所持的部分限售股开始解禁。本次限售股解禁后,流通股将会增加多少?这部分一级市场投资者的持股成本和收益如何?","metakeywords":"西部超导,中科创星,航空工业,限售股解禁,钛合金材料","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":"2020-06-28 09:09:43","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15933068066692939054231082995339.png","listpic2":"","listpic3":"","intervalStr":"2020-06-28 09:09","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30445551,"title":"通过新技术,优衣库想让高考生“装备减负”","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":25000,"newstypesub":74004,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8460-30445551.html","summery":"近些年,随着新技术在服饰领域的应用,很多人逐渐颠覆了父辈们对“轻薄,透气,吸汗”的传统认知,他们愈加不再拘泥于“纯棉,亚麻,真丝”等传统面料,而是想让自己的皮肤,与最新的科技相触。最好的例子就是优衣库。","metakeywords":"新材料,优衣库,高考,“装备减负”","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":"2020-06-24 15:56:15","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15929855927207090789589477501234.jpg","listpic2":"","listpic3":"","intervalStr":"2020-06-24 15:56","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30445492,"title":"一文了解全球超导材料行业市场规模与竞争格局分析 ","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8420-30445492.html","summery":"超导材料是指在一定条件下,具有直流电阻为零和完全抗磁性的材料。目前,已发现有46中元素和几千种合金、化合物可以成为超导材料。","metakeywords":"超导发展现状,超导竞争分析,超导行业市场","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":"2020-06-24 11:22:28","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-06-24 11:22","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30445355,"title":"PVC吨袋的优点有哪些?","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8110-30445355.html","summery":"PVC吨袋,是一种中型散装容器,是集装单元器具的一种,配以起重机或叉车,便可以实现集装单元化运输。那么PVC吨袋的广泛利用跟它本身的优点是离不开关系的,那么PVC吨袋到底有什么优点呢?","metakeywords":"PVC吨袋","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":"2020-06-23 14:17:57","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15928932995962551428455246248831.jpg","listpic2":"","listpic3":"","intervalStr":"2020-06-23 14:17","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30445353,"title":"乙炔炭黑压缩品|乙炔炭黑粉末性能","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":29000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8200-30445353.html","summery":"?乙炔炭黑其它炭黑相比具有以下特性:乙炔炭黑质量轻比重小;比表面积大吸附性强;化学性质稳定;表面活性好,导电性高;纯净度高,灰分和挥发分低。","metakeywords":"乙炔炭黑,性能","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":"2020-06-23 14:13:49","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15928930513579175649561118519798.jpg","listpic2":"","listpic3":"","intervalStr":"2020-06-23 14:13","channelStr":"产品信息","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30445229,"title":"超导电炭黑粉末","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":41000,"newstypesub":42000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8110-30445229.html","summery":"?超导电炭黑厂家生产的超导电炭黑具有粒径小,结构高,表面纯净,粗糙多空且空心胶囊状等特点,可有效在绝缘体中形成立体网状结构,有效提高导电性。","metakeywords":"超导电炭黑粉末,导电炭黑","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":"2020-06-22 16:32:41","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-06-22 16:32","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30444806,"title":"明讯新材完成数亿元人民币融资","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":75011,"newstypesub":75016,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-12005-30444806.html","summery":"明讯新材完成了数亿元人民币融资,长石资本作为消费电子产业基金被战略引入,同时参与本轮融资的还有复星、毅达及同创伟业等一线投资机构。","metakeywords":"明讯新材,长石资本,融资","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":"2020-06-18 14:12:33","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-06-18 14:12","channelStr":"财经","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30444193,"title":"华为、宁德时代出动,巨头为何纷纷“入坑”充电桩?","content":"","addtime":0,"bigclass":180400,"smallclass":180423,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180423-8420-30444193.html","summery":"不止是华为,各路巨头似乎都在展现着对充电桩的偏爱。疫情寒冬之下,充电桩领域却过了一个十足的“春天”。","metakeywords":"华为,新能源汽车,充电桩,宁德时代,新基建","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":"2020-06-13 14:06:02","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-06-13 14:06","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30444164,"title":"东京大学研究人员就半导体材料热导率调节取得重大进展","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180424-8140-30444164.html","summery":"东京大学教授Junichiro Shiomi及其小组近日就通过减少内部纳米结构来降低半导体材料热导率而展开了研究。在结合了机器学习和分子模拟的材料信息学(MI)指导下,研究人员通过设计、制造以及评估最优纳米结构多分子层材料,已经成功地将热导率进行了最小化。","metakeywords":"半导体,热导率,薄膜沉积法","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":"2020-06-13 10:27:00","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2020-06-13 10:27","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30444143,"title":"焊接冠军华光新材:供货美的格力,下游受阻如何翻盘?","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":69000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180420-8500-30444143.html","summery":"华光新材第一大主营业务受阻,身负“制造业单项冠军示范企业”盛名,背靠“工业万能胶”技术,华光新材能否延续“冠军称号”?供货美的格力之外,它能否拓展其他下游应用领域?","metakeywords":"华光新材,美的,格力,绿色智能,电机焊接,永磁牵引电机","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":"2020-06-13 09:32:23","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15920121434513289013907188258973.png","listpic2":"","listpic3":"","intervalStr":"2020-06-13 09:32","channelStr":"编辑视点","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30444010,"title":"热点 | 噢力给,超快凝胶制备","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":25000,"newstypesub":10000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2020-06/ART-180421-8440-30444010.html","summery":"近日,德累斯顿工业大学的杜然博士后发展了一种非常规的新型快速胶凝策略,即在凝胶化过程中原位引入扰动场以促进物质运输并诱导加速反应动力学,在去除干扰场后,所得的凝胶碎片可以利用自愈合性能重新组装为整体。","metakeywords":"超快凝胶,高分子材料,杜然","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":"2020-06-12 11:56:10","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20206/15919343852771131111419590236915.png","listpic2":"","listpic3":"","intervalStr":"2020-06-12 11:56","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0}]}