{"newsList":[{"detailid":30401098,"title":"石墨烯远红外助力健康理疗,掀起智慧养生热潮","content":"","addtime":0,"bigclass":180400,"smallclass":0,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180400-8120-30401098.html","summery":"石墨烯材料在通电条件下能产生4-16um的远红外线光波,与人体光波非常接近,对细胞的共振效用、渗透作用、温热效果在大健康行业应用广泛。近几年,大健康产业衍生出一系列石墨烯理疗产品,石墨烯发热膜便是其中之一","metakeywords":"石墨烯,石墨烯远红外","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-07-31 13:50:18","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15645523225118361725810177221957.jpg","listpic2":"","listpic3":"","intervalStr":"2019-07-31 13:50","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30400711,"title":"半导体等行业超纯水系统的基本设计指引","content":"","addtime":0,"bigclass":180400,"smallclass":0,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180400-8120-30400711.html","summery":"一、超纯水之定义DI=Deionized , DI  Water = Deionized  Water,为去离子之意,亦即通称之纯水(PURE WATER),近来由于半导体制程对设","metakeywords":"半导体行业,超纯水,设计指导","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-07-29 14:01:28","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15643800394482094352566550209545.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20197/15643800398413284457212678051362.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20197/15643800401485191985729431755993.jpg","intervalStr":"2019-07-29 14:01","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30399700,"title":"警惕聚烯烃加厚带来的背板失效风险","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180424-8120-30399700.html","summery":"塑料在应用领域,大致分为通用塑料和工程塑料。教科书是这样定义两类塑料的:通用塑料:人们将产量大、价格低、用途广、影响面宽的一些塑料品种习惯称之为通用塑料。其内涵常随时代及科学技术的发展而有些变化。重要的通用塑料有聚乙烯、聚丙烯、聚氯乙烯、聚苯乙烯等品种","metakeywords":"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":"2019-07-23 08:30:00","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15637593448585613919150914936332.png","listpic2":"https://images.ofweek.com/Upload/NewsList/20197/15637593450929037909892346135788.png","listpic3":"https://images.ofweek.com/Upload/NewsList/20197/1563759345546797099850436380957.png","intervalStr":"2019-07-23 08:30","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30399685,"title":"从新三板女王到科创板首发,天宜上佳上市彰显周丽霞怎样的蜕变?","content":"","addtime":0,"bigclass":180400,"smallclass":0,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180400-8120-30399685.html","summery":"2019年6月13日可谓是中国资本市场浓墨重彩的一天,在第十一届陆家嘴论坛开幕式上,万众瞩目的上海科创板正式开板,标志着中国资本市场一个全新时代的到来。当天晚上,一家名为天宜上佳的公司过会,成为了科创板首发的重要企业之一","metakeywords":"天宜上佳","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-07-22 17:27:46","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15637877586238786620785085266848.jpeg","listpic2":"","listpic3":"","intervalStr":"2019-07-22 17:27","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30399371,"title":"中美贸易战看新材料短板,这一破局有望打破","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180421-8120-30399371.html","summery":"在制造强国战略下,我国逐渐攻克了多项新材料技术瓶颈,助力产业实现了技术升级和转型。然而中兴事件暴露出我国看似繁荣的产业不堪一击,缺乏技术核心主导权。","metakeywords":"中美贸易战,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":"2019-07-19 14:47:04","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15635189339272035186910651681538.jpg","listpic2":"","listpic3":"","intervalStr":"2019-07-19 14:47","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30399365,"title":"耐磨超疏水技术助力5G通讯行业降低雨衰损耗问题","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180420-8140-30399365.html","summery":"雨衰,是指电波进入雨层中引起的衰减。它包括雨粒吸收引起的衰减和雨粒散射引起的衰减。雨粒吸收引起的衰减是由于雨粒具有介质损耗引起的,雨粒散射引起的衰减是由于电波碰到雨粒时被雨粒反射而再反射引起的。","metakeywords":"低5G通讯,超疏水技术","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":"2019-07-19 14:37:57","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-07-19 14:37","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30399186,"title":"索尔维将亮相2019 K 展---重点展示可持续交通和资源高效化解决方案","content":"","addtime":0,"bigclass":180400,"smallclass":0,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180400-8120-30399186.html","summery":"2019年7月18日,布鲁塞尔—— 索尔维将在2019 K展(德国杜赛尔多夫国际塑料及橡胶博览会)期间展示其在热塑性复合材料方面最新的成果,此类轻量化材料将促进集团实现在可持续交通领域的目标,为航空、汽车、油气行业的客户实现资源利用高效化","metakeywords":"新材料,解决方案","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-07-18 16:03:12","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-07-18 16:03","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30399089,"title":"日韩交恶,中国高科技材料产业迎来发展良机","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180424-8120-30399089.html","summery":"日韩关系恶化,日本宣布对韩国限制出口氟聚酰亚胺、光刻胶、高纯度氟化氢等多种高科技材料,这些材料关乎韩国的OLED面板生产,为确保OLED面板的正常生产,据悉三星已紧急向中国的高科技材料企业寻求供应,以","metakeywords":"中国制造,高科技材料","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":"2019-07-18 10:09:12","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/1563415856719799319552067429516.jpg","listpic2":"","listpic3":"","intervalStr":"2019-07-18 10:09","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30398798,"title":"有机氟化物的物理性质","content":"","addtime":0,"bigclass":180400,"smallclass":0,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180400-8120-30398798.html","summery":"有机氟化物的物理性质由两个主要因素控制:①高的电负性和较小的原子半径,氟原子的2s和2p轨道与碳原子的相应轨道特别匹配;②上述原因也导致氟原子特别低的可极化性。在所有的元素中,氟具有最高的电负性(3.98),使得C-F键高度极化,它的偶极矩大约在1.4D,这还取决于不同的化学环境(参见表1.3)","metakeywords":"有机氟化物","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-07-16 16:21:40","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15632653904085567427111746878322.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20197/1563265390875601311898559023153.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20197/15632653909822198735111603894774.jpg","intervalStr":"2019-07-16 16:21","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30398542,"title":"风电叶片涂料用树脂研究进展","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180420-8140-30398542.html","summery":"化石能源的过度使用导致了目前世界范围内日益严峻的气候变化和能源危机,这已经引起各国政府越来越多的重视,新能源的开发已迫在眉睫。风能是自然界取之不尽、用之不竭的资源,是一种潜力巨大的清洁能源。最近5 年,全球风电市场保持快速增长,累计装机量年复合增长率达到16.9%","metakeywords":"风电叶片涂料,树脂","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":"2019-07-15 11:23:46","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-07-15 11:23","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30398525,"title":"输电线路超疏水防覆冰涂层研究进展","content":"","addtime":0,"bigclass":180400,"smallclass":0,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180400-8120-30398525.html","summery":"温度较低的雨水落在零度以下的输电线路上会出现结冰现象,为输电线路覆冰。输电线路覆冰是电力系统最严重的灾害之一,因覆冰导致绝缘子冰闪、过载、线路舞动,甚至断线倒塔等事故,严重威胁着电网的安全运行。其中雨淞覆冰质地坚硬,不易脱落,具有足够的强度,可导致导线覆冰迅速增长,是输电线路覆冰的主要形式","metakeywords":"输电线路","bigType":{"typeid":180400,"typename":"新材料","urlcode":180400,"nameAB":"xincailiao"},"pictureMiddlePath":"","region":0,"pictureurl":"","keywords":"","addtimeStr":"2019-07-15 10:47:52","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15631589309492815255298807128862.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20197/15631589311936888087413591022786.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20197/15631589313342093096523283666626.jpg","intervalStr":"2019-07-15 10:47","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30398341,"title":"石墨烯与纳米银线新材料助力柔性触摸屏的发展","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180420-8120-30398341.html","summery":"触摸屏作为手机组件中成本最高的元件之一,是影响手机价格的重要原因。手机屏幕一旦出现破损,用户需要承担较高的维护费用。如果出现可替代的新材料,降低触摸屏的原料生产成本,同时具备优良的柔韧性,让人们免受碎屏的苦恼","metakeywords":"石墨烯,纳米银线,柔性触摸屏,柔性导电膜","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":"2019-07-13 08:08:27","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15629766094147768466879288007399.jpg","listpic2":"","listpic3":"","intervalStr":"2019-07-13 08:08","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30398338,"title":"电力系统中超疏水材料的防覆冰应用","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180424-8120-30398338.html","summery":"随着超特高压输电线路的建设与联网,输电线路的安全与稳定越来越重要。覆冰的危害很大,会对实际的电力系统造成很大的影响,严重降低设备供电能力,影响用户的电力需求,甚至会发生危险的事故,这是实际生活中的一项重大安全隐患","metakeywords":"新材料,输水材料,防覆冰","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":"2019-07-12 19:06:03","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15629296636594381887778847949447.jpg","listpic2":"","listpic3":"","intervalStr":"2019-07-12 19:06","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30398020,"title":"电子垃圾分类推动石墨烯材料在环保领域的发展","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180421-8120-30398020.html","summery":"电子垃圾所产生的主要有害物质是各种金属,比如金属镀层中的铬、电池中的镍或锂,以及主板中的铍等。此外,电子垃圾中含有的阻燃剂、塑料和PVC焚烧时会污染空气。","metakeywords":"电子垃圾,垃圾分类,石墨烯材料,环保","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":"2019-07-11 10:24:43","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-07-11 10:24","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30397537,"title":"类碳化钨耐磨焊丝——碳化钨合金的廉价替代品","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":69000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180421-8500-30397537.html","summery":"碳化钨合金的密度大,堆焊同样面积和大小的耐磨层,使用的碳化钨合金材料会更多,而使用类碳化钨焊丝产品可降低多达50%的材料成本。","metakeywords":"钨合金,类碳化钨焊丝","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":"2019-07-09 08:46:38","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-07-09 08:46","channelStr":"编辑视点","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30397430,"title":"索尔维携电池组和浸入式冷却应用材料亮相2019中国电池展","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":41000,"newstypesub":74002,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180420-8120-30397430.html","summery":"2019年7月8日 — 索尔维特种聚合物正在取代重量大、价格高的金属元件,打造更为安全、能量密度更高的电池。对于电池组和电池模组来说,索尔维轻量化高性能聚合物不仅能提高设计灵活度、降低成本,还具有出色的抗腐蚀性、耐化学性和电绝缘性,并且可以简化加工。","metakeywords":"金属材料,中国电池展","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":"2019-07-08 11:42:46","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-07-08 11:42","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30396323,"title":"苹果iPhone 11躺枪 日本限制材料出口韩国","content":"","addtime":0,"bigclass":180400,"smallclass":180421,"thirdclass":0,"newstype":69000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180421-8500-30396323.html","summery":"前日本对氟化聚酰亚胺和氟化氢呈现出垄断的态势,其在全球的市场份额分别高达90%和70%。而受此影响,三星、LG、SK海力士等厂商将会受到巨大的冲击。","metakeywords":"苹果iPhone11,材料出口","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":"2019-07-02 10:27:14","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-07-02 10:27","channelStr":"编辑视点","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30396322,"title":"盐雾试验一小时相当于自然环境多少时间?大家都在问!","content":"","addtime":0,"bigclass":180400,"smallclass":180420,"thirdclass":0,"newstype":69000,"newstypesub":0,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-07/ART-180420-8500-30396322.html","summery":"很多人都问过盐雾试验时间一小时相当于现场使用多长时间?别急,我们先来了解一下盐雾试验的一些原理和常见问题,文章末尾公布答案。","metakeywords":"盐雾试验,金属材料","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":"2019-07-02 10:26:30","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20197/15620344669704731068539462032023.jpg","listpic2":"https://images.ofweek.com/Upload/NewsList/20197/15620344671711656197143736983329.jpg","listpic3":"https://images.ofweek.com/Upload/NewsList/20197/15620344673426012636152144683252.jpg","intervalStr":"2019-07-02 10:26","channelStr":"编辑视点","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30395761,"title":"特种工程塑料国内外产业发展分析报告","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":25000,"newstypesub":8000,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180424-8420-30395761.html","summery":"特种工程塑料是指综合性能较高,长期使用温度在150℃以上的一类工程塑料,具有独特、优异的物理性能,主要应用于电子电气、航空航天、汽车、 医疗等高科技领域。","metakeywords":"特种工程塑料,材料委","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":"2019-06-28 11:21:20","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"","listpic2":"","listpic3":"","intervalStr":"2019-06-28 11:21","channelStr":"市场研究","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0},{"detailid":30395541,"title":"俄罗斯科学家研新型材料 18秒让电池完成充放电","content":"","addtime":0,"bigclass":180400,"smallclass":180424,"thirdclass":0,"newstype":41000,"newstypesub":75008,"imgurl":"","htmlpath":"https://xincailiao.ofweek.com/news/2019-06/ART-180424-8140-30395541.html","summery":"俄罗斯科学家们设计出一种新型聚合物阴极材料,可实现性能优越的超快金属离子电池。","metakeywords":"新型材料,电池,充放电","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":"2019-6/summary/201962716020799.jpg","region":0,"pictureurl":"2019-6/summary/201962716019669.jpg","keywords":"","addtimeStr":"2019-06-27 15:40:17","explain":"","toapp":0,"toapptop":0,"toapptoutiao":0,"toappjinghua":0,"toIndustryAppTop":0,"listpic1":"https://images.ofweek.com/Upload/NewsList/20196/15616213170328608463900804851381.jpg","listpic2":"","listpic3":"","intervalStr":"2019-06-27 15:40","channelStr":"产业新闻","timestamp":0,"toapptoutiaotimestamp":0,"endaddtime":0}]}