{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"为了解采用可燃性废弃物作为替代燃料煅烧水泥熟料时产生的气氛对水泥窑烧成带用方镁石－复合尖晶石砖的侵蚀情况，首先进行了化学试剂 V2 O5分别与高纯镁砂和镁铝尖晶石砂在1500℃下的反应试验；然后以高纯镁砂、高铁镁砂、铁铝尖晶石砂为原料，于1600℃烧成制备了方镁石－复合尖晶石坩埚试样，按水泥熟料、橡胶轮胎、石油焦的质量分数分别为50％、25％、25％配成侵蚀介质，采用静态坩埚法进行了替代燃料对方镁石－复合尖晶石材料的侵蚀试验（1450℃保温3 h）。利用 XRD 检测了试样的物相组成，采用 SEM观察和分析了气氛侵蚀后试样的显微形貌。结果表明：1）V2 O5与 MA 中的 MgO 反应产生刚玉相和钒酸镁，破坏了尖晶石结构，并伴随较大的体积膨胀而破坏了砖的结构。因此，在水泥窑使用替代燃料的情况下，方镁石－复合尖晶石砖中不适合加入镁铝尖晶石。2）替代燃料燃烧产生的 SO3、V2 O5等酸性气体沿着气孔和晶界向砖内扩散，在气孔和晶界处聚集，与方镁石－复合尖晶石材料中的 CaO、MgO 反应生成 Ca3（VO4）2、Mg3（VO4）2、CaSO4、MgSO4，产生体积效应，不利于材料的稳定；另外还与水泥熟料中的 C2 S 反应生成 CaSO4和低熔点相，不利于窑皮的稳定。","authors":[{"authorName":"陈树江","id":"7834c517-68e0-4d69-be9a-19e5a13cc67b","originalAuthorName":"陈树江"},{"authorName":"刘耀闻","id":"f798f4e9-f21a-42fa-ba47-de024e438ee8","originalAuthorName":"刘耀闻"},{"authorName":"李国华","id":"7b8560aa-0c88-4c32-9396-0c6422468668","originalAuthorName":"李国华"},{"authorName":"张国栋","id":"2784d20b-5812-478e-b6af-be05e4d210b2","originalAuthorName":"张国栋"},{"authorName":"郝明选","id":"eb26fe98-23c4-4493-ae15-cf64bb9a0658","originalAuthorName":"郝明选"},{"authorName":"袁林","id":"f04a621e-13b1-471d-af43-1bf5da0c8607","originalAuthorName":"袁林"}],"doi":"10.3969/j.issn.1001-1935.2015.03.001","fpage":"161","id":"1a1e8316-0c13-4fa3-8976-547630395474","issue":"3","journal":{"abbrevTitle":"NHCL","coverImgSrc":"journal/img/cover/NHCL.jpg","id":"55","issnPpub":"1001-1935","publisherId":"NHCL","title":"耐火材料 "},"keywords":[{"id":"c7cd958a-6f1c-4a5b-9eb7-6acb925792f9","keyword":"方镁石-复合尖晶石砖","originalKeyword":"方镁石-复合尖晶石砖"},{"id":"99760417-3015-4568-88ef-ce1c1a15b0b8","keyword":"水泥窑","originalKeyword":"水泥窑"},{"id":"000eaeff-ed20-4c17-894f-2f85c83dc839","keyword":"烧成带","originalKeyword":"烧成带"},{"id":"7a34ba10-a751-48b1-9eb1-bf77f4621838","keyword":"水泥熟料","originalKeyword":"水泥熟料"},{"id":"4612f58e-5403-4e05-a98b-b1df74e7e712","keyword":"可燃性废弃物","originalKeyword":"可燃性废弃物"},{"id":"2e12bbb7-e5af-44d8-b44e-aecb36d09dd9","keyword":"侵蚀机制","originalKeyword":"侵蚀机制"}],"language":"zh","publisherId":"nhcl201503002","title":"替代燃料对水泥窑用方镁石－复合尖晶石材料的侵蚀","volume":"","year":"2015"},{"abstractinfo":"本文以建筑废弃物的多级循环利用为研究对象,分析了我国建筑废弃物综合利用的重要性.以日本及欧美为例,阐述了国外建筑废弃物多级循环利用方面的经验和做法,对我国目前建筑废弃物的回收利用现状及存在问题进行剖析,在此基础上提出构建建筑废弃物的3R原则,即“减量化、再利用、再循环”原则,同时引入了管理建筑工程的全寿命周期理论以及PPP管理模式等保障措施,以确保建筑废弃物能够多级循环利用.","authors":[{"authorName":"张彩丽","id":"5421564f-d6ed-489d-a909-15f72ec7e374","originalAuthorName":"张彩丽"},{"authorName":"于莉","id":"32992d60-e3b2-43d0-8cde-21b87999cdd9","originalAuthorName":"于莉"},{"authorName":"孙玉周","id":"14c36f16-418b-4bd6-b03c-aef5c6d37564","originalAuthorName":"孙玉周"}],"doi":"","fpage":"2149","id":"e5244c30-ce25-4710-a827-dcd3bca281d3","issue":"7","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"1a878678-5bf2-43ff-b84c-620e9de9fd21","keyword":"建筑废弃物","originalKeyword":"建筑废弃物"},{"id":"79286537-1839-4c46-9c15-685d4c8edb3d","keyword":"循环","originalKeyword":"循环"},{"id":"5cfb28d8-a746-4eaf-8142-59cafbff4493","keyword":"资源化","originalKeyword":"资源化"},{"id":"6a3e12e0-0c86-42f1-90c4-c668db27fd30","keyword":"多级利用","originalKeyword":"多级利用"}],"language":"zh","publisherId":"gsytb201607028","title":"建筑废弃物多级循环利用研究","volume":"35","year":"2016"},{"abstractinfo":"电子废弃物因其潜在的环境危害性以及富含有价金属而受到了广泛的关注，尤其是电子废弃物中的贵金属，更是其回收的主要经济驱动力。电子废弃物中贵金属回收要经过预处理和提取2个阶段，介绍了2个阶段中的技术进展，对其中的各种方法做出了总结和展望。","authors":[{"authorName":"田庆华","id":"5aeb1ae9-46e3-4dbd-939e-8130cfcbbdda","originalAuthorName":"田庆华"},{"authorName":"李宇","id":"68360ed4-fb96-4d8f-a82c-eeb823e8ebcf","originalAuthorName":"李宇"},{"authorName":"邓多","id":"3472fd98-11d2-4365-94dd-38043c25ec5f","originalAuthorName":"邓多"},{"authorName":"郭学益","id":"fc5da278-bfe2-4964-9b32-437cffc0c5c2","originalAuthorName":"郭学益"}],"doi":"","fpage":"81","id":"775a7c87-b46f-45f9-95e8-96c57ea20edf","issue":"1","journal":{"abbrevTitle":"GJS","coverImgSrc":"journal/img/cover/GJS.jpg","id":"38","issnPpub":"1004-0676","publisherId":"GJS","title":"贵金属"},"keywords":[{"id":"66198e1f-0834-4dbd-9d47-bb204df687b4","keyword":"有色金属冶金","originalKeyword":"有色金属冶金"},{"id":"8c5de758-8d61-4f20-884c-b6d062fb2722","keyword":"电子废弃物","originalKeyword":"电子废弃物"},{"id":"e6fc7cdb-b71b-4613-898e-a016fe663e3c","keyword":"贵金属","originalKeyword":"贵金属"},{"id":"69adc389-72c0-4ed2-9e2a-b7a06182fd73","keyword":"回收","originalKeyword":"回收"},{"id":"012a029e-500e-4040-8695-0bc9c669b7df","keyword":"技术进展","originalKeyword":"技术进展"}],"language":"zh","publisherId":"gjs201501021","title":"电子废弃物中贵金属回收技术进展","volume":"","year":"2015"},{"abstractinfo":"为有效处理和利用固体废弃物,本文研究了用钙系膨胀剂,高炉矿渣水泥以及采用吸水率较小的再生骨料抑制碱骨料反应,尝试制备强度为30 MPa的再生骨料混凝土.并对其耐久性能做了试验研究.试验结果表明:再生骨料混凝土在强度以及耐久性能方面显示出与普通混凝土几乎相同的性能,并用钙系膨胀剂,高炉矿渣水泥以及采用吸水率较小的再生骨料,在解决再生骨料混凝土耐久性方面能够取得较好的效果.","authors":[{"authorName":"崔正龙","id":"845d998c-c9ba-4886-a1d6-680184d81465","originalAuthorName":"崔正龙"},{"authorName":"北辻政文","id":"21c8921b-b33e-407a-a209-4e35827ac2d1","originalAuthorName":"北辻政文"},{"authorName":"田中礼治","id":"37ed20fb-e7bd-47d2-97c9-bc980230df45","originalAuthorName":"田中礼治"}],"doi":"","fpage":"1042","id":"de681ec5-7020-4067-935e-b259f8632b13","issue":"5","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"c6cb36c9-2e4d-4778-af25-d90cdf7fb926","keyword":"固体废弃物","originalKeyword":"固体废弃物"},{"id":"f8f0cfff-7978-4a78-aa77-1ca34ae39778","keyword":"再生骨料","originalKeyword":"再生骨料"},{"id":"aa5a676a-c61f-4d47-be5b-914ac8ecd458","keyword":"耐久性能","originalKeyword":"耐久性能"}],"language":"zh","publisherId":"gsytb200905034","title":"固体废弃物再生骨料混凝土的耐久性试验研究","volume":"28","year":"2009"},{"abstractinfo":"介绍了国内外复合材料废弃物的回收再利用方法,即化学回收、能量回收及物理回收.重点论述了流化床技术、热裂解技术和溶剂解离回收技术的化学回收工艺流程和研究现状.指出在国家政策指引下,应大力发展能耗小、回收率高的复合材料废弃物工业化回收工艺,实现废弃物的资源化回收利用.","authors":[{"authorName":"徐伟","id":"45c27e3a-39c0-4d6a-bdd8-48101a1c91b8","originalAuthorName":"徐伟"},{"authorName":"袁琨","id":"39ff2df3-e158-420e-b9c7-6ee30d423868","originalAuthorName":"袁琨"}],"doi":"","fpage":"102","id":"87ad39d4-5ff5-45f3-b177-cf065df3c707","issue":"2","journal":{"abbrevTitle":"BLGFHCL","coverImgSrc":"journal/img/cover/BLGFHCL.jpg","id":"6","issnPpub":"1003-0999","publisherId":"BLGFHCL","title":"玻璃钢/复合材料"},"keywords":[{"id":"a194dba3-44df-4a4b-ac47-87571ed8b19b","keyword":"复合材料","originalKeyword":"复合材料"},{"id":"32b0f847-aca5-40eb-9196-dbc42fca6f3c","keyword":"纤维回收","originalKeyword":"纤维回收"},{"id":"02e54d8c-263e-4270-8c42-99d11b82edf8","keyword":"流化床","originalKeyword":"流化床"},{"id":"5715608b-fbac-4b41-851b-695db917ff52","keyword":"热裂解","originalKeyword":"热裂解"},{"id":"d108f15a-4f6a-44c2-ac18-519c0027ea9b","keyword":"溶剂解离","originalKeyword":"溶剂解离"}],"language":"zh","publisherId":"blgfhcl201302024","title":"复合材料废弃物回收技术发展","volume":"","year":"2013"},{"abstractinfo":"工业固体废弃物是一种放错位置的资源。阐述了利用工业固体废弃物制备烧胀陶粒的可行性，综述了以煤矸石、粉煤灰、钢渣、尾矿等工业固体废弃物为原料制备烧胀陶粒的国内外研究进展，并分析了利用工业固体废弃物制备烧胀陶粒目前存在的主要问题和发展前景。","authors":[{"authorName":"桑迪","id":"3b40be42-719e-4e2b-adfb-893eb73a97aa","originalAuthorName":"桑迪"},{"authorName":"王爱国","id":"6b87f7af-f2bd-4f7c-ace9-5f1aaa6e570b","originalAuthorName":"王爱国"},{"authorName":"孙道胜","id":"1d97a582-c45d-4e73-b616-bb5c1c8d780d","originalAuthorName":"孙道胜"},{"authorName":"刘开伟","id":"6c6b8ac5-1de3-4b5f-af1a-a94906ee90cf","originalAuthorName":"刘开伟"},{"authorName":"管艳梅","id":"6a3fe7fa-f75a-4724-b703-6ee076543391","originalAuthorName":"管艳梅"},{"authorName":"王海","id":"4a17f06b-9b76-4000-b511-621e495d62cf","originalAuthorName":"王海"}],"doi":"10.11896/j.issn.1005-023X.2016.09.018","fpage":"110","id":"8d8c6c2e-50c3-44d0-8762-df9049087b68","issue":"9","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"28d3c3d8-983b-499c-b266-ad8bd481b2b3","keyword":"工业固体废弃物","originalKeyword":"工业固体废弃物"},{"id":"3dd969df-7021-486b-9619-6facd706b8d2","keyword":"煤矸石","originalKeyword":"煤矸石"},{"id":"a5836f01-11bb-4b76-9700-ecaa1b5690d7","keyword":"粉煤灰","originalKeyword":"粉煤灰"},{"id":"7eaef8b2-3c0f-4a6f-84b5-5b65df9e2fbb","keyword":"钢渣","originalKeyword":"钢渣"},{"id":"3b05bcac-0bdd-45f2-9365-3a9b400f49ca","keyword":"烧胀陶粒","originalKeyword":"烧胀陶粒"}],"language":"zh","publisherId":"cldb201609018","title":"利用工业固体废弃物制备烧胀陶粒的研究进展","volume":"30","year":"2016"},{"abstractinfo":"本文围绕可燃性纯质以及混合工质制冷剂的爆炸极限问题，提出了一种新的推算常温常压下可燃性制冷剂爆炸极限浓度的理论方法。在理论分析的基础上，通过合理设计，建立了一个精度较高的爆炸极限测试系统。通过对一系列可燃性制冷剂爆炸极限的测定，表明爆炸极限对于保证可燃性冷剂在生产和储存过程中的安全方面的重要性","authors":[{"authorName":"鞠飙","id":"432c81c8-16d1-4646-8ac9-c888dc99eab9","originalAuthorName":"鞠飙"},{"authorName":"何茂刚","id":"2dd774e6-946f-412b-a4fe-709d458f6a18","originalAuthorName":"何茂刚"},{"authorName":"刘志刚","id":"d893048a-a306-4e80-ba99-d3d8fdf062b9","originalAuthorName":"刘志刚"}],"doi":"","fpage":"680","id":"918e6411-849d-438a-9ad0-252b4160b397","issue":"6","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":"73b7c626-b00c-49bf-beee-cdb75dbeb3bb","keyword":"爆炸极限","originalKeyword":"爆炸极限"},{"id":"875fbc41-a743-469d-bcea-d56cf3446081","keyword":"混合工质","originalKeyword":"混合工质"}],"language":"zh","publisherId":"gcrwlxb200006006","title":"可燃性混合工质制冷剂的爆炸极限研究","volume":"21","year":"2000"},{"abstractinfo":"概述了泡沫玻璃的发展研究现状,介绍了利用碎玻璃制备泡沫玻璃的典型工艺流程,从热学性质、声学性质、吸水性和轻质、高强、不燃性等方面讨论了泡沫玻璃的性能及其应用,同时介绍了粉煤灰、硼泥、废阴极射线管和煤矸石等环境污染严重的固体废弃物在泡沫玻璃中的应用.以固体废弃物为主要原料制备泡沫玻璃,无论从理论上还是在实际应用中都是十分可行的.","authors":[{"authorName":"于乔","id":"17a4b4f8-2615-4106-8af8-8180e12b7589","originalAuthorName":"于乔"},{"authorName":"姜妍彦","id":"d1107d35-f6b6-4f59-9ccf-ca75bb9cfb63","originalAuthorName":"姜妍彦"},{"authorName":"王承遇","id":"46f374e5-3960-48ad-a96a-15a45b4e5dcf","originalAuthorName":"王承遇"}],"doi":"","fpage":"93","id":"e08d13f0-3d13-4fcd-9167-4874cda303b8","issue":"1","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"86094c4e-9859-4e8b-b5d0-21957fecaacd","keyword":"泡沫玻璃","originalKeyword":"泡沫玻璃"},{"id":"db79ef8f-d67a-4b81-9424-1cc779a49a1c","keyword":"隔热","originalKeyword":"隔热"},{"id":"5ade16f6-ae2d-4818-a93f-ea445d7cbc60","keyword":"吸声","originalKeyword":"吸声"},{"id":"5a0478c6-32bf-4cfd-9366-c1b898f60955","keyword":"固体废弃物","originalKeyword":"固体废弃物"}],"language":"zh","publisherId":"cldb200901022","title":"泡沫玻璃与固体废弃物的循环利用","volume":"23","year":"2009"},{"abstractinfo":"含铬废水因其对环境危害性大,寻求处理效果好、经济性能高的处理方法和处理材料一直是研究的热点,农林废弃物因其来源广泛,低价易得而颇受青睐.简述了农林废弃物处理含铬废水的基本机理和影响因素,分析了农林废弃物处理含铬废水的优点,指出农林废弃物在处理含铬废水的技术前景及其在电镀废水处理方面的可行性,探讨了农林废弃物处理含铬废水时可能出现的技术问题.","authors":[{"authorName":"李琛","id":"9dfb8174-ea7e-4c0a-bd73-22b6199dc50d","originalAuthorName":"李琛"}],"doi":"10.3969/j.issn.1001-3849.2013.07.004","fpage":"12","id":"20b8be14-ee40-4d32-88d4-5d32c45c5a52","issue":"7","journal":{"abbrevTitle":"DDYJS","coverImgSrc":"journal/img/cover/DDYJS.jpg","id":"20","issnPpub":"1001-3849","publisherId":"DDYJS","title":"电镀与精饰 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