{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"","authors":[{"authorName":"赵然","id":"172a364d-62d3-4990-87f7-cd7fb5ef7436","originalAuthorName":"赵然"},{"authorName":"庞然","id":"79f5828a-2859-4cef-9003-5dde9db6e19b","originalAuthorName":"庞然"},{"authorName":"李海锋","id":"0f972aec-97d9-4b8b-8a12-48557dd26be5","originalAuthorName":"李海锋"},{"authorName":"贾永雷","id":"6ee5a9a2-e230-44e3-aa75-29aacddbb2d8","originalAuthorName":"贾永雷"},{"authorName":"姜丽宏","id":"2231c0c2-0c2d-4bc8-8320-e5f8423ae604","originalAuthorName":"姜丽宏"},{"authorName":"孙文芝","id":"790cdae8-becf-4722-88c7-258278f6673f","originalAuthorName":"孙文芝"},{"authorName":"李成宇","id":"e611c051-984f-412b-80d0-a19edaa5bd90","originalAuthorName":"李成宇"}],"doi":"10.1016/S1002-0721(14)60143-5","fpage":"797","id":"517b2728-9ae6-4d9f-8048-7c66eefaa4e6","issue":"9","journal":{"abbrevTitle":"XTXBYWB","coverImgSrc":"journal/img/cover/XTXBEN.jpg","id":"66","issnPpub":"1002-0721","publisherId":"XTXBYWB","title":"稀土学报(英文版)"},"keywords":[{"id":"ba39ea86-0018-4b46-8065-5c901f5fb85f","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"zgxtxb-e201409004","title":"Luminescent properties of blue long-lasting phosphorescence phosphors Sr6Al18Si2O37:Eu2+,RE3+","volume":"","year":"2014"},{"abstractinfo":"在固定床反应器上研究了N2气氛下纳米氧化铁对单质汞的吸附脱除特性,探讨了吸附剂颗粒尺寸,反应床温度,停留时间及表面羟基基团对纳米氧化铁除汞性能的影响.研究表明,与普通氧化铁颗粒瞬间到达穿透相比,纳米氧化铁具有更强的汞吸附能力,相同条件下其80%穿透时间达到45 min,XPS分析表明,纳米氧化铁表面85%以上均为氧化态的汞.汞在纳米氧化铁上的吸附过程中化学反应起重要作用.在试验温度范围内,随着反应床温度增加,纳米氧化铁对汞的吸附性能提高幅度显著.反应前后样品的红外光谱分析结果表明,纳米氧化铁表面主要是游离态的9基参与了汞吸附反应.","authors":[{"authorName":"孔凡海","id":"c993d347-27b7-4674-807e-d8bff3001bba","originalAuthorName":"孔凡海"},{"authorName":"邱建荣","id":"51863ea4-eb7d-4f23-8563-4f862bb023f6","originalAuthorName":"邱建荣"},{"authorName":"刘豪","id":"25b0c239-5d0b-4d10-a702-4fd397949dc9","originalAuthorName":"刘豪"},{"authorName":"曾汉才","id":"311e7c25-0b26-43b4-a90d-e2f7aea01cdb","originalAuthorName":"曾汉才"},{"authorName":"幸文婷","id":"b4507717-6137-4cce-ba29-f1c56b88377b","originalAuthorName":"幸文婷"},{"authorName":"赵然","id":"f7b0bccc-5731-4b6b-86fb-19da1c98e08e","originalAuthorName":"赵然"}],"doi":"","fpage":"1227","id":"01813fd8-c2cb-4075-9668-a4bebc2bbe35","issue":"7","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":"74765327-2b66-4e10-808d-0b0e65cdc1b0","keyword":"纳米氧化铁","originalKeyword":"纳米氧化铁"},{"id":"037895dc-ec79-429a-9757-7b99552d88d6","keyword":"吸附","originalKeyword":"吸附"},{"id":"1545d414-270e-4665-a9e8-789042b9fbb4","keyword":"单质汞","originalKeyword":"单质汞"}],"language":"zh","publisherId":"gcrwlxb201007038","title":"纳米氧化铁吸附脱除单质汞的实验研究","volume":"31","year":"2010"},{"abstractinfo":"采用高能球磨与放电等离子烧结相结合的方法制备出了单相Si80Ge20B0.6合金块体热电材料.在400~900K 温度范围内对其进行了热电性能测试.粉末冶金法制备的合金内的晶界对载流子形成散射,保温时间较长的试样的电导率明显高于保温时间较短的试样.所有试样的热导率处于2.7~4.5W/(mK)范围.保温9min的试样在900K时ZT值最高,达到0.47.","authors":[{"authorName":"赵然","id":"a0240a27-add9-49e0-9ef6-2efcb8454045","originalAuthorName":"赵然"},{"authorName":"沈丽","id":"9548c66a-de1e-4844-b7c1-bb618a0529db","originalAuthorName":"沈丽"},{"authorName":"张忻","id":"ac1bf3d9-005f-4397-9f08-069857de5bae","originalAuthorName":"张忻"},{"authorName":"路清梅","id":"baf94ac0-e5da-49cc-ae96-859357fba25b","originalAuthorName":"路清梅"},{"authorName":"郭福","id":"0ac1d75e-3963-4a4a-9800-0f817c683625","originalAuthorName":"郭福"}],"doi":"","fpage":"468","id":"22aae954-6232-4ac0-a767-4142811c51cd","issue":"z3","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"09d04261-d84b-4ebf-8431-ee8a308874de","keyword":"SiGe合金","originalKeyword":"SiGe合金"},{"id":"023cafee-cf04-4b14-9bde-e5f28c44e60e","keyword":"机械合金化","originalKeyword":"机械合金化"},{"id":"77b681f1-f571-445a-aedb-31b61f89d563","keyword":"放电等离子烧结","originalKeyword":"放电等离子烧结"},{"id":"c800f37b-0c23-4660-bc1a-59f60520044c","keyword":"热电性能","originalKeyword":"热电性能"}],"language":"zh","publisherId":"gncl2011z3024","title":"放电等离子烧结制备Si80Ge20B0.6合金及其热电性能","volume":"42","year":"2011"},{"abstractinfo":"","authors":[{"authorName":"庞然","id":"affb0333-b875-47ac-888c-263df81a2e03","originalAuthorName":"庞然"},{"authorName":"赵然","id":"ae417802-c9e0-41a2-8563-431e86c7be32","originalAuthorName":"赵然"},{"authorName":"贾永雷","id":"21bf8702-5e7c-4e4f-a3c4-ee92c82300f1","originalAuthorName":"贾永雷"},{"authorName":"李成宇","id":"09e12f7a-58fc-4864-b5f9-f911d8da1a88","originalAuthorName":"李成宇"},{"authorName":"苏锵","id":"1b6cf9ca-e4f8-4f0d-a1ea-a697f573b843","originalAuthorName":"苏锵"}],"doi":"10.1016/S1002-0721(14)60142-3","fpage":"792","id":"2cec8115-d433-4913-a732-50bc10e47af6","issue":"9","journal":{"abbrevTitle":"XTXBYWB","coverImgSrc":"journal/img/cover/XTXBEN.jpg","id":"66","issnPpub":"1002-0721","publisherId":"XTXBYWB","title":"稀土学报(英文版)"},"keywords":[{"id":"0d99c70b-f52c-48fe-8e6d-15b5859f0a67","keyword":"","originalKeyword":""}],"language":"zh","publisherId":"zgxtxb-e201409003","title":"Luminescence properties of a new yellow long-lasting phosphorescence phosphor NaAlSiO4:Eu2+,Ho3+","volume":"","year":"2014"},{"abstractinfo":"本文研究了CO2/丙烷混合工质的流动沸腾换热特性,实验段为内径2 mm的水平光管.实验条件为:混合物中丙烷质量分数o%~100%,初始蒸发温度0~10℃,热流密度5~15 kW/m2,质量流速200~400 kg/(m2s).结果表明:CO2/丙烷混合工质的换热系数,介于两种纯净物即CO2和丙烷之间,并随着混合物中丙烷含量的增加而减小;初始蒸发温度、热流密度或质量流速的增加均能引起换热系数的增加;对应蒸干现象的临界干度随混合工质中丙烷含量增加而增大,且蒸干会被较低的初始蒸发温度、较低的热流密度和较高的质量流速所抑制.","authors":[{"authorName":"吴晓敏","id":"be1b4af0-8402-472e-acbb-d5744bbe5e23","originalAuthorName":"吴晓敏"},{"authorName":"赵然","id":"4de5b84b-a359-4f2b-9555-f27cca130230","originalAuthorName":"赵然"},{"authorName":"魏兆福","id":"28e6dac0-f0c3-41bb-8016-8f4e46269bac","originalAuthorName":"魏兆福"},{"authorName":"黄秀杰","id":"e75519a3-b810-42a3-b59d-2370ea343cb6","originalAuthorName":"黄秀杰"},{"authorName":"王维城","id":"4a55360f-30eb-4087-aca3-3bf1d6da387a","originalAuthorName":"王维城"}],"doi":"","fpage":"706","id":"49211d20-7ab1-4b33-9f42-92726b6ba071","issue":"4","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":"16ce9a0b-dbde-4467-a929-1a244b1ff454","keyword":"CO2/丙烷","originalKeyword":"CO2/丙烷"},{"id":"06c55923-dde2-4b35-994f-49b5e268983a","keyword":"混合工质","originalKeyword":"混合工质"},{"id":"f1a8830e-e8f2-49c7-b50a-f07fc0a8e629","keyword":"水平管","originalKeyword":"水平管"},{"id":"8b9ee6d5-cb9e-4760-8bb2-7232efd5f43d","keyword":"流动沸腾","originalKeyword":"流动沸腾"}],"language":"zh","publisherId":"gcrwlxb201304028","title":"CO2/丙烷混合工质水平管内流动沸腾换热特性研究","volume":"34","year":"2013"},{"abstractinfo":"热电元件焊接常用的焊料为铟基焊料和铋基焊料.由于碲化铋材料与低熔点合金焊料之间的浸润性较差,常在碲化铋基热电元件上镀覆镍镀层.本文在大气条件下,不加助焊剂,采用共晶SnBi和SnIn焊料分别对n型热电元件进行了铺展实验及界面显微组织的观察.铺展温度主要选择了210℃和300℃,实验表明300℃界面结合比250℃更好.此外,热电元件表面通过蒸镀仪蒸镀上薄镍层.对含薄镍层的热电元件与不含镍层的热电元件的铺展实验进行对比,得到薄镍镀层可能会增加界面裂纹.","authors":[{"authorName":"沈丽","id":"cd10b3a0-7777-47eb-a929-3317337c1442","originalAuthorName":"沈丽"},{"authorName":"徐广臣","id":"c0ae8794-58f7-472a-bc93-3d9cd59f031a","originalAuthorName":"徐广臣"},{"authorName":"赵然","id":"b6f909d2-156c-4877-9bf3-38afc5c408b8","originalAuthorName":"赵然"},{"authorName":"郭福","id":"567ff9be-9b56-4432-92a1-28531878cc75","originalAuthorName":"郭福"}],"doi":"","fpage":"7","id":"99a746e3-d917-4745-8b87-6c2ec10bdd3a","issue":"2","journal":{"abbrevTitle":"JSGNCL","coverImgSrc":"journal/img/cover/JSGNCL.jpg","id":"46","issnPpub":"1005-8192","publisherId":"JSGNCL","title":"金属功能材料"},"keywords":[{"id":"dfc5da09-9070-45f2-9862-b5040650d672","keyword":"封装","originalKeyword":"封装"},{"id":"5a8c2efa-2f5a-474b-ab5d-e298311bf34a","keyword":"热电堆","originalKeyword":"热电堆"},{"id":"8cd064c7-ae0e-437d-875e-c63234f4bd77","keyword":"Bi2 (Te0.9 Se0.1)3","originalKeyword":"Bi2 (Te0.9 Se0.1)3"},{"id":"60b896f1-4305-4c3a-b2eb-a85b2d96ec77","keyword":"Sn基焊料","originalKeyword":"Sn基焊料"}],"language":"zh","publisherId":"jsgncl201202002","title":"共晶二元Sn基焊料与Bi2(Te0.9Se0.1)3基热电材料的界面反应","volume":"19","year":"2012"},{"abstractinfo":"分别采用普通干压法和粉末电磁压制法成型,制备xPMnS-(1-x)PZN压电陶瓷,探讨了成型工艺对材料结构与性能的影响.结果表明:粉末电磁压制法成型的样品致密度均达到了95%以上,压电与介电性能均高于干压法制备的材料,当x=0.55时综合性能可达到最佳,分别为:kp=0.46,Qm=391,tanδ=0.54%,εT33/ε0 =1739,d33=347pC/N.","authors":[{"authorName":"周静","id":"7e02bf3e-8069-47fc-9c01-dde2698d74d9","originalAuthorName":"周静"},{"authorName":"赵然","id":"ad8ab4d4-f978-4e60-ac47-bd591b960845","originalAuthorName":"赵然"},{"authorName":"黄尚宇","id":"e6930a16-93ab-4a10-a1fe-07822b27c4f5","originalAuthorName":"黄尚宇"},{"authorName":"陈文","id":"b241127b-5fd0-4b4f-9b83-c4f6cbf68461","originalAuthorName":"陈文"}],"doi":"10.3969/j.issn.1001-1625.2006.06.038","fpage":"176","id":"a9b8ce44-88cf-447a-9eb0-43d1e71d74e1","issue":"6","journal":{"abbrevTitle":"GSYTB","coverImgSrc":"journal/img/cover/GSYTB.jpg","id":"36","issnPpub":"1001-1625","publisherId":"GSYTB","title":"硅酸盐通报 "},"keywords":[{"id":"454434ec-ff20-40b8-9885-888271429210","keyword":"xPMnS-(1-x)PZN","originalKeyword":"xPMnS-(1-x)PZN"},{"id":"a55fc096-6678-4c85-975e-a063bb68b28c","keyword":"压电陶瓷","originalKeyword":"压电陶瓷"},{"id":"c69ae740-2ec9-4661-ac29-39cd37c95258","keyword":"成型工艺","originalKeyword":"成型工艺"},{"id":"530ae1be-9826-440b-9cbe-c9c9889b87b5","keyword":"性能","originalKeyword":"性能"}],"language":"zh","publisherId":"gsytb200606038","title":"粉末电磁压制法制备xPMS-(1-x)PZN陶瓷","volume":"25","year":"2006"},{"abstractinfo":"分别采用不同的熔炼、退火工艺,结合放电等离子烧结方法制备了块状多晶 In4Se3热电材料。研究了熔炼时间和退火时间对材料物相、成分、显微结构及热电性能的影响。熔炼后铸锭中存在In及InSe杂相, Se缺失量随熔炼时间的延长而增加,使得样品载流子浓度增大,电导率有所提高,熔炼48 h样品ZT值相对较高。在确定熔炼工艺的基础上,进行不同时间的退火处理后, InSe相消失,显微结构中分布有较大尺寸的台阶状结构,这种台阶状结构有利于降低热导率,而对电导率无明显影响。实验结果表明:一定程度延长熔炼时间、退火时间对提高样品的热电性能有积极作用,其中熔炼48 h再退火96 h后的样品ZT值最高,在702 K达到0.83,比文献值提高约32%。","authors":[{"authorName":"赵然","id":"9dd7173b-b1be-4f2a-881e-f5c7fe458f92","originalAuthorName":"赵然"},{"authorName":"马立民","id":"0b3982ab-dd98-4352-ad3b-5732346ec246","originalAuthorName":"马立民"},{"authorName":"郭福","id":"8903a720-715a-411d-a9aa-ef69c94c8a13","originalAuthorName":"郭福"},{"authorName":"胡扬端瑞","id":"a03e8c9a-cc2a-4a2f-a4aa-6a9f82630b37","originalAuthorName":"胡扬端瑞"},{"authorName":"舒雨田","id":"eb0f43b9-5fca-4964-af72-2179aec0a138","originalAuthorName":"舒雨田"}],"doi":"10.15541/jim20140396","fpage":"249","id":"a0c12028-919f-4e41-b932-21daee706aaf","issue":"3","journal":{"abbrevTitle":"WJCLXB","coverImgSrc":"journal/img/cover/WJCLXB.jpg","id":"62","issnPpub":"1000-324X","publisherId":"WJCLXB","title":"无机材料学报"},"keywords":[{"id":"baf01639-d09b-4af6-9267-ad20030b759a","keyword":"In4Se3","originalKeyword":"In4Se3"},{"id":"af66a3f1-5beb-45d7-b922-8335e81c3569","keyword":"热电性能","originalKeyword":"热电性能"},{"id":"b60b7be4-bfd5-4602-bc18-0dc43c952ddc","keyword":"真空熔炼","originalKeyword":"真空熔炼"},{"id":"401ea1e9-baeb-4c15-b19f-5d127f91f2f5","keyword":"退火","originalKeyword":"退火"}],"language":"zh","publisherId":"wjclxb201503005","title":"高优值系数In4Se3多晶的制备及其热电输运特性","volume":"","year":"2015"},{"abstractinfo":"采用层状复合工艺,制备了超高分子量聚乙烯(UHMWPE)-聚氨酯泡沫材料(PUF)复合材料;设计了复合材料隔爆实验,运用定制的聚偏氟乙烯(PVDF)压电传感器,直接测量了隔爆实验中材料内部冲击波压力,研究了UHMWPE-PUF复合材料对爆炸冲击波的衰减性能。研究表明,所制备的UHMWPE-PUF复合材料隔爆能力与同厚度的纯聚氨酯材料相比提高了近50%。将UHMWPE材料与PUF材料进行复合,可以充分发挥UHMWPE材料的高强、高模以及PUF材料较高的吸能特点,同时又弥补了PUF材料强度低的缺陷,且材料对爆炸冲击波的衰减性能得到极大提升,在爆炸防护领域有着很好的应用前景。","authors":[{"authorName":"蔡军锋","id":"42ceb13e-05c7-47bb-a851-becc4b40d7ca","originalAuthorName":"蔡军锋"},{"authorName":"易建政","id":"65b09747-8db3-4a82-9b88-a8feb6cb6141","originalAuthorName":"易建政"},{"authorName":"赵然","id":"d9f02f61-140a-43da-9714-bd4a8b3f0067","originalAuthorName":"赵然"}],"doi":"","fpage":"69","id":"71bfa652-993c-4650-9362-fccc09ce9a82","issue":"5","journal":{"abbrevTitle":"GFZCLKXYGC","coverImgSrc":"journal/img/cover/GFZCLKXYGC.jpg","id":"31","issnPpub":"1000-7555","publisherId":"GFZCLKXYGC","title":"高分子材料科学与工程"},"keywords":[{"id":"f8dca0f0-97e8-4ced-b53c-d5989e167cec","keyword":"聚氨酯泡沫","originalKeyword":"聚氨酯泡沫"},{"id":"2871917c-572d-4d12-983f-692e39b8b39f","keyword":"超高分子量聚乙烯","originalKeyword":"超高分子量聚乙烯"},{"id":"6aee75ac-525b-4b4c-944b-2da2f635ef6a","keyword":"层状复合","originalKeyword":"层状复合"},{"id":"bf178b2b-5695-4f19-8661-20038cdd955a","keyword":"隔爆实验","originalKeyword":"隔爆实验"}],"language":"zh","publisherId":"gfzclkxygc201205019","title":"UHM WPE-PUF复合材料结构设计与隔爆实验","volume":"28","year":"2012"},{"abstractinfo":"结合Sn-3.5Ag和Sn-3.0Ag-0.5Cu 两种无铅钎料研究了镀镍浸金层(Electroless Nickel Immersion Gold,ENIG)表面层对焊点界面反应以及力学性能的影响.结果表明,钎焊后在Sn-3.5Ag/ENIG/Cu界面主要生成(NiyCu1-y)3Sn4,在Sn-3.0Ag-0.5Cu/ENIG/Cu界面主要生成(CuxNi1-x)6Sn5.在Sn基钎料/ENIG(Ni)/Cu界面处生成金属间化合物的种类及形貌由焊点中Cu原子含量决定.在时效过程中,ENIG表面层中Ni层有效抑制了焊点界面处金属间化合物的生长,减缓了焊点剪切性能的下降.在钎焊过程中ENIG表面层中的Au层不参与界面反应而是进入钎料基体与Sn反应,但是在时效过程中Au原子向界面迁移并造成焊点界面金属间化合物成分和焊点剪切强度的明显变化.","authors":[{"authorName":"张睿竑","id":"4d56cc58-56cb-45ab-96b8-711eb40b1255","originalAuthorName":"张睿竑"},{"authorName":"赵然","id":"27e261e7-5257-431b-9868-3944894a54b0","originalAuthorName":"赵然"},{"authorName":"郭福","id":"17ba8754-1ec5-493d-93bb-7ba6109f16eb","originalAuthorName":"郭福"}],"doi":"","fpage":"137","id":"4e6706d5-4a9e-42a2-9b72-98b5813508c0","issue":"2","journal":{"abbrevTitle":"CLYJXB","coverImgSrc":"journal/img/cover/CLYJXB.jpg","id":"16","issnPpub":"1005-3093","publisherId":"CLYJXB","title":"材料研究学报"},"keywords":[{"id":"30704aad-94c5-45e2-84a3-573f0e463498","keyword":"金属材料","originalKeyword":"金属材料"},{"id":"d2b4f6a7-9e79-4319-9533-441fa5d02ca1","keyword":"电子封装","originalKeyword":"电子封装"},{"id":"995a0893-85a5-4a28-9321-aa9ac9792809","keyword":"无铅钎焊","originalKeyword":"无铅钎焊"},{"id":"9617fe8e-6b4b-457b-af0a-29f38de94ac5","keyword":"镀镍浸金","originalKeyword":"镀镍浸金"},{"id":"79a24e49-a054-49ab-8eb7-cf81321e7ec0","keyword":"界面反应","originalKeyword":"界面反应"}],"language":"zh","publisherId":"clyjxb201002005","title":"Cu基板表面镀镍浸金保护层对无铅焊点可靠性的影响","volume":"24","year":"2010"}],"totalpage":7,"totalrecord":65}