{"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"对定向凝固Ni3Al基超合金IC6,以不同功率密度的强脉冲离子束进行辐照,利用X射线衍射分析,研究了辐照后材料表面所产生的物相变化.结果表明:当以低功率密度辐照时,材料表面形成形变织构;随着功率密度的增加,材料表面还会发生部分非晶化;当功率密度进一步增加时,材料表面出现了新相.","authors":[{"authorName":"张洪涛","id":"52b17435-4629-4a75-91e7-01e0f35f6747","originalAuthorName":"张洪涛"},{"authorName":"王天民","id":"cfb81d3f-003d-47a6-9b19-cc58156a8b1b","originalAuthorName":"王天民"},{"authorName":"王聪","id":"8f2dccec-c50c-4688-86eb-f9ff228040a9","originalAuthorName":"王聪"},{"authorName":"王文军","id":"3e171b5f-c262-49fa-8d9e-dce2c8754cdd","originalAuthorName":"王文军"},{"authorName":"韩宝玺","id":"0f671298-6fb5-45fb-b720-9215e8538910","originalAuthorName":"韩宝玺"},{"authorName":"颜莎","id":"e1e182bf-a388-420f-9e05-44da566cf9c1","originalAuthorName":"颜莎"},{"authorName":"赵渭江","id":"6ad6cc12-2daf-4833-ba83-296a9c883415","originalAuthorName":"赵渭江"},{"authorName":"韩雅芳","id":"d3ddce13-9b31-4b2a-a837-84227346f660","originalAuthorName":"韩雅芳"}],"doi":"","fpage":"216","id":"a91a18ad-96ca-4c36-aea6-bfcbc0227dc4","issue":"3","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"c69f9a3d-449f-48e1-b264-368ee9bebc47","keyword":"强脉冲离子束(IPIB)","originalKeyword":"强脉冲离子束(IPIB)"},{"id":"d6474e05-a579-4576-9db0-49e12ddc7c06","keyword":"Ni3Al","originalKeyword":"Ni3Al"},{"id":"c29aa59f-e17e-430c-9b35-5aafe1294d53","keyword":"织构,集体旋转变形机制","originalKeyword":"织构,集体旋转变形机制"}],"language":"zh","publisherId":"xyjsclygc200303016","title":"强脉冲离子束辐照对Ni3Al基超合金IC6相变的影响","volume":"32","year":"2003"},{"abstractinfo":"简要介绍了广泛应用于表面科学的灵敏核探针--慢正电子束设备的原理、构造和应用, 阐述了北京慢正电子束流装置的设计原理和性能, 讨论了北京慢正电子束流装置今后的研究前景.","authors":[{"authorName":"魏龙","id":"95bfcd62-cdc9-424e-90af-928a81a2fa91","originalAuthorName":"魏龙"},{"authorName":"陈红民","id":"a325500a-b8dd-4ee2-b9b7-e2765dbf6331","originalAuthorName":"陈红民"},{"authorName":"于润升","id":"f6e79fd0-90ef-408c-b3d9-5b637ff6b589","originalAuthorName":"于润升"},{"authorName":"王宝义","id":"ea2f991a-e877-4755-96c7-e98855466e30","originalAuthorName":"王宝义"},{"authorName":"张天保","id":"df048a7f-19d6-4cf0-bcb7-f56039cf2818","originalAuthorName":"张天保"},{"authorName":"郁伟中","id":"38df3e28-a63e-4032-a5c4-318c833f2a88","originalAuthorName":"郁伟中"},{"authorName":"何元金","id":"929aa675-451a-4cf9-947a-0a66676d7467","originalAuthorName":"何元金"},{"authorName":"王天民","id":"924282ab-37de-490f-b9eb-fcd808d002c3","originalAuthorName":"王天民"}],"doi":"10.3969/j.issn.1007-4627.2000.02.012","fpage":"117","id":"4237e9f1-bfa1-4b6e-a560-3d3c3ad3ab79","issue":"2","journal":{"abbrevTitle":"YZHWLPL","coverImgSrc":"journal/img/cover/YZHWLPL.jpg","id":"78","issnPpub":"1007-4627","publisherId":"YZHWLPL","title":"原子核物理评论 "},"keywords":[{"id":"50d07871-73ab-4545-8aae-3a09ae6ef958","keyword":"慢正电子束流","originalKeyword":"慢正电子束流"},{"id":"33e29eb0-a777-4574-842c-07948891e3c0","keyword":"正电子湮没","originalKeyword":"正电子湮没"},{"id":"4ba4611a-85cd-4558-a4eb-6bd8b8a6e800","keyword":"表面界面","originalKeyword":"表面界面"}],"language":"zh","publisherId":"yzhwlpl200002012","title":"一种新的灵敏核探针--慢正电子束流装置","volume":"17","year":"2000"},{"abstractinfo":"采用低温去合金化(Dealloying)处理法对医用NiTi合金进行表面脱镍改性.经SEM、XRD、AES、FTIR、XPS和模拟体液(SBF)仿生沉积等分析研究表明,NiTi合金经低温去合金化处理后,在合金表面选择性地除去了有害元素镍,在距表层约400 nm深度内原位制备出完全无镍的具有纳米网架结构的水合氧化钛膜,并在500℃,进行1h热处理,晶化为锐钛矿型二氧化钛.由于经低温去合金化脱镍的NiTi合金表面富含羟基(OH),在SBF溶液中具有良好的生物活性,从而提高了NiTi合金的生物相容性.","authors":[{"authorName":"苏向东","id":"1c0c8827-826c-4001-81f1-0afc8ddd39d1","originalAuthorName":"苏向东"},{"authorName":"韩锋","id":"e4cbb384-8ae6-45ee-bb1f-14d1a9cceaa2","originalAuthorName":"韩锋"},{"authorName":"何力","id":"7cc8a475-0553-4665-b4bb-357877faf173","originalAuthorName":"何力"},{"authorName":"刘日光","id":"90e1c26a-2ee5-4aee-8629-fb0823ec9de6","originalAuthorName":"刘日光"},{"authorName":"黄亚励","id":"702feb88-2d1a-4298-8aec-4af4a1ff9638","originalAuthorName":"黄亚励"},{"authorName":"郝维昌","id":"30f61a83-9e00-4caf-a11f-41484941acb0","originalAuthorName":"郝维昌"},{"authorName":"王天民","id":"4ed6dd9a-9d2f-4171-bb73-f9837f0f53c0","originalAuthorName":"王天民"}],"doi":"","fpage":"1446","id":"05781549-4665-4b4c-8124-f57f7065961a","issue":"8","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"0fb890e8-cac2-420c-ae0f-198d204c3160","keyword":"NiTi","originalKeyword":"NiTi"},{"id":"7ccc3178-ce3b-4f4d-a368-2dc2d57a5455","keyword":"记忆合金","originalKeyword":"记忆合金"},{"id":"cc7c4b83-86cf-4e82-bfd4-7d90ecd1afa7","keyword":"去合金化","originalKeyword":"去合金化"},{"id":"733fb0bb-b946-4dae-a96a-acbc54ba2f24","keyword":"脱镍","originalKeyword":"脱镍"},{"id":"ebc3430b-9796-4cd8-b82a-ecc32ee88e47","keyword":"表面改性","originalKeyword":"表面改性"},{"id":"f4f8ef99-fbe8-47b7-b44b-01f7d1d17910","keyword":"氧化钛","originalKeyword":"氧化钛"}],"language":"zh","publisherId":"xyjsclygc201108027","title":"低温去合金化脱镍处理镍钛记忆合金的表面特性","volume":"40","year":"2011"},{"abstractinfo":"利用自行设计的基片液氮低温冷却装置,用金属Ni靶在Ar+O2气氛反应条件下,利用磁控溅射制备纳米微晶结构NiOx膜的方法,薄膜的XRD谱和扫描电子显微图像(SEM)表明,该方法实现了在溅射参数完全相同的条件,纳米NiOx薄膜结构连续可控、可调节.","authors":[{"authorName":"王怀义","id":"360ae5f1-1561-44bf-ba22-2751a861a150","originalAuthorName":"王怀义"},{"authorName":"刁训刚","id":"fde4cd2c-aaee-49cc-ac8c-3bf5947cd8c7","originalAuthorName":"刁训刚"},{"authorName":"王武育","id":"4daaa9f6-f6d2-4492-ad6e-6d81d1a38d83","originalAuthorName":"王武育"},{"authorName":"杨海刚","id":"cedc11ae-db32-4c1c-be70-c9c2e395470d","originalAuthorName":"杨海刚"},{"authorName":"丁破","id":"b38b5b2e-fc53-4829-9744-c77ec1981892","originalAuthorName":"丁破"},{"authorName":"郝维昌","id":"b9c1b0e3-54b8-409c-ada8-18812c0d164d","originalAuthorName":"郝维昌"},{"authorName":"王天民","id":"de0c10a7-006e-4db1-83f3-9993a046f4bf","originalAuthorName":"王天民"}],"doi":"","fpage":"1618","id":"3dbdca36-c63e-46a1-ab80-6f5f5c2d8db6","issue":"10","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"629008b5-5882-4355-b0f6-1b74a3c673b9","keyword":"磁控溅射","originalKeyword":"磁控溅射"},{"id":"e2b30fac-e504-4f13-a52a-274533bd58df","keyword":"纳米微晶","originalKeyword":"纳米微晶"},{"id":"d5a69d3d-2db9-4774-9588-b871b0bf4896","keyword":"NiOx薄膜","originalKeyword":"NiOx薄膜"}],"language":"zh","publisherId":"gncl200810009","title":"磁控溅射基片低温冷却法制备NiOx纳米微晶薄膜","volume":"39","year":"2008"},{"abstractinfo":"利用射频磁控溅射技术,以Ar和O2气混合气体为溅射气体在载玻片上制备了锐钛相TiO2薄膜.为了提高TiO2薄膜的光催化活性,在TiO2薄膜表面进行了钽修饰.利用X射线衍射(XRD),原子力显微镜(AFM)和UV-VIS-NIR分光光度计等技术对薄膜进行了表征.结果表明:对TiO2薄膜的表面进行适量的Ta元素修饰可以提高其光催化活性.","authors":[{"authorName":"郑树凯","id":"56eeb5aa-7432-4ae7-9e0a-8895d1065f2c","originalAuthorName":"郑树凯"},{"authorName":"郝维昌","id":"104b0eb6-e948-4326-b067-277d1a545b92","originalAuthorName":"郝维昌"},{"authorName":"程躜","id":"3b7c1895-07bf-4976-af4a-6096ad8b66da","originalAuthorName":"程躜"},{"authorName":"潘峰","id":"7a88d7a6-edaf-4d76-9fe7-39f7d273dbf0","originalAuthorName":"潘峰"},{"authorName":"王天民","id":"30aa014d-c3f2-4550-8077-1e32bf7125ca","originalAuthorName":"王天民"},{"authorName":"赵艳玲","id":"58d88894-6766-4ccc-9a9e-fc28a873b1ce","originalAuthorName":"赵艳玲"},{"authorName":"蒋湘宁","id":"76aec596-e17f-4a13-8c25-3d83519cb648","originalAuthorName":"蒋湘宁"}],"doi":"","fpage":"125","id":"836f10f0-43c4-4be6-94a5-7d189f98ea9d","issue":"2","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"971b279d-f644-45fe-b34d-b96c754e497b","keyword":"TiO2薄膜","originalKeyword":"TiO2薄膜"},{"id":"2b3d284e-5913-4a60-9aa6-649cb2afce05","keyword":"表面修饰","originalKeyword":"表面修饰"},{"id":"7f0d7c3c-933a-47fe-9528-39f58fa402f7","keyword":"光催化活性","originalKeyword":"光催化活性"}],"language":"zh","publisherId":"xyjsclygc200402003","title":"表面修饰TiO2光催化薄膜的表征","volume":"33","year":"2004"},{"abstractinfo":"以柠檬酸为碳源和螯合剂,通过溶胶-凝胶法制备了LiFePO_4/CNT复合正极粉体材料.利用XRD和SEM表征了复合粉体的结构.复合材料含有单一的磷酸铁锂相,碳纳米管在正极材料中将颗粒与颗粒相连,为颗粒之间提供了附加的导电通路.通过添加碳纳米管的方法对正极材料导电通路进行改善.在低速率下容量可以达到135 mAh/g,在1 C充放电速率下容量保持在110 mAh/g,2 C时容量保持在80 mAh/g.随着碳纳米管含量的增加,锂离子电池的容量也增加.","authors":[{"authorName":"吕霄","id":"8d355cb0-a381-4483-bd10-042ea90503fa","originalAuthorName":"吕霄"},{"authorName":"王天民","id":"1d691dd3-8b2c-4336-a39f-2bfa0ff546f8","originalAuthorName":"王天民"},{"authorName":"罗绍华","id":"0a422895-7d3c-42c1-9789-03e90b75f2ef","originalAuthorName":"罗绍华"},{"authorName":"惠乐","id":"c63dc31b-b9f6-4402-9a14-0e34b2ec6952","originalAuthorName":"惠乐"},{"authorName":"张中太","id":"f75f3605-5b25-4aaf-ae0e-3ba02eecb599","originalAuthorName":"张中太"},{"authorName":"唐子龙","id":"3846c93f-cf2a-485e-b942-7b7e85b9780e","originalAuthorName":"唐子龙"},{"authorName":"张俊英","id":"9e811f9c-bd5a-4823-b5ef-086e722ac027","originalAuthorName":"张俊英"}],"doi":"","fpage":"16","id":"a58476b5-bf4a-4ca0-a335-d85673ed0cf1","issue":"z2","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"757aef86-675b-4019-a82a-40054bf58253","keyword":"磷酸铁锂","originalKeyword":"磷酸铁锂"},{"id":"08e232f1-3cfb-4a87-aa1c-06e1e8588a25","keyword":"碳纳米管","originalKeyword":"碳纳米管"},{"id":"bfcd84bb-f925-4874-ba57-c7e592a6be67","keyword":"溶胶-凝胶工艺","originalKeyword":"溶胶-凝胶工艺"},{"id":"5153680d-97c0-45f4-bb9d-2ca3911eb9f1","keyword":"正极材料","originalKeyword":"正极材料"},{"id":"40f5dc84-61e8-43bc-a18f-2eca322692a6","keyword":"锂离子电池","originalKeyword":"锂离子电池"}],"language":"zh","publisherId":"xyjsclygc2009z2005","title":"LiFePO_4/CNT复合正极材料的制备与性能研究","volume":"38","year":"2009"},{"abstractinfo":"在N2+H2还原气氛中以ZnO粉末为原料制备了ZnO:Zn发光膜和粉末.利用X射线衍射、电子扫描显微镜、红外光谱仪、XPS、荧光分光光度计等测试手段表征了样品的结构、形貌、缺陷和发光性能.ZnO:Zn发光膜具有六角纤锌矿晶体结构和良好的c轴取向,结晶性较好,晶粒颗粒均匀.ZnO:Zn发光膜和粉末具有绿色的单谱光致发光和电致发光.发光薄膜的O1s结合能表明,此绿色发光与薄膜内的点缺陷状态密切相关.","authors":[{"authorName":"丛亮","id":"6c388497-004b-4ea1-b542-0ea388f698b3","originalAuthorName":"丛亮"},{"authorName":"张俊英","id":"667a4431-b6da-44ed-909b-7eb5051c0461","originalAuthorName":"张俊英"},{"authorName":"王锡铭","id":"b441175b-ff83-4347-88f2-124274dc4840","originalAuthorName":"王锡铭"},{"authorName":"薛道齐","id":"c71b89e4-a06b-46f4-8132-c56283231b85","originalAuthorName":"薛道齐"},{"authorName":"王天民","id":"0687f724-cae0-49b9-89b4-6ca54e81c965","originalAuthorName":"王天民"}],"doi":"","fpage":"1414","id":"00b4a7af-07c5-40e4-8229-5d4520878961","issue":"9","journal":{"abbrevTitle":"GNCL","coverImgSrc":"journal/img/cover/GNCL.jpg","id":"33","issnPpub":"1001-9731","publisherId":"GNCL","title":"功能材料"},"keywords":[{"id":"f9d52aef-13c3-439f-b2a9-5511d3861c9b","keyword":"ZnO","originalKeyword":"ZnO"},{"id":"20147fe4-da25-477b-b3e7-50626ddf9fe5","keyword":"发光","originalKeyword":"发光"},{"id":"40375214-ed2f-4ec8-a080-22ba3908bbd3","keyword":"缺陷","originalKeyword":"缺陷"},{"id":"6da29e82-d795-48e7-a685-d4655a828aaa","keyword":"蒸发沉积","originalKeyword":"蒸发沉积"}],"language":"zh","publisherId":"gncl200709007","title":"ZnO:Zn的光致发光和电致发光性能","volume":"38","year":"2007"},{"abstractinfo":"分析了近等原子比NiTi形状记忆合金实现去合金化的热力学条件,并采用低温去合金化处理法对其进行表面改性:经SEM、XRD、XPS、EDX,模拟体液(SBF)仿生沉积等分析研究表明,NiTi合金经去合金化处理后,在合金表面选择性地除去了有害元素镍,在距表层约130nm深度内原位制各出完全无镍的具有纳米结构的二氧化钛层;同时结合上羟基(OH-),在SBF溶液中,经低温去合金化处理后的合金表面具有诱导Ca/P沉积的能力,从而提高了NiTi形状记忆合金的生物相容性.","authors":[{"authorName":"苏向东","id":"66d50b3f-9071-43d3-b198-8f893019f98a","originalAuthorName":"苏向东"},{"authorName":"王天民","id":"99589bab-506c-4cf0-bd61-aa96da73c6c0","originalAuthorName":"王天民"},{"authorName":"郝维昌","id":"c61bbc52-15ac-42ba-91be-bc22fc29dff4","originalAuthorName":"郝维昌"},{"authorName":"韩峰","id":"56494454-b6ee-4061-8c2c-4fe976797396","originalAuthorName":"韩峰"},{"authorName":"黄亚励","id":"d2a43850-d317-4217-83c9-176fffdd3aec","originalAuthorName":"黄亚励"},{"authorName":"何力","id":"cbb60934-8515-4931-992d-d835fe797004","originalAuthorName":"何力"}],"doi":"","fpage":"859","id":"0150a3e4-1b6c-4dba-88c6-4c9c79d5bcab","issue":"5","journal":{"abbrevTitle":"XYJSCLYGC","coverImgSrc":"journal/img/cover/XYJSCLYGC.jpg","id":"69","issnPpub":"1002-185X","publisherId":"XYJSCLYGC","title":"稀有金属材料与工程"},"keywords":[{"id":"56cba713-eeb6-4efa-a64a-22dd67f5c6fb","keyword":"NiTi合金","originalKeyword":"NiTi合金"},{"id":"c9d499c8-8c7b-4717-b3a6-3737c2220081","keyword":"去合金化","originalKeyword":"去合金化"},{"id":"1fcad30c-9ecb-46d6-a299-2a3bb588d48b","keyword":"表面改性","originalKeyword":"表面改性"},{"id":"f1d06f15-9657-49f3-8e02-28d0bb5cc740","keyword":"热力学条件","originalKeyword":"热力学条件"},{"id":"1cd757b7-2483-42b8-bb7d-2a336b6699f3","keyword":"纳米二氧化钛","originalKeyword":"纳米二氧化钛"}],"language":"zh","publisherId":"xyjsclygc200805026","title":"低温去合金化处理对医用镍钛合金表面性质的影响","volume":"37","year":"2008"},{"abstractinfo":"SiC是一种宽带隙半导体材料,在高温、高频、大功率、光电子及抗辐射等方面具有巨大的应用潜力。介绍了国外对该材料及其薄膜进行辐照的一些结果,并指出开展SiC及其薄膜辐照效应研究的重要意义,预测了其发展方向和应用前景。","authors":[{"authorName":"刘贵昂","id":"d29c0746-b0b6-4d49-9cb6-3bdd659ba49a","originalAuthorName":"刘贵昂"},{"authorName":"王天民","id":"9d49e475-54e3-4710-ab25-ab9ed8cc1bb9","originalAuthorName":"王天民"}],"doi":"","fpage":"40","id":"03dc78dc-c7fb-407d-98ff-e42741f5f936","issue":"7","journal":{"abbrevTitle":"CLDB","coverImgSrc":"journal/img/cover/CLDB.jpg","id":"8","issnPpub":"1005-023X","publisherId":"CLDB","title":"材料导报"},"keywords":[{"id":"0f575fb2-38e2-4863-bcd9-40ac688fe713","keyword":"SiC","originalKeyword":"SiC"},{"id":"6c2f0914-bd33-4590-9f79-70b4edb56a07","keyword":"辐照","originalKeyword":"辐照"},{"id":"d27effe0-bc27-4458-8836-d50df379e0d7","keyword":"发展方向与应用前景","originalKeyword":"发展方向与应用前景"}],"language":"zh","publisherId":"cldb200107014","title":"SiC及a-SiC:H薄膜的辐照及其进展","volume":"16","year":"2001"},{"abstractinfo":"研究了纳米金红石型TiO2经空气和氨气气氛热处理后其光催化性能的变化.利用UV-VIS分光光度计,X射线衍射(XRD)和X射线光电子能谱(XPS)等技术对热处理前后的样品进行了表征.结果表明:在紫外和可见光照射下,NH3中525℃热处理和空气中600℃热处理所得样品的光催化性能比未经处理的样品分别提高了30%和60%.样品在热处理前后晶体结构和晶粒大小都未发生变化.氨气中热处理的样品含有微量的氮元素.","authors":[{"authorName":"陈顺利","id":"3a9a423e-99f6-45b8-a8f0-21a051916f31","originalAuthorName":"陈顺利"},{"authorName":"刁训刚","id":"65d81710-e7c5-4d94-940d-3022bd505922","originalAuthorName":"刁训刚"},{"authorName":"张俊英","id":"79e433b9-e0bd-40e4-b4b2-41443d061583","originalAuthorName":"张俊英"},{"authorName":"王天民","id":"6a39b729-f32e-4806-b20a-ceae8a053e49","originalAuthorName":"王天民"}],"doi":"10.3969/j.issn.1007-4252.2004.02.009","fpage":"182","id":"06fcb4c2-1a9c-40c8-a7cc-2d50497b6f08","issue":"2","journal":{"abbrevTitle":"GNCLYQJXB","coverImgSrc":"journal/img/cover/GNCLYQJXB.jpg","id":"34","issnPpub":"1007-4252","publisherId":"GNCLYQJXB","title":"功能材料与器件学报 "},"keywords":[{"id":"97626418-fcaa-4e3d-8468-c609427f9db2","keyword":"纳米金红石型TiO2","originalKeyword":"纳米金红石型TiO2"},{"id":"17a4092f-c613-45c5-8ad4-410b86e9293a","keyword":"光催化活性","originalKeyword":"光催化活性"},{"id":"b6e5aa0b-87f3-40f7-af34-0a7bcc7d96d1","keyword":"热处理","originalKeyword":"热处理"}],"language":"zh","publisherId":"gnclyqjxb200402009","title":"热处理对金红石型TiO2光催化性能的影响","volume":"10","year":"2004"}],"totalpage":67,"totalrecord":662}