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  4. 片状水滑石的水热合成及表征

材料导报, 2013, 27(2): 125-127.

片状水滑石的水热合成及表征

刘春英 1, , 柳云骐 2, , 王健 {"currentpage":1,"firstResult":0,"maxresult":10,"pagecode":5,"pageindex":{"endPagecode":5,"startPagecode":1},"records":[{"abstractinfo":"Dry sliding friction between the Al¬59Cu¬25.5Fe¬12.5B¬3 quasicrystals (QCs)/coating of the diamond-like carbon (DLC) was carried out by self-made tribometer under different conditions. The influences of four parameters (temperature, sliding velocity, applied load, atmosphere) on friction and wear of quasicrystal surface were studied. Microstructure of quasicrystal, morphology of worn surface, and wear debris were observed by scanning electron microscopy (SEM). The results showed that for QCs, the friction coefficient and roughness of worn surface were influenced by the parameters, especially greatly by the temperature. With rise of the applied load and sliding velocity, the friction coefficient decreased. The dominant wear mechanism at 350℃ was delamination for QCs. The cracks formed on the worn surface during the friction. Moreover, phase transformation was not observed on worn surface of QCs at 350℃. All the results are discussed and explained.","authors":[{"authorName":"Xiying ZHOU","id":"3476e458-60ba-4ffe-8e75-c72e2006e84f","originalAuthorName":"Xiying ZHOU"},{"authorName":" Peiyao LI","id":"2ca4cd69-39ce-4ce6-8ebe-f12c2c1b9e77","originalAuthorName":" Peiyao LI"},{"authorName":" Junming LUO","id":"4b659865-2797-4e7e-b2b2-28a309909d66","originalAuthorName":" Junming LUO"},{"authorName":" Shiqiang QIAN","id":"b7402d51-1310-4a7e-980b-5a7face38c31","originalAuthorName":" Shiqiang QIAN"},{"authorName":" Jianhua TONG","id":"08fac8f9-243c-47dc-acfa-6888ccdbc1a6","originalAuthorName":" Jianhua TONG"}],"categoryName":"|","doi":"","fpage":"709","id":"e8d314f8-a80d-4843-92aa-1f282f550ded","issue":"6","journal":{"abbrevTitle":"CLKXJSY","coverImgSrc":"journal/img/cover/JMST.jpg","id":"11","issnPpub":"1005-0302 ","publisherId":"CLKXJSY","title":"材料科学技术(英文)"},"keywords":[{"id":"b1cd380f-8146-4db4-ba38-42230471b9fd","keyword":"Quasicrystal","originalKeyword":"Quasicrystal"},{"id":"88c8499c-f9b8-4855-8ac7-14932a633c98","keyword":"null","originalKeyword":"null"},{"id":"506647b6-b0f1-4caf-a9e0-fa31b30c78e1","keyword":"null","originalKeyword":"null"}],"language":"en","publisherId":"1005-0302_2004_6_9","title":"Sliding Friction of Al-Cu-Fe-B Quasicrystals","volume":"20","year":"2004"},{"abstractinfo":"The spinodal decomposition can occur in Al-Li alloys containing 5.8-14.2 at.% Li at room temperature. The modutated structure wavelength is approximately 3.1 nm for com mercial Al-LI alloys. The limit composition of the miscibility gap is 3.66 -16.06 at.%Li at 298 K. The highest temperature of the miscibility gap is 377 K.","authors":[{"authorName":"WEI Yinghui","id":"e706a7bd-7166-47e7-905b-486aeff931c3","originalAuthorName":"WEI Yinghui"},{"authorName":" WANG Xiaotian (School of Materials Scince and Engineering","id":"7d2b580f-4c98-47b5-862c-03659a474526","originalAuthorName":" WANG Xiaotian (School of Materials Scince and Engineering"},{"authorName":" Xi'an Jiaotong University","id":"c913caa0-4826-4349-a84a-7bd9ee690047","originalAuthorName":" Xi'an Jiaotong University"},{"authorName":" Xi'an 710049","id":"b0f45ac6-79db-4e95-98fd-7d623e675db2","originalAuthorName":" Xi'an 710049"},{"authorName":" China Manuscript received 10 Mareh","id":"d6bb00a2-be38-4139-9bc7-f9ca1ab0730b","originalAuthorName":" China Manuscript received 10 Mareh"},{"authorName":" 1994)","id":"9d71091f-aa7d-4589-a14b-d8149b6ed6c5","originalAuthorName":" 1994)"}],"categoryName":"|","doi":"","fpage":"41","id":"f3ff3e76-b3ed-4938-89b7-8b3169a42977","issue":"1","journal":{"abbrevTitle":"JSXBYWB","coverImgSrc":"journal/img/cover/amse.jpg","id":"49","issnPpub":"1006-7191","publisherId":"JSXBYWB","title":"金属学报(英文版)"},"keywords":[{"id":"c46aadb0-416a-48dd-b5c4-a9d6f1c7d6e8","keyword":": Al-Li alloy","originalKeyword":": Al-Li alloy"},{"id":"0ea58117-4e53-4df5-bf3f-c9e65247974e","keyword":"null","originalKeyword":"null"},{"id":"ea929412-416e-4114-a918-c8f43daad805","keyword":"null","originalKeyword":"null"}],"language":"en","publisherId":"1006-7191_1995_1_2","title":"ON SPINODAL BOUNDARIES OF Al-Li ALLOYS","volume":"8","year":"1995"},{"abstractinfo":"利用8Li次级束测量了质心系能量7.8 MeV 2H(8Li, 9Li)1H反应的角分布, 导出了8Li(d, p)9Li反应的天体物理S因子及9Li→8Li+n虚衰变的渐近归一化系数.","authors":[{"authorName":"李志宏","id":"1d897bde-d3af-4780-b782-20016a8e57dd","originalAuthorName":"李志宏"},{"authorName":"柳卫平","id":"5b348477-3a0a-4ee2-a291-089e1156ba11","originalAuthorName":"柳卫平"},{"authorName":"白希祥","id":"9992447e-1b64-4b09-92f3-c986f3bd21dc","originalAuthorName":"白希祥"},{"authorName":"郭冰","id":"9ca2ce32-0f90-4d4f-af81-88859b1c4070","originalAuthorName":"郭冰"},{"authorName":"连钢","id":"c008bf20-13c7-4adf-888f-e426e132665b","originalAuthorName":"连钢"},{"authorName":"颜胜权","id":"cbb35dfa-1637-4bec-97ca-120e6a6731c1","originalAuthorName":"颜胜权"},{"authorName":"王宝祥","id":"10d36e66-dbd4-4487-9b78-04e77c0c57fd","originalAuthorName":"王宝祥"},{"authorName":"陆昀","id":"ebcf642c-3176-42e3-98ff-e94f516d7781","originalAuthorName":"陆昀"},{"authorName":"曾晟","id":"ea5634e3-3fc7-416d-81c5-2a299d5a857c","originalAuthorName":"曾晟"},{"authorName":"苏俊","id":"e4e04ceb-5bec-4c03-9b32-9b50f473cb3e","originalAuthorName":"苏俊"}],"doi":"10.3969/j.issn.1007-4627.2005.01.006","fpage":"20","id":"77e17d7d-a99e-4002-91c7-1406901d07f5","issue":"1","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":"dc5d4560-3cfb-41b3-bc07-ce004f6431d0","keyword":"8Li(d,p)9Li反应","originalKeyword":"8Li(d,p)9Li反应"},{"id":"dd3c8630-128b-4c9b-9a8c-503b406ff592","keyword":"角分布","originalKeyword":"角分布"},{"id":"d11c00d3-65e4-45b4-950c-2d779fb479e6","keyword":"天体物理S因子","originalKeyword":"天体物理S因子"},{"id":"85a93f07-dc4d-49b3-9422-b2d963f9044e","keyword":"渐近归一化系数","originalKeyword":"渐近归一化系数"}],"language":"zh","publisherId":"yzhwlpl200501006","title":"大爆炸核合成相关的8Li(d, p)9Li反应截面测量","volume":"22","year":"2005"},{"abstractinfo":"Crystal structure of γ-Li_xFe_2O_3,inserted Li electrochemically,was studied by Moss- bauer spectroscopy together with X-ray diffraction,XPS and electrochemical method,On the insertion of Li at low current density,the crystal structure is keeping original spinel; while at higher current density or by thermal activation,owing to violent movement of Li~+ ions,part of crystal structure transforms into rock type similar to face-centered cubic structure of ferrous oxide.The transition channels during insertion of Li~+ ions and limitation of Li~+ ions inserted were discussed.","authors":[{"authorName":"HUANG Jianshun CHEN Junming Shanghai Institute of Metallurgy","id":"1722c5ce-8314-4367-a862-613e32403988","originalAuthorName":"HUANG Jianshun CHEN Junming Shanghai Institute of Metallurgy"},{"authorName":"Academia Sinica","id":"bd7e0f99-310e-4af0-b07e-f4ca7bb37c8f","originalAuthorName":"Academia Sinica"},{"authorName":"Shanghai","id":"a1c0f2ee-9120-4976-a337-25740cf0883a","originalAuthorName":"Shanghai"},{"authorName":"China Research Associate","id":"d4dad206-f402-460a-8021-58f503e04710","originalAuthorName":"China Research Associate"},{"authorName":"Shanghai Institute of Metallurgy","id":"8c812369-0f2f-46cd-8b80-9c3ab135747b","originalAuthorName":"Shanghai Institute of Metallurgy"},{"authorName":"Academia Sinica","id":"9c891c49-d0b4-42e2-81c5-bb8d6dbd6b45","originalAuthorName":"Academia Sinica"},{"authorName":"Shanghai 200050","id":"fc82754d-9f18-40ed-8aa4-e9386a0d2483","originalAuthorName":"Shanghai 200050"},{"authorName":"China","id":"110567f0-f308-4089-bdf6-45ab4cf8c2d0","originalAuthorName":"China"}],"categoryName":"|","doi":"","fpage":"69","id":"b43c4f8c-f949-493e-863e-820e145b2ea5","issue":"7","journal":{"abbrevTitle":"JSXBYWB","coverImgSrc":"journal/img/cover/amse.jpg","id":"49","issnPpub":"1006-7191","publisherId":"JSXBYWB","title":"金属学报(英文版)"},"keywords":[{"id":"ea5121fc-55e8-4173-9268-385986419e7d","keyword":"null","originalKeyword":"null"},{"id":"6c08474f-f30b-4643-a206-6f22cc1a0b88","keyword":"null","originalKeyword":"null"},{"id":"9f46fb84-69b0-44ca-be44-7829de9e27c0","keyword":"null","originalKeyword":"null"}],"language":"en","publisherId":"1006-7191_1993_7_8","title":"CRYSTAL STRUCTURE OF γ-Li_xFe_2O_3 WITH ELECTROCHEMICAL INSERTION OF Li","volume":"6","year":"1993"},{"abstractinfo":"本文研究了两种晶粒组织的二元Al-Li 合金拉伸性能与断裂行为。结果表明Al-Li 合金力学性能与晶粒尺寸有关,其断裂行为决定于PFZ 内平面滑移或晶界沉淀相与滑移的交互作用。","authors":[{"authorName":"姚大平","id":"ac7cbb9e-5a56-4ac7-8ed4-a5cf061c0d45","originalAuthorName":"姚大平"},{"authorName":"张匀","id":"78583dd0-e885-4e07-8f82-b541d179ac40","originalAuthorName":"张匀"},{"authorName":"胡壮麒","id":"65180395-f4e0-489e-aac8-f267a5e4b1d3","originalAuthorName":"胡壮麒"},{"authorName":"李依依","id":"c3c4d362-8a33-4db2-876d-0b06dc403042","originalAuthorName":"李依依"}],"categoryName":"|","doi":"","fpage":"143","id":"ebcb6677-f856-46e0-be11-f17c2cdc8a29","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":"e6f32e89-3d36-46f5-970c-bb1058c25948","keyword":"Al—Li合金","originalKeyword":"Al—Li合金"},{"id":"075ab37d-123b-40e5-a33d-815e87897a3e","keyword":"intergranular fracture","originalKeyword":"intergranular fracture"},{"id":"d9620e52-d6bc-4b4c-9c6e-720646e1bfac","keyword":"planar slip","originalKeyword":"planar slip"}],"language":"zh","publisherId":"1005-3093_1991_2_12","title":"Al—Li合金的晶界断裂","volume":"5","year":"1991"},{"abstractinfo":"The effect of Li(3)N additive on the Li-Mg-N-H system was examined with respect to the reversible dehydrogenation performance. Screening Study with varying Li(3)N additions (5, 10, 20, and 30 mol%) demonstrates that all are effective for improving the hydrogen desorption capacity. Optimally, incorporation of 10 mol% Li(3)N improves the practical capacity from 3.9 wt% to approximately 4.7 wt% hydrogen at 200 degrees C, which drives the dehydrogenation reaction toward completion. Moreover, the capacity enhancement persists well over 10 de-/rehydrogenation cycles. Systematic x-ray diffraction examinations indicate that Li(3)N additive transforms into LiNH(2) and LiH phases and remains during hydrogen cycling. Combined structure/property investigations suggest that the LiNH(2) \"seeding\" should be responsible for the capacity enhancement, which reduces the kinetic barrier associated with the nucleation of intermediate LiNH(2). In addition, the concurrent incorporation of LiH is effective for mitigating the ammonia release.","authors":[],"categoryName":"|","doi":"","fpage":"1936","id":"b91d072b-7602-4f83-91e1-1d8a10e5e39f","issue":"6","journal":{"abbrevTitle":"JOMR","id":"155c387a-c8cb-4083-85f3-6b58aeef4116","issnPpub":"0884-2914","publisherId":"JOMR","title":"Journal of Materials Research"},"keywords":[{"id":"d7c62b16-7827-4715-ad36-6655c21150c0","keyword":"complex hydrides;improvement;mixtures;imides;amide;h-2","originalKeyword":"complex hydrides;improvement;mixtures;imides;amide;h-2"}],"language":"en","publisherId":"0884-2914_2009_6_1","title":"Effect of Li(3)N additive on the hydrogen storage properties of Li-Mg-N-H system","volume":"24","year":"2009"},{"abstractinfo":"A rapidly solidified microcrystalline Al-Li-Cu-Mg-Zr alloy and its superplasicity have been investigated.An optimum tensile elongation of 585% was obtained at 540℃ and strain rate 1.67×10~(-2)s~(-1).The superplastic Al-Li alloy is manufaetured using thermomechanical pro- cessing:solution,overaging,warm rolling and recrystallization.Microstructural changes in thermomechanical processing and cavitation occurred during superplastic deformation have been observed.The superplastic failure of alloy may be caused mainly by nucleation and growth of cavities as well as the linkage around grains.","authors":[{"authorName":"MANG Weishi WANG Guozhi ZHANG Yongchang HU Zhuangqi SHI Changxu Institute of Metal Research","id":"fcbe52a1-7cf7-4533-a8f0-a1f0cdffaaba","originalAuthorName":"MANG Weishi WANG Guozhi ZHANG Yongchang HU Zhuangqi SHI Changxu Institute of Metal Research"},{"authorName":"Academia Sinica","id":"faa1c25a-f678-4606-9d14-06d5f036565a","originalAuthorName":"Academia Sinica"},{"authorName":"Shenyang","id":"ce5dde4a-77f9-470e-8759-45d59d4cc6f9","originalAuthorName":"Shenyang"},{"authorName":"China Yongchang Associate Professor","id":"8e16b145-7df9-4a21-9fb3-9a740f4dac79","originalAuthorName":"China Yongchang Associate Professor"},{"authorName":"Institute of Metal Research","id":"087f7106-a988-465b-b78b-b369a27d2186","originalAuthorName":"Institute of Metal Research"},{"authorName":"Academia Sinica","id":"2cd70072-c2d6-49cc-8bac-6bb166720b4f","originalAuthorName":"Academia Sinica"},{"authorName":"Shenyang 110015","id":"d46ef03f-17f1-45e8-bd49-212b37d57000","originalAuthorName":"Shenyang 110015"},{"authorName":"China","id":"c346e00c-53cf-4867-b6ff-d3a3014b4be5","originalAuthorName":"China"}],"categoryName":"|","doi":"","fpage":"236","id":"408a664a-84ed-4ab1-80b5-c70484380136","issue":"4","journal":{"abbrevTitle":"JSXBYWB","coverImgSrc":"journal/img/cover/amse.jpg","id":"49","issnPpub":"1006-7191","publisherId":"JSXBYWB","title":"金属学报(英文版)"},"keywords":[{"id":"b81d1a47-d503-490c-ae53-c289aa3c140e","keyword":"superplasticity","originalKeyword":"superplasticity"},{"id":"2cf99226-adbc-480d-9933-dd808403cee3","keyword":"null","originalKeyword":"null"},{"id":"23e71895-6a25-4913-bc37-0e5825a3006b","keyword":"null","originalKeyword":"null"},{"id":"2c6ccfae-25d6-42c6-a772-1199366b0a36","keyword":"null","originalKeyword":"null"}],"language":"en","publisherId":"1006-7191_1990_4_6","title":"SUPERPLASTICITY OF A RAPIDLY SOLIDIFIED AI-Li ALLOY","volume":"3","year":"1990"},{"abstractinfo":"概述了Al-Li合金强韧化的内部机理和外部机理,并在此基础上阐述了提高Al-Li合金强韧性的主要途径.","authors":[{"authorName":"甘卫平","id":"9e98c6af-8e51-4a9a-b4d3-371cadc20e59","originalAuthorName":"甘卫平"},{"authorName":"周兆锋","id":"428c9216-6574-434c-8490-92188ebcca22","originalAuthorName":"周兆锋"},{"authorName":"杨伏良","id":"2a173308-d3f4-4918-bc4e-d020b6063e5a","originalAuthorName":"杨伏良"}],"doi":"","fpage":"13","id":"0706d876-c89b-4b4a-b75b-ce837500f944","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":"7a9f5360-8736-4573-9e94-0c7a3adc9ae6","keyword":"Al-Li合金","originalKeyword":"Al-Li合金"},{"id":"98b44e12-e2f3-4232-b7ed-b8ee768fc5d1","keyword":"强韧性","originalKeyword":"强韧性"},{"id":"c5c56337-2048-46d5-8c08-09af0e646aa9","keyword":"途径","originalKeyword":"途径"}],"language":"zh","publisherId":"cldb200309004","title":"Al-Li合金强韧化机理及途径","volume":"17","year":"2003"},{"abstractinfo":"A LI-B alloy has been prepared using a pretreated amorphous B powder and pure Li ingot as starting materials by continually slow addition of B powder and intensified stirring in the process of melting. The microstructure and the discharge characteristic of the materials have been investigated. Results show that the problem of temperature control in synthesis would be modified by means of continual addition of B powder, the Li7B6 would be more finery distributed in the metal Li by means of intensified stirring. The discharge characteristic of the Li-B alloy using amorphous B as starting materials is almost the same with that of using crystalline B.","authors":[{"authorName":"Zhijian LIU","id":"d7bb514a-0e14-4586-bcf1-5957af5af1ef","originalAuthorName":"Zhijian LIU"},{"authorName":" Zhiyou LI","id":"ca878905-45da-4f6c-bdb9-35d00c544596","originalAuthorName":" Zhiyou LI"},{"authorName":" Wei DUAN","id":"dede1c5e-856c-4a6c-9d24-eb2daac54547","originalAuthorName":" Wei DUAN"},{"authorName":" Xuanhui QU","id":"f9e9bd35-c44f-4495-82d1-4b13c9b08a0d","originalAuthorName":" Xuanhui QU"},{"authorName":" Baiyun HUANG","id":"caabcd02-ea24-42a7-9ff1-98b23d503e0c","originalAuthorName":" Baiyun HUANG"},{"authorName":" Siqi ZHANG","id":"af78b330-18b2-4230-a919-02bdc90831a8","originalAuthorName":" Siqi ZHANG"}],"categoryName":"|","doi":"","fpage":"581","id":"80f4d4dc-8008-46d9-81c3-1ba57ec85cc1","issue":"6","journal":{"abbrevTitle":"CLKXJSY","coverImgSrc":"journal/img/cover/JMST.jpg","id":"11","issnPpub":"1005-0302 ","publisherId":"CLKXJSY","title":"材料科学技术(英文)"},"keywords":[],"language":"en","publisherId":"1005-0302_2000_6_15","title":"Preparation of Li-B alloy and study of its microstructure and discharge characteristics","volume":"16","year":"2000"},{"abstractinfo":"运用固体经验电子理论(EET),对Al-Li合金时效初期的若干偏聚晶胞的价电子结构进行了计算.计算结果表明:不包含空位的偏聚晶胞的键络最强键为Al-Al键,其中Al原子的共价半径较Li原子的共价半径要大;而含空位的偏聚晶胞的最强键为Al-Li键,Al原子的共价半径要比Li原子的共价半径要小;在空位存在的情况下,由于Al原子与Li原子的电负性相差明显,促使Al和Li原子结合,倾向形成Al-Li短程序结构偏聚区,这种含空位的短程序结构很可能就是δ′(Al3Li)亚稳相的前兆结构和生长胚胎;由于Al-Li-空位有序偏聚晶胞的Al-Li键络比基体键络要强许多,因此,淬火过程中合金生成的Al-Li-空位偏聚晶胞对合金过饱和固溶体起主要强化作用;后续析出的δ′(Al3Li)亚稳相键络各项异性显著,键络强度明显提高;由于Al3Li与基体共格,其大量均匀弥散析出起到提升基体整体键络强度,同样对合金产生强化作用.","authors":[{"authorName":"高英俊","id":"393dd650-edd6-40dd-a5bc-d6d7588cc431","originalAuthorName":"高英俊"},{"authorName":"黄创高","id":"7606db5a-189d-4c97-b06c-80bcbb7fc71e","originalAuthorName":"黄创高"},{"authorName":"莫其逢","id":"c75ccc74-42a4-4b75-b1e1-54b6e8589a33","originalAuthorName":"莫其逢"},{"authorName":"蓝志强","id":"4209e21f-67b7-4e0a-9477-6d7aafca43be","originalAuthorName":"蓝志强"},{"authorName":"刘慧","id":"2229c1da-f1e2-4517-8dfd-1769941f43f9","originalAuthorName":"刘慧"},{"authorName":"韦银燕","id":"dff993b8-9ade-4e17-a593-06d88b4c7b85","originalAuthorName":"韦银燕"}],"doi":"","fpage":"1069","id":"9446a7ad-5214-4973-ac76-bf3bd2b87da2","issue":"7","journal":{"abbrevTitle":"ZGYSJSXB","coverImgSrc":"journal/img/cover/ZGYSJSXB.jpg","id":"88","issnPpub":"1004-0609","publisherId":"ZGYSJSXB","title":"中国有色金属学报"},"keywords":[{"id":"a12bc4ce-726b-44bb-9168-e5b62b0d004e","keyword":"Al-Li合金","originalKeyword":"Al-Li合金"},{"id":"9330ff84-179e-486c-9cd5-3a32732ec371","keyword":"Al3Li","originalKeyword":"Al3Li"},{"id":"25463f73-89af-4965-929d-939a157bf27b","keyword":"空位","originalKeyword":"空位"},{"id":"3288d334-1fbe-41e4-99cd-7f8c1b1240e1","keyword":"价电子结构","originalKeyword":"价电子结构"},{"id":"934c5af3-5f5b-4632-a9f6-735775d2b9d7","keyword":"力学性能","originalKeyword":"力学性能"}],"language":"zh","publisherId":"zgysjsxb200507014","title":"Al-Li合金时效初期的价键分析","volume":"15","year":"2005"}],"totalpage":222,"totalrecord":2211}