介绍了一步化学法制备铜纳米流体的研究状况,阐述了通过调整铜盐浓度、还原剂浓度、温度、分散剂种类及加入量等制备参数可以获得具有优良导热性能的、分散稳定的铜纳米流体.
参考文献
| [1] | Choi S.Enhancing thermal conductivity of fluid with nanoparticles[A].New York:ASME,1995:231.99. |
| [2] | 刘光启;马连湘;刘杰.化学化工物性手册-无机卷[M].北京:化学工业出版社,2002 |
| [3] | 彭玉辉,黄素逸,张洪伟.纳米技术在传热领域中的应用与展望[J].节能,2004(06):7-10. |
| [4] | Wen Dongsheng;Lin Gulping et al.Review of nan-ofluids for heat transfer applications[J].Particuology,2009,7:141. |
| [5] | S. Lee;S. U. -S. Choi;S. Li;J. A. Eastman .Measuring thermal conductivity of fluids containing oxide nanoparticles[J].Journal of heat transfer: Transactions of the ASME,1999(2):280-289. |
| [6] | 李强,宣益民.铜-水纳米流体流动与对流换热特性[J].中国科学E辑,2002(03):331-337. |
| [7] | 谢华清,奚同庚.纳米流体导热系数研究[J].上海第二工业大学学报,2006(03):200-204. |
| [8] | Romano J M;Parker J C;Ford Q B .Application opportunities for nanoparticles made from condensation of physical vapor[J].Advances in Powder Metallurgy and Particulate Materials,1997,2:12. |
| [9] | EastmanJ A;Chois U S;Li S.Enhanced thermal conductivity through the development of nanofluids[A].Pittsburgh P A,1997:475.3. |
| [10] | Lo CH;Tsung TT;Chen LC .Shape-controlled synthesis of Cu-based nanofluid using submerged arc nanoparticle synthesis system (SANSS)[J].Journal of Crystal Growth,2005(1/4):636-642. |
| [11] | Pawel Keblinski;Jeffrey A. Eastman;David G. Cahill .Nanofluids for thermal transport[J].Materials Today,2005(6):36-44. |
| [12] | WENHUA YU;DAVID M. FRANCE;JULES L. ROUTBORT;STEPHEN U. S. CHOI .Review and Comparison of Nanofluid Thermal Conductivity and Heat Transfer Enhancements[J].Heat Transfer Engineering,2008(5):432-460. |
| [13] | Kufihara L K;Chow G M;Schoen P E .Nanocrystalline metallic powders and films produced by the polyol method[J].Nano-Structured Materials,1995,5(06):607. |
| [14] | Sinha Amit;ShamsB P .Preparation of copper powder by glyceol process[J].Materials Research Bulletin,2002,37:7. |
| [15] | Ananda Kumar S;Shree Meenakshi K;Narashimhan B R V .Synthesis and characterization of copper nanofluid by a novelone-step method[J].Materials Chemistry and Physics,2009,113:57. |
| [16] | Zhu H T;Lin Y S .A novel one-step chemical method of preparation of copper nanofluids[J].Journal of Colloid and Interface Science,2004,277(01):100. |
| [17] | 朱海涛 .纳米流体的制备、稳定及导热性能研究[D].山东大学,2005. |
| [18] | Liu Min-Sheng;Lin Mark Ching-Cheng;Tsai C Y .Enhancement of thermal conductivity with Cu for nanofluids using chemical reduction method[J].International Journal of Heat and Mass Transfer,2006,48(17-18):3028. |
| [19] | Kuo Pinglin et al.Hyperbranch-polyethyleniminated functional polymers Ⅱ:Effect of polyethyleniminated polyoxypropylenediamines on copper nanoparticle formation in aqueous solution[J].Colloid and Polymer Science,2006,284(04):435. |
| [20] | 任俊;沈健.颗粒分散科学与技术[M].北京:化学工业出版社,2005 |
| [21] | 李玲.表面活性剂与纳米技术[M].北京:化学工业出版社,2003 |
| [22] | 肖寒,王瑞,余磊,邹贵田.还原法制备纳米级铜粉[J].贵州师范大学学报(自然科学版),2003(01):4-6. |
| [23] | 张秋利,杨志懋,丁秉钧.硼氢化钾还原法制备纳米铜粉[J].中国有色金属学报,2008(z1):348-352. |
| [24] | 黄钧声,任山,谢成文.化学还原法制备纳米铜粉的研究[J].材料科学与工程学报,2003(01):57-59. |
| [25] | 刘志杰;赵斌;张宗涛.以次亚磷酸钠为还原剂的同超微粒子的制备及其稳定性研究[J].化学通报(印刷版),1996(10):55. |
| [26] | 赵斌;刘志杰;蔡梦军 等.超细铜粉的水合肼还原法制备及其稳定性研究[J].华东理工大学学报,1997,23(03):372. |
| [27] | 温传庚,王开明,李晓奇,高首山,郇维亮,赵颖.液相沉淀法制备纳米铜粉[J].鞍山科技大学学报,2003(03):176-178. |
| [28] | 李延军,唐建国,刘继宪,王瑶.粒径可控的铜纳米粒子的液相还原法制备[J].化学工程师,2008(05):17-20,24. |
| [29] | 黄钧声,任山,蔡俊威.分散剂PVP对液相还原法制备纳米铜粉的影响[J].广东工业大学学报,2005(02):16-20. |
| [30] | 高濂;孙静.纳米粉体的分散及表面改性[M].北京:化学工业出版社,2003 |
| [31] | 液相法制备纳米铜粉的研究[J].应用化工,2005(10):615-617. |
| [32] | Wu Szu-Han;Chen Dong-Hwang .Systhesis of high-concentration Cu nanoparticles in aqueous CTAB solutions[J].Journal of Colloid and Interface Science,2004,273:165. |
| [33] | Li XF;Zhu DS;Wang XJ .Evaluation on dispersion behavior of the aqueous copper nano-suspensions[J].Journal of Colloid and Interface Science,2007(2):456-463. |
| [34] | 黄钧声,任山,匡同春,古国伟.络合剂对液相还原法制备纳米铜粉的作用[J].材料开发与应用,2004(04):18-20. |
| [35] | 林荣会,方亮,郗英欣,邵艳霞.化学还原法制备纳米铜[J].化学学报,2004(23):2365-2368. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%