泡沫金属是一类具有低密度以及新奇的物理、力学、电学、声学等特殊性能的新型材料.而泡沫铝的潜在用途之一是作为泡沫铝夹芯板的芯材使用.详细介绍了制备泡沫铝夹芯板的不同方法,如胶粘法、超声焊接法、激光协助发泡法、扩散焊接法、面板与预制材料轧制-包覆法和粉末复合轧制法等.通过比较,在国内粉末复合轧制法工艺简单,是最有希望适合高温作业和大批量生产的方法.
参考文献
| [1] | Ashby M F;Evans A G;Fleck N A.Metal foams:A design guide[M].Boston:Butterworth Heinmann,2000 |
| [2] | John Banhart .Manufacture, characterization and application of cellular Metals and metal foams[J].Progress in materials science,2001(6):559-632. |
| [3] | 蒂吉斯切;克雷兹特;左孝青;周芸.多孔泡沫金属[M].北京:化学工业出版社,2005 |
| [4] | Hans Wolfgang Seeliger .Manufacture of aluminum foam sandwich (AFS) components[J].Advances in Engineering Materials,2002,4(10):753. |
| [5] | V. Crupi;R. Montanini .Aluminium foam sandwiches collapse modes under static and dynamic three-point bending[J].International journal of impact engineering,2007(3):509-521. |
| [6] | B. Shafiq;A. Quispitupa .Fatigue characteristics of foam core sandwich composites[J].International Journal of Fatigue,2006(2):96-102. |
| [7] | Nitin Kulkarni et al.Fatigue crack growth and life prediction of foam core sandwich composites under flexural loading[J].Computers & Structures,2003,59(04):499. |
| [8] | Claus Burchardt .Fatigue in sandwich structures loaded in transverse shear[J].Computers & Structures,1998,40(01):73. |
| [9] | M. Burman;D. Zenkert .Fatigue of foam core sandwich beams-2: effect of initial damage[J].International Journal of Fatigue,1997(7):563-578. |
| [10] | J.S.HUANG;J.Y.LIN .FATIGUE OF CELLULAR MATERIALS[J].Acta materialia,1996(1):289-296. |
| [11] | Harte A M;Fleck N A;Ashby M F .The fatigue strength of sandwich beams with an aluminum alloy foam core[J].International Journal of Fatigue,2001,23(06):499. |
| [12] | Cantwell WJ.;Reyes G.;Compston P. .The fracture properties of novel aluminum foam sandwich structures[J].Journal of Materials Science Letters,2000(24):2205-2208. |
| [13] | Arve Grφnsund Hanssen et al.Crash behavior of foam-based component:validation of numerical simulations[J].Advances in Engineering Materials,2002,4(10):771. |
| [14] | F. Meraghni;F. Desrumaux;M. L. Benzeggagh .Mechanical behaviour of cellular core for structural sandwich panels[J].Composites, Part A. Applied science and manufacturing,1999(6):767-779. |
| [15] | Santosa Sigit;Wierzbicki Tomasz .On the modelling of crush behaviour of a closed-cell aluminium foam structure[J].Journal of Mechanical Phys Solids,1998,46(04):645. |
| [16] | Born Christoph;Kuckert Hagen;Wagner Guntram et al.Ultrasonic torsion welding of sheet metals to cellular metallic[J].Advances in Engineering Materials,2003,5(11):779. |
| [17] | Grote F;Busse P .Giesstechnische herstellung offenporiger metallschwmme mittels mineralischer platzhalter[J].Material Wissenschaft und Werkstofftechnik(In German),2000,31(06):415. |
| [18] | Andersen O.Metal Foams and Porous Metal Structure[A].Brain,1999:183. |
| [19] | Kathuria YP. .A preliminary study on laser assisted aluminum foaming[J].Journal of Materials Science,2003(13):2875-2881. |
| [20] | Kathuria YP. .Laser assisted aluminum foaming[J].Surface & Coatings Technology,2001(0):56-60. |
| [21] | Y. P. Kathuria .Nd-YAG laser assisted aluminum foaming[J].Journal of Materials Processing Technology,2003(2):466-470. |
| [22] | Burmester et al.Qualifizierung des lasergestützten Fügens von metallschumen[J].Material Wissenschaft und Werkstofftechnik(In German),2000,31(06):436. |
| [23] | Bemard T;Burzer J;Bergmann H W .Mechanical properties of structures of semifinished products joined to aluminum foams[J].Journal of Materials Processing Technology,2001,115(01):20. |
| [24] | Kathuria Y P .Laser assisted foaming of aluminum[J].Advances in Engineering Materials,2001,3(09):702. |
| [25] | Kitazono K.;Kitajima A.;Sato E.;Matsushita J.;Kuribayashi K. .Solid-state diffusion bonding of closed-cell aluminum foams[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2002(2):128-132. |
| [26] | Heiko Stanzick;Manfred Wichmann;Jorg Weise;Lukas Helfen;Tilo Baumbach;John Banhart .Process control in aluminum foam production using real-time X-ray radioscopy[J].Advanced Engineering Materials,2002(10):814-823. |
| [27] | Maurer M;Zhao L;Lugscheider E .Surface refinement of metal foams[J].Advances in Engineering Materials,2002,4(10):791. |
| [28] | P. Potluri;E. Kusak;T.Y. Reddy .Novel stitch-bonded sandwich composite structures[J].Composite Structures,2003(2):251-259. |
| [29] | 梁晓军,朱勇刚,陈锋,何德坪.泡沫铝三明治结构的制备[J].江苏冶金,2004(01):7-11. |
| [30] | 梁晓军,朱勇刚,陈锋,何德坪.泡沫铝芯三明治板的粉末冶金制备及其板/芯界面研究[J].材料科学与工程学报,2005(01):77-80. |
| [31] | 朱勇刚,陈锋,梁晓军,何德坪.粉末冶金发泡时泡沫铝孔结构及泡壁的微观组织演变[J].中国有色金属学报,2004(07):1106-1111. |
| [32] | 梁晓军 .泡沫铝芯三明治的粉末冶金制备及其性能研究[D].东南大学,2004. |
| [33] | Seeliger H W .Aluminium foam sandwich (AFS) ready for market introduction[J].Advances in Engineering Materials,2002,6(06):448. |
| [34] | Peter Schaffler;Walter Rajner .Process Stability in Serial Production of Aluminium Foam Panels and 3D Parts[J].Advanced Engineering Materials,2004(6):452-453. |
| [35] | Frank Baumgartner;Isabel Duarte;John Banhart .Industrialization of powder compact foaming process[J].Advanced Engineering Materials,2000(4):168-174. |
| [36] | Vitaly Koissin;Vitaly Skvortsov;Andrey Shipsha .Stability of the face layer of sandwich beams with sub-interface damage in the foam core[J].Computers & Structures,2007,78(04):507. |
| [37] | H. Zhao;I. Elnasri;Y. Girard .Perforation of aluminium foam core sandwich panels under impact loading—An experimental study[J].International journal of impact engineering,2007(7):1246-1257. |
| [38] | 张敏,祖国胤,姚广春,段水亮.泡沫铝夹心板的制备及其界面结合机理的研究[J].功能材料,2006(02):281-283. |
| [39] | 张敏,祖国胤,姚广春,段水亮.泡沫铝芯夹心板的制备及泡沫孔的研究[J].东北大学学报(自然科学版),2006(05):517-519. |
| [40] | 张敏,祖国胤,姚广春.镁的添加对制备泡沫铝夹芯板泡孔稳定性的影响[J].功能材料,2007(04):576-579. |
| [41] | 张敏,祖国胤,姚广春.新型泡沫铝三明治板的弯曲性能[J].过程工程学报,2007(03):628-631. |
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