对影响Al-Si系铸造合金疲劳寿命的各种因素进行了概括总结,特别是对有重大影响的孔洞、氧化物薄膜、共晶硅颗粒、二次枝晶臂间距(SDAS)和裂纹闭合等影响因素作了详细讨论.指出了疲劳寿命随各因素的变化规律,对微观组织结构危害其疲劳寿命的相对大小进行了系统的分析和阐述.
参考文献
| [1] | W.W. Bose-Filho;E.R. de Freitas;V.F. da Silva .Al-Si cast alloys under isothermal and thermomechanical fatigue conditions[J].International Journal of Fatigue,2007(9/11):1846-1854. |
| [2] | 杨忠敏.聚焦汽车材料的轻量化技术[J].城市车辆,2008(08):54-58. |
| [3] | Couper M J;Neeson A E;Griffiths J R .Casting Defectsand the Fatigue Behavionr of an Aluminium Casting Alloy[J].Fatigue & Fracture of Engineering Material & Structure,1990,13(03):213-227. |
| [4] | Ammar HR;Samuel AM;Samuel FH .Effect of casting imperfections on the fatigue life of 319-F and A356-T6 Al-Si casting alloys[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2008(1/2):65-75. |
| [5] | Reinhart T L .Fatigue and fracture properties of aluminum alloy castings[J].ASM Handbook Fatigue and Fracture (USA),1996,19:813-822. |
| [6] | Xuming Su .Toward an understanding of local variability of fatigue strength with micro structures[J].International Journal of Fatigue,2008(6):1007-1015. |
| [7] | Wang Q G;Apelian D;Lados D A .Fatigue behavior of A356T6 aluminum cast alloys.Part Ⅰ.Effect of casting defects[J].Journal of Light Metals,2001,1(01):73-84. |
| [8] | Gall K A;Horstemeyer M F;Deguor B W et al.On the Driving Force for Fatigue Crack Formation from Inclusions and Voids[J].International Journal of Fracture,2001,198(03):207-233. |
| [9] | Q.G. WANG;C.J. DAVIDSON;J.R. GRIFFITHS .Oxide Films, Pores and the Fatigue Lives of Cast Aluminum Alloys[J].Metallurgical and Materials Transactions, B. Process metallurgy and materials processing science,2006(6):887-895. |
| [10] | Conper MJ;Riaderor B;Yao JY .Characterisation of AIFeSi intermctallies in 6000 series aluminium alloy extrusions[J].Materials Science Forum,2006,519:303-308. |
| [11] | Zhang B;Sung P K;Pnirier D R;Cben W.Effects of Strontium Modification and Hydrogen Content on the Fatigue Behavior ofA356.2 Aluminum Alloy[J].Transactions AFS,2000(108):383-389. |
| [12] | Boileau J M;Allison J E .The effect of solidification time on the mechanical properties in a cast A356-T6 aluminum alloy[J].SAE Transactions,2001,110:648-659. |
| [13] | Green NR;Campbell J .Influence of oxide film filling defects on the strength of Al-7Si-Mg alloy casting[J].AFS Transact,1994,341-347:94-114. |
| [14] | Gerard D A;Kess D A .The dependence of crack initiation onporosity during low cycle fatigue[J].Materials Science and Engineering,1990,129A:77-85. |
| [15] | Ammar HR;Samuel AM;Samuel FH .Effect of casting imperfections on the fatigue life of 319-F and A356-T6 Al-Si casting alloys[J].Materials Science & Engineering, A. Structural Materials: Properties, Misrostructure and Processing,2008(1/2):65-75. |
| [16] | Odegard J A;Pederson K .Fatigue properties of an A356 (AlSi7Mg) aluminium alloy for automotive applications-fatlgue life prediction[J].International Journal of Fatigue,1995,17(02):158. |
| [17] | Nyanumwa C;Green N R;Campbell J .Influence of Casting Technique and Hot lsnstatic pressing on The Fatigue of an Al-7SiMg alloy[J].Metallurgical and Materials Transactions A:Physical Metallurgy and Materials Science,2001,32A(20):349-358. |
| [18] | Wang Q G;Apellan D;Griffiths J R.Microstructural Effects on the Fatigue Properties of Aluminum Castings[A].Rnsemont,IL,published by ASM,Metals Park,OH,1998:217-224. |
| [19] | Campbell J;Nyanumwa C;Green N R.The concept of thefatigue potential of east alloys[A].,1998:225-233. |
| [20] | C. Nyahumwa;N. R. Green;J. Campbell .Effect of mold-filling turbulence on fatigue properties of cast aluminum alloys[J].Transactions of the American Foundrymen's Society,1998(106):215-223. |
| [21] | Byezynski G E;Campbell J.The effects of oxide film defects on the strength and realibility of 319 alloy casting[A].ASM Intemational,Columbus,OH,2002:65-74. |
| [22] | Murukami Y;Endo M .Effects of defects,inclusions and inhomngeueitins on fatigue strength[J].International Journal of Fatigue,1994,16:163-182. |
| [23] | Wang Q G .Microstructure and tensile fracture behavior of Al-SiMg casting alloys[D].The University of Queensland,Brisbane,Australia,1997. |
| [24] | Brown L M;Clarke D R .The work hardening of fibronscempnsites with particular reference to the coppertungstensystem[J].Acta Metan,1977,25:563-570. |
| [25] | Lee F T;Major J F;Samuel F H .Effect of silicen particles on the fatigue crack growth characteristics of Al-12Si-0.35M8-(0-0.02) Sr casting alloys[J].Metallurgical and Materials Transactions,1995,26A:1553-1570. |
| [26] | Wang Q G;Caceres C H .Mg effects on the eutectic atructurcaed tensile properties of Al-Si-Mg alloys[J].Materials Science Forum,1997,242:159-164. |
| [27] | Elber W.ASTM STP 486.The significance of fatigue crack closure[A].Philadelphia,PA:American Society for Testing and Materials,1971:230-242. |
| [28] | Sadananda K;Vasudevan AK .Short crack growth behavior[J].Fatigue and fracture mechanics,1997,27:301-316. |
| [29] | Diana A Lados;Diran Apelian .Fatigue crack growth characteristics in east Al-Si-Mg alloys.Part Ⅰ.Effect of prcenssing conditions and microstructure[J].Materials Science and Engineering,2004,385A:200Ⅰ211. |
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%