金属粉末激光直接成形技术是一种新型的粉末净近成形方法,能够加工传统方法难以加工的复杂金属零件.由于加工中温度的剧烈变化易引起热应力和残余应力,导致成形件存在翘曲、开裂等缺陷,建立加工过程的温度场应力场模型对进行工艺参数优化与设计尤为必要.总结了金属粉末激光直接成形技术温度场和应力场模拟研究进展,并探讨了这一技术数值模拟的发展方向.
Direct laser forming with metal powder is newly developed near-net-shaping forming method. How-ever, during this process the temperature variation is acute coupled with an intense non-linear. Moreover, the thermal stress and residual stress will occur, leading to defects such as curl, crack etc. Thus it is essential to establish a nu-merical mode to optimize the processing techniques and forming parameters. The development of temperature and stress field modeling about direct laser forming is summarized. The development direction of modeling in this technolo-gy is also addressed.
参考文献
| [1] | Wu X;Mei J .Near net shape manufacturing of components using direct laser fabrication technology[J].Journal of Materials Processing Technology,2003,135:266. |
| [2] | Liu J H;Shi Y S;Lu Z L et al.Rapid manufacturing metal parts by laser sintering admixture of epoxy resin/iron powders[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2006,444:146. |
| [3] | Santos E C;Shiomi M;Osakada K et al.Rapid rnanufacturing of metal components by laser forming[J].International Journal of Machine Tools and Manufacture,2006,46:1459. |
| [4] | 史玉升,鲁中良,章文献,黄树槐,陈国清.选择性激光熔化快速成形技术与装备[J].中国表面工程,2006(z1):150-153. |
| [5] | Gusarov, AV;Yadroitsev, I;Bertrand, P;Smurov, I .Heat transfer modelling and stability analysis of selective laser melting[J].Applied Surface Science,2007(4):975-979. |
| [6] | 沈以赴,顾冬冬,余承业,杨家林,王洋.直接金属粉末激光烧结成形过程温度场模拟[J].中国机械工程,2005(01):67-73. |
| [7] | D 拉达伊.焊接热效应--温度场、残余应力、变形[M].北京:机械工业出版社,1997:170. |
| [8] | Sih S S;Barlow J W.Measurement and prediction of the thermal conductivity of powders at high temperature[A].,1994:321. |
| [9] | Sih S S;Barlow J W.The prediction of the thermal conductivity of powders[A].Austin,Texas,USA,1995:397. |
| [10] | Siu W W M;Lee S H K .Effective conductivity computation of a packed bed using constriction resistance and contact angle effects[J].International Journal of Heat and Mass Transfer,2000,43:3917. |
| [11] | Kolossov S;Boillat E et al.3D FE simulation for temperature evolution in the selective laser sintering process[J].International Journal of Machine Tools and Manufacture,2004,44:117. |
| [12] | 姚化山,史玉升,章文献,刘锦辉,黄树槐.金属粉末选区激光熔化成形过程温度场模拟[J].应用激光,2007(06):456-460. |
| [13] | 沈显峰,王洋,姚进,杨家林.直接金属选区激光多道烧结温度场有限元模拟[J].四川大学学报(工程科学版),2005(01):47-51. |
| [14] | Li Ruidi;Shi Yusheng;Liu Jinhui et al.Effects of processing parameters on the temperature field of selective laser melting metal powder[J].Powder Metallurgy and Metal ceramics,2009,48(3-4):186. |
| [15] | 李昊 .基于不同扫描策略的DMLS的有限元模拟及超声振动的影响[D].南京航空航天大学,2006. |
| [16] | Matsumoto M;Shiomi M;Osakada K et al.Finite element analysis of single layer forming on metallic powder bed in rapid prototyping by selective laser processing[J].International Journal of Machine Tools and Manufacture,2002,42:61. |
| [17] | Labudovic M.;Hu D.;Kovacevic R. .A three dimensional model for direct laser metal powder deposition and rapid prototyping[J].Journal of Materials Science,2003(1):35-49. |
| [18] | Childs T H C;Hauser C;Badrossamay M .Selective laser sintering (melting) of stainless and tool steel powders:Experiments and modeling[J].Proc Inst Mechanical Eng Part B:J Eng Manuf,2005,219(04):339. |
| [19] | Chen, TB;Zhang, YW .Thermal modeling of laser sintering of two-component metal powder on top of sintered layers via multi-line scanning[J].Applied Physics. A, Materials Science & Processing,2007(2):213-220. |
| [20] | Neal K Vail;Joel W Barlow;Harris L Marcus .A thermal model of polymer degradation during selective laser sintering of polymer coated polymer coated ceramic powders[J].Rapid Prototyping Journal,1996,2(03):24. |
| [21] | Childs T H G;Hauser G.Raster scans selective laser melting of the surface layer of a tool steel powder bed[J].Proc IMECHE Part B J Eng Manuf,2004(04):379. |
| [22] | Abe F;Osakada K;Shiomi M et al.The manufacturing of hard tools from metallic powders by selective laser melting[J].Journal of Materials Processing Technology,2001,11:210. |
| [23] | Badrossamay M;Childs T H G .Further study in selective laser melting of stainless and tool steel powders[J].International Journal of Machine Tools and Manufacture,2007,47:779. |
| [24] | Simchi A .Direct laser sintering of metal powders:Mechanism,kinetics and microstructural features[J].Materials Science and Engineering A:Structural Materials Properties Microstructure and Processing,2006,428(01):148. |
| [25] | Wang X C et al.Direct selective laser sintering of hard metal powders:Experimental study and simulation[J].Int J Adv Manuf Techn,2002,19:351. |
| [26] | Yang Jia;Wang Fude .3D finite element temperature field modeling for direct laser fabrication[J].Int Adv Manuf Techn,2008,43:1060. |
| [27] | Qian J M;Liang J;Wu Xinhua .The influence of position and laser power on the thermal history and the microstructure of direct laser fabricated Ti-6Al-4V samples[J].Materials Science and Technology,2005,21(05):597. |
| [28] | 李守卫,沈以赴,顾冬冬,潘琰峰,胥橙庭.选择性激光烧结金属件翘曲与开裂问题的研究进展[J].激光杂志,2005(05):4-6. |
| [29] | Shiomi M;Abe F .Residual stress within metallic model made by selective laser melting process[J].CIRP Annals Manufacturing Technology,2004,53(04):195. |
| [30] | Suwat Jira thea ranat et al.Virtual processing-application of rapid prototyping for visualization of metal forming processes[J].Journal of Materials Processing Technology,2000,98:116. |
| [31] | Gabriel Bugeda;Miguel Cervera;Guillermo Lombera .Numerical prediction of temperature and density distributions in selective laser sintering processes[J].Rapid prototyping journal,1999(1):21-26. |
| [32] | Wang Guilan;Chen Yanxiang;Zhang Haiou .Effect of scanning path on the deposition process in rapid plasma spray tooling..Modeling by homogenization theory[J].Thin Solid Filims,2003,435:124. |
| [33] | Casavola C et al.Preliminary investigation on distribution of residual stress generated by the selective laser melting process[J].Journal of Strain Analysis,2009,44:93. |
| [34] | Ajovalasit A .Rassegna del metodo del foro pertensioni costanti-studi per una proposta diraccomandazione sull' analisi sperimentale delle tensioni residue conil metodo del foro[J].Quaderno AIAS(in Italian),1997,3:3. |
| [35] | ASTM E 837.ASTM E 837.Standard method for determining residual stresses by the hole-drilling strain gage method[S].West Conshohocker,Pennsylvania:ASTM International,2001. |
| [36] | Jovalasit A .A measurement of residual stresses by the holedrilling method.Influence of hole eccentricity[J].Journal of Strain Analysis,1979,14(04):171. |
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