购买
下载掌阅APP,畅读海量书库
立即打开
畅读海量书库
扫码下载掌阅APP

References

[1] Beyer C. Strategic implications of current trends in additive manufacturing[J]. Journal of Manufacturing Science and Engineering,2014,136(6): 064701.

[2] ASTM F2792-12a. Standard terminology for additive manufacturing technologies[S]. ASTM International,2012.

[3] Tootooni M S,Dsouza A,Donovan R,et al. Classifying the dimensional variation in additive manufactured parts from laser-scanned three-dimensional point cloud data using machine learning approaches[J]. Journal of Manufacturing Science and Engineering,2017,139(9):091005.

[4] Liu C,Law A C C,Roberson D,et al. Image analysis-based closed loop quality control for additive manufacturing with fused filament fabrication[J]. Journal of Manufacturing Systems,2019,51: 75-86.

[5] Buchbinder D,Schleifenbaum H,Heidrich S,et al. High power selective laser melting(HPSLM) of aluminum parts[J]. Physics Procedia,2011,12(1): 271-278.

[6] Pinto M A,Cheung N,Ierardi M C F,et al. Microstructural and hardness investigation of an aluminum-copper alloy processed by laser surface melting[J]. Materials Characterization,2003,50: 249-253.

[7] Wang W C and Chang C Y. Flow analysis of the laminated manufacturing system with laser sintering of metal powder. Part I: flow uniformity inside the working chamber[J]. International Journal of Advanced Manufacturing Technology,2017,92: 1299-1314.

[8] Ladewig A,Schlick G,Fisser M,et al. Influence of the shielding gas flow on the removal of process by-products in the selective laser melting process[J]. Additive Manufacturing,2016,10: 1-9.

[9] Ferrar B,Mullen L,Jones E,et al. Gas flow effects on selective laser melting (SLM)manufacturing performance[J]. Journal of Materials Processing Technology,2012,212:355-364.

[10] Kong C J,Tuck C J,Ashcroft I A,et al. High density Ti6Al4V vie SLM processing:microstructure and mechanical properties[J]. International Solid Freeform Fabrication Symposium,2011,36: 475-483.

[11] Ly S,Rubenchik A M,Guss G,et al. Probing molten pool dynamics and particle ejection using high speed optical diagnostics[C]//Conference on Lasers and Electro-Optics (CLEO),2016.

[12] Aeschliman D B,Bajic S J,Baldwin D P,et al. High-speed digital photographic study of an inductively coupled plasma during laser ablation: comparison of dried solution aerosols from a microconcentric nebulizer and solid particles from laser ablation[J]. Journal of Analytical Atomic Spectrometry,2003,18(9): 1008-1014.

[13] Matthews M J,Guss G,Khairallah S A,et al,Denudation of metal powder layers in Laser Powder Bed Fusion processes[J]. Acta Materialia,2016,114: 33-42.

[14] Chen L W,Li H,Liu S,et al. Simulation of surface deformation control during selective laser melting of AlSi10Mg powder using an external magnetic field[J]. AIP Advances,2019,9(4):045012.

[15] Zhang T,Li H,Liu S,et al. Evolution of molten pool during selective laser melting of Ti-6Al-4V[J]. Journal of Physics D: Applied Physics,2019,52(5): 055302.

[16] Dal K and Shaw L. Finite element analysis of the effect of volume shrinkage during laser densification[J]. Acta Materialia,2005,53(18): 4743-4754.

[17] Guha A. Transport and deposition of particles in turbulent and laminar flow[J]. Annual Review of Fluid Mechanics,2008,40: 311-341.

[18] Anwar A B and Pham Q C. Effect of inert gas flow velocity and unidirectional scanning on the formation and accumulation of spattered powder during selective laser melting[C]//2nd International Conference on Progress in Additive Manufacturing (Pro-AM),2016.

[19] Khorasani A,Gibson I,Awan U S,et al. The effect of SLM process parameters on density,hardness,tensile strength and surface quality of Ti-6Al-4V[J]. Additive Manufacturing,2019,25: 176-186.

[20] Fu C H and Guo Y B. Three-dimensional temperature gradient mechanism in selective laser melting of Ti-6Al-4V[J]. Journal of Manufacturing Science and Engineering,2014,136(6):061004.

[21] Rai R,Elmer J W,Palmer T A,et al. Heat transfer and fluid flow during keyhole mode laser welding of tantalum,Ti-6Al-4V,304L stainless steel and vanadium[J]. Journal of Physics D:Applied Physics,2007,40(18): 5753-5766.

[22] Deng J,Zhong H P,Gong Y C,et al. Studies on injection and mixing characteristics of high pressure hydrogen and oxygen jet in argon atmosphere[J]. Fuel,2018,226: 454-461.

[23] Barron R F and Gregory G F. Cryogenic Heat Transfer,second ed[M]. Boca Raton: Crc Press,2017.

[24] Jin K,Vanka S P,Thomas B G. Large eddy simulations of electromagnetic braking effects on argon bubble transport and capture in a steel continuous casting mold[J]. Metallurgical and Materials Transactions,2018,49(3): 1360-1377.

[25] Gong H,Rafi K,Starr T,et al. The effects of processing parameters on defect regularity in Ti-6Al-4V parts fabricated by selective laser melting and electron beam melting[C]// 24th Annual International Solid Freeform Fabrication Symposium-An Additive Manufacturing Conference,2013.

[26] Heeling T,Gerstgrasser M,Wegener K. Investigation of selective laser melting spatter characteristics for single-and multi-beam strategies using high speed imaging[C]//Lasers in Manufacturing Conference,2017. c6yoNKtWcIS36vyByf9mVGzJQDGxt508dneNBdEOhj4O108NGLEhl3J7XZNordzf

点击中间区域
呼出菜单
上一章
目录
下一章
×