Microstructural characterization of bonding interfaces in aluminum 3003 blocks fabricated by ultrasonic additive manufacturing

Welding Journal (Miami, Fla)

Volumn 89, Issue 5, 2010, Pages

  Schick, D E ^a   Hahnlen, R M ^b   Dehoff, R ^c,d   Collins, P ^e   Babu, S S ^a   Dapino, M J ^b   Lippold, J C ^a  

^a Welding Engineering Program   (United States)

^b Ohio State University   (United States)

^c Deparement of Materials Science and Engineering   (United States)

^d OAK RIDGE NATIONAL LABORATORY   (United States)

^e Quad Cities Manufacturing Laboratory   (United States)

Author keywords

Linear weld density (LWD); Manufacturing (UAM); Microscopy; Scanning electron microscopy(SEM); Shear strength Al 3003 H18; Transmission electron; Ultrasonic additive

Indexed keywords

LINEAR WELD DENSITY; LINEAR WELD DENSITY (LWD); MICROSCOPY; SEM; TRANSMISSION ELECTRON;

DRILLING; ELECTRONS; GRAIN GROWTH; MANUFACTURE; MECHANICAL PROPERTIES; OPTICAL MICROSCOPY; SHEAR STRENGTH; TENSILE STRENGTH; TENSILE TESTING; ULTRASONICS; WELDING; WELDS;

SCANNING ELECTRON MICROSCOPY;

EID: 77953642737     PISSN: 00432296     EISSN: None     Source Type: Journal    
DOI: None     Document Type: Article

References (34)

1. Kong, C., Soar, R., and Dickens, P. 2004. Optimum process parameters for ultrasonic consolidation of 3003 aluminium. Journal of Materials Processing Technology 146: 181-187.
2. Kong, C., Soar, R., and Dickens, P. 2004. A model for weld strength in ultrasonically consolidated components. Journal of Mechanical Engineering Science 219: 83-91. (Pubitemid 40405177)
3. Yang, Y., Janaki Ram, G. D., and Stucker, B. E. 2007. An experimental determination of optimum processing parameters for Al/SiC metal matrix composites made using ultrasonic consolidation. American Society of Mechanical Engineers 129: 538-549. (Pubitemid 350075468)
4. Kong, C., Soar, R., and Dickens, P. 2003. Characterisation of aluminium Alloy 6061 for the ultrasonic consolidation process. Materials Science and Engineering A 363: 99-106.
5. Janaki Ram, J. D., Yang, Y., and Stucker, B. E. 2006. Effect of process parameters on bond formation during ultrasonic consolidation of aluminum Alloy 3003. Journal of Manufacturing Systems 25: 221-238.
6. George, J., and Stucker, B. E. 2006. Fabrication of lightweight structural panels through ultrasonic consolidation. Virtual and Physical Prototyping 1: 227-241.
7. Johnson, K. 2008. Interlaminar subgrain refinement in ultrasonic consolidation. PhD thesis, Loughborough University, Loughborough, UK.
8. Adams, B. L., Nylander, C., Aydellote, B., Ahmadi, S., Landon, C., Stucker, B. E., and Janaki Ram, G. D. 2008. Accessing the elasticplastic properties closure by rotation and lamination. Journal of Acta Materialia 56: 128-139.
9. Li, D., and Soar, R. C. 2008. Plastic flow and work hardening of Al alloy matrices during ultrasonic consolidation fiber embedding process. Materials Science and Engineering A 498: 421-429.
10. Doumanidis, C., and Gao, Y. 2004. Mechanical modeling of ultrasonic welding. Welding Journal 83(4): 140-s to 146-s.
11. Janaki Ram, G. D., Robinson, C., Yang, Y., and Stucker, B. E. 2007. Use of ultrasonic consolidation for fabrication of multi-material structures. Rapid Prototyping Journal 13: 226-235.
12. Zhang, C., and Li, L. 2009. A coupled thermal-mechanical analysis of ultrasonic bonding mechanism. The Minerals, Metals and Materials Society and ASM International: 196-207.
13. Siddiq, A., and Ghassemieh, E. 2008. Thermomechanical analysis of ultrasonic welding process using thermal and acoustic softening effects. Mechanics of Materials 40: 982-1000.
14. Matsuoka, S., and Imai, H. 2009. Direct welding of different metals using ultrasonic vibration. Journal of Materials Processing Technology 209: 954-960.
15. Kong, C. Y., Soar, R. C., and Dickens, P. M. 2004. Ultrasonic consolidation for embedding SMA fibers within aluminum matrices. Composite Structures 66: 421-427.
16. Hahnlen, R. 2009. Development and characterization of NiTi joining methods and metal matrix composite transducers with embedded niti by ultrasonic consolidation. Master's thesis, The Ohio State University, Columbus, Ohio.
17. Sriraman, M. R., Babu, S. S., and Short, M. 2010. Bonding characteristics during very high power ultrasonic additive manufacturing of copper. Scripta Materialia 62: 560-563.
18. Aluminum Standards and Data. 1993. Aluminum Association.
19. White, D. 2003. Ultrasonic object consolidation. U. S. patent US 6,519,500 B1.
20. White, D., and Carmein, D. E. E. 2002. Ultrasonic object consolidation systems and method. U. S. patent US 6,446,349 B2.
21. White, D. 2003. Ultrasonic consolidation of aluminum tooling. Advanced Materials and Processes: 64, 65.
22. Li, D., and Soar, R. 2009. Influence of sonotrode texture on the performance of ultrasonic consolidation machine and the interfacial bond strength. Journal of Materials Processing Technology 209: 1627-1634.
23. Li, D., and Soar, R. C. 2009. Characterization of process for embedding sic fibers in Al 6061 O matrix through ultrasonic consolidation. Journal of Engineering Materials and Technology 131: 021016.
24. Hazlett, T. H., and Ambekar, S. M. 1970. Additional studies of interface temperature and bonding mechanisms of ultrasonic welds. Welding Journal 49(5): 196-s to 200-s.
25. Abramoff, M. D., Magelhaes, P. J., and Ram, S. J. 2004. Image processing with ImageJ. Biophotonics International 11(7): 36-42.
26. Mouton, P. R. 2002. Principles and practices of unbiased stereology, an introduction for bioscientists. John Hopkins University Press.
27. Frigaard, O., Grong, O., and Midling, O. T. 2001. A process model for friction stir welding of age hardenable alloys. Metallurgical and Materials Transactions A32: 1189-1200.
28. Midling, O. T., and Grong, O. 1994. A process model for the friction welding of AlMg-Si alloys and Al-SiC metal-matrix composites: HAZ temperature and strain-rate distribution. Acta. Metall. Mater 42: 1595-1609.
29. Grong, O. 1997. Metallurgical Modeling of Welding, 2nd ed. The Institute of Materials. Materials Modeling Series.
30. Gunduz, I. E., Ando, T., Shattuck, E., Wang, P. Y., and Doumandis, C. 2005. Enhanced diffusion and phase transformations during ultrasonic welding of zinc and aluminum. Journal of Acta Materialia 52: 939-943.
31. Gao, Y., and Doumanidis, C. 2002. Mechanical analysis of ultrasonic bonding for rapid prototyping. Journal of Manufacturing Science and Engineering 124: 426-434.
32. Schick, D. E. Submitted 2010. Transient thermal response in ultrasonic additive manufacturing of aluminum 3003. Rapid Prototyping Journal.
33. Dieter, G. E. 1986. Mechanical Metallurgy, 3d ed. McGraw Hill.
34. Ghosh, S., Bai, J., and Paquet, D. 2009. Homogenization-based continuum plasticitydamage model for ductile failure of materials containing heterogeneities. Journal of Mechanical Physical Solids 57: 1017-1044.