By Bhaskar Dutta, Francis H Froes
Additive production of Titanium Alloys: cutting-edge, demanding situations and Opportunities offers substitute how you can the normal process for the fabrication of nearly all of titanium parts produced through the forged and wrought process, a procedure which comprises a large amount of dear machining.
In distinction, the Additive production (AM) technique permits very with reference to ultimate half configuration to be without delay fabricated minimizing machining rate, whereas reaching mechanical homes at the least at solid and wrought degrees. moreover, the e-book bargains the good thing about major discount rates via larger fabric usage for elements with excessive buy-to-fly ratios (ratio of preliminary inventory mass to ultimate half mass ahead of and after manufacturing).
As titanium additive production has attracted enormous awareness from either academicians and technologists, and has already resulted in many purposes in aerospace and terrestrial structures, in addition to within the clinical undefined, this booklet explores the original form making features and engaging mechanical homes which make titanium an excellent fabric for the additive production undefined.
- Includes insurance of the basics of microstructural evolution in titanium alloys
- Introduces readers to a number of the Additive production applied sciences, equivalent to Powder mattress Fusion (PBF) and Directed strength Deposition (DED)
- Looks on the way forward for Titanium Additive Manufacturing
- Provides a whole assessment of the technology, know-how, and functions of Titanium Additive production (AM)
Read Online or Download Additive Manufacturing of Titanium Alloys. State of the Art, Challenges and Opportunities PDF
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Extra resources for Additive Manufacturing of Titanium Alloys. State of the Art, Challenges and Opportunities
Com/en/metal-additive-manufacturing-3d-printing--15240. 15]. [accessed 14. us/. 15]. 15. html. 15]. 16. com/technology/additive-manufacturing/. 15]. 17. com/technology/. 15]. 18. Dunsky C. Process monitoring in laser additive manufacturing. Industrial Laser Solutions September/October 2014;14À18 19. Koch J, Mazumder J. US Patent 6,122,564; September 2000. 20. Dutta B, private communication. DM3D Technology; July 2013. 21. Grünberger T, Domröse R. Optical in-process monitoring of direct metal laser sintering (DMLS).
5. Titanium alloy direct deposited products TiÀ6AlÀ4V annealed. SAE Aerospace Material Specification (AMS) 4999A, September 2009. org/technical/standards/ AMS4999A. 6. com/Additive-Manufacturing-Technology/Laser-AdditiveManufacturing. [accessed July 2013]. 7. pdf. [accessed February 2013]. 8. Blackwell PL, Wisbe A. J Mater Process Technol 2005;170:268À76. Available from: http://dx. 014. 9. Richter K-H, Orban S, Nowotny S. In: Proceedings of the 23rd International Congress on Applications of Lasers and Electro-Optics; 2004.
Industrial Laser Solutions September/October 2014;14À18 19. Koch J, Mazumder J. US Patent 6,122,564; September 2000. 20. Dutta B, private communication. DM3D Technology; July 2013. 21. Grünberger T, Domröse R. Optical in-process monitoring of direct metal laser sintering (DMLS). Laser Tech J 2014;11:40À2. 22. Kruth J-P, Mercelis P. Procedure and apparatus for in-situ monitoring and feedback control of selective laser powder processing. US Patent Application: US 2009/0206065 A1; August 20, 2009.
Additive Manufacturing of Titanium Alloys. State of the Art, Challenges and Opportunities by Bhaskar Dutta, Francis H Froes