DIRECT MANUFACTURING OF METAL PARTS USING LOM-TECHNOLOGY

A brief review of the main types of additive technologies providing direct manufacturing of metal parts was carried out. Peculiarities of direct manufacturing of metal parts using LOM-technology (laminated object manufacturing) are compared with other additive technologies. Different methods of juncture stacked sheet metals during fabrication of LOM-parts, including methods of mechanical, adhesive, welded and soldered juncture were analyzed. The advantages and disadvantages of each of these methods were considered. The possibilities of juncture sheet stacked metals by welding and soldering were demonstrated experimentally.

1. Rifkin Dzh. Tret’ja promyshlennaja revoljucija: Kak gorizontal’nye vzaimodejstvija menjajut jenergetiku, jekonomiku i mir v celom [The Third Industrial Revolution: How to change the horizontal interaction of energy, the economy and the world at large]. Moscow, Al’pina non-fikshin Publ., 2014. 410 p.

2. Zlenko M. A., Nagaitsev M. V., Dovbysh V. M. Additivnye tehnologii v mashinostroenii: posobie dlya inzhenerov [Additive technologies in mechanical engineering: a manual]. «NAMI» Publ., 2015. 220 p.

3. Das S., Bourell D. L., Babu S. S. Metallic materials for 3D printing. MRS Bulletin. 2016. Vol. 41. P. 729–741.

4. Valetov V. A. Additivnye tehnologii (sostoyanie i perspektivy) [Additive Technologies (Status and perspectives]. SPb., University ITMO Publ., 2015. 63 p.

5. Di Matteo P. L. Method of generating and constructing three-dimensional bodies. US pat. № 3932923 A. 1976.

6. Alami A. H. Using Laminated Metal Tooling (LMT) in Die Manufacturing For Clay Moulding. Proc. 5th Int. Symp. Mechatronics and its Applications (ISMA08). Amman, Jordan, May 27–29, 2008. 8 p.

7. Walczyk D. F., Dolar N. Y. Bonding Methods for Laminated Tooling. Proc. Solid Freeform Fabrication Symp. Austin. Texas, USA, 1997. P. 211–221.

8. Walczyk D. F., Harde D. E. Recent Developments in Profiled-Edge Lamination Dies for Sheet Metal Forming. Proc. Seventh Solid Freeform Fabrication Symp., Austin, Texas, USA, 1999. P. 215–226.

9. Walczyk D. F., Yoo S. Design and fabrication of a laminated thermoforming tool with enhanced features. J. Manuf. Proc., 2009. Vol.11. P. 8–18.

10. Zak G., Wang W. Adhesive Bonding of Sheet for Laminated Metal Tooling. Proc. Solid Freeform Fabrication Symp., Austin, Texas, USA, 2002. P. 502–509.

11. Emelina O. Yu. Kompozitsionnye polimehnie materialy, modifitsirovannye dispersnymy napolnitelyamy, primenyaemymy v stroitelstve i pri remonte yechniki [Composite polymeric materials modified with dispersed fillers used in construction and in the repair of machinery]. Vestnik Kazanskogo tehnologicheskogo universiteta = Bulletin of the Kazansky Technological University, 2014, vol. 17, vyp. 3, рр. 128–130.

12. Nakagawa T. Blanking tool by stacked bainite steel plates. Press Techn., 1979. P. 93–101.

13. Kunieda M., Nakagawa T. Development of Laminated Drawing Dies by Laser Cutting. Bull. JSPE. 1984. P. 353–54.

14. Nakagawa T., Kunieda M., Liu S. Laser Cut Sheet Laminated Forming Dies by Diffusion Bonding. Proc. 25th MTDR Conf., 1985. P. 505–510.

15. Yi S. P. [et al]. Connect technique of laminated object manufacturing using metallic materials as modeling materials. J. Chongqing Univ., 2002, no. 25 (2). P. 1–3.

16. Yi S. [et al]. Study of the key technologies of LOM for functional metal parts. J. Materials Processing Technology, 2004. Vol. 150, Is. 1–2. P. 175–181.

17. Precht M., Otto A., Geiger M. Rapid Tooling by Laminated Object Manufacturing of Metal Foil. Adv. Mater. Res., 2005. Vol. 6–8. P. 303–312.

18. Himmer T., Techel A., Nowotny S., Beyer E. Recent developments in metal laminated tolling by multiple laser processing.Solid Freeform Fabrication Symp., 2002. Proc.: August 5–7, 2002. Austin: Univ. of Texas, 2002. P. 466–473.

19. Cheng R., Wu X., Luo W. Rapid Laminated Manufacturing for Metallic Parts Based on Resistance Welding Double-station LOM. Adv. Mat. Res., 2013. Vol. 681. P. 298–303.

20. Obikawa T. Rapid manufacturing system by sheet steel lamination. Proc. 14th Int. Conf. Computer Aided Production Engineering, Tokyo, Japan, 1998. P. 265–270.

21. Obikawa T. Yoshino M., Shinozuka J. Sheet steel lamination for rapid manufacturing. J. Mat. Proc. Tech., 1999. Vol. 89–90. P . 171–176.

22. Bryden B. G., Pashby I. R. Sequential laminated tooling, joined by brazing, for injection molding. J. Rapid Prototyping. 1999. Vol. 5. No. 2. P. 89–93.

23. Yoon S. H., Na S. J. Rapid laminated tooling by a brazing and soldering process. J. Manuf. Proc. 2003. Vol. 5, No. 2. P. 118–126.

24. Ahari H., Khajepour A., Bedi S. Laminated Injection Mould with Conformal Cooling Channels: Optimization, Fabrication and Testing. J. Machinery Manufacturing and Automation. 2013. Vol. 2, Iss.2, P. 16–24.

25. Butt J., Mebrahtu H., Shirvani H. Rapid prototyping by heat diffusion of metal foil and related mechanical testing. Int. J. Adv. Manuf. Technol. 2016. Vol. 84. P. 2357–2366.