Davies, A simple model to simulate electromagnetic sheet free bulging process, International Journal of Mechanical Sciences, 50 (2008) 1466–1475. The software runs under Windows XP, Vista, 7, 8, 8.1, and 10 (32 and 64 bits). 1 70321 dgel 3 63110 dglutition 4 43454 dgoute 1 22958 dgradabilit 1. PDF Shaper is optimized for high-DPI monitors and low CPU resource usage, even during CPU-intensive conversion operations. Mazars, A coupled experimental/numerical approach for the characterization of material behaviour at high strain-rate using electromagnetic tube expansion testing, International Journal of Impact Engineering, 98 (2016) 75–87. 5505-nat-pat-static-question-43454-.htm T18:08:17+00:00 weekly. PDF Shapers clean, intuitive interface allows users to become productive in just a few minutes. ![]() Worswick, Introduction of an Electromagnetism Module in Ls-Dyna for Couple Mechanical-Thermal-Electromagnetic Simulations, Steel Research International, 80(5) (2009) 351–358.Ī. Negishi, The effect of a field shaper in electromagnetic tube bulging, Journal of Mechanical Working Technology, 15 (1987) 229–240. Li, Mechanical property and microstructure of aluminum alloy-steel tubes joint by magnetic pulse welding, Materials Science & Engineering A, 561(2013) 259–265. Li, Effect of field shaper on magnetic pressure in electromagnetic forming, Journal of Materials Processing Technology, 168 (2005) 245–249. Arezoodar, The effect of various stepped field shaper on magnetic pressure and radial displacement in electromagnetic inside bead forming: Experimental and simulation analysis using maxwell and abaqus software, Journal of Manufacturing Science and Engineering, 139 (2017) 061003–1–6. Kore, Experimental investigation of aluminium-copper wire crimping with electromagnetic process: Its advantages over conventional process, Journal of Manufacturing Processes, 26 (2017) 57–66. Kleiner, Electromagnetic forming-A review, Journal of Materials Processing Technology, 211(5) (2011) 787–829.Ī. Kore, Numerical and experimental study on effect of different types of field-shaper on electromagnetic terminal-wire crimping process, International Journal of Precision Engineering and Manufacturing, 19(3) (2018) 453–459. Golovashchenko, Material formability and coil design in electromagnetic forming, Journal of Materials Engineering and Performance, 16(3) (2007) 314–320.Ī. These results will help to design a field shaper for different industrial applications. Results like the current density Von-Mises stress, magnetic field, Lorentz force, terminal deformation, and contact length are discussed in detail. Research is carried out over the electrical interconnectors as an application, to achieve maximum crimping of the terminal over the wire strands. In this manuscript, numerical and experimental work is carried out in the variation of the effective height of the field shaper, to get the most suitable effective working zone height for maximum magnetic pressure acting over the workpiece. Simultaneously it is essential to take care of the mechanical strength of the field shaper so that the von Mises stress acting over the field shaper should always be lower than the strength of the material used for making field shaper. ![]() It needs to be designed in such a manner that maximum magnetic field is concentrated at the active working zone. ![]() ![]() *This information is for general informational purposes only, we will not be liable for any loss or damage caused by the above information.Design of a field shaper plays an essential role in the electromagnetic crimping process. Today, EPCOS operates as TDK Electronics and continues to provide a wide range of electronic components and solutions for use in a variety of applications. In 2009, EPCOS became a subsidiary of TDK Corporation, a multinational electronics company based in Japan. The company was founded in 1919 and had its headquarters in Munich, Germany.ĮPCOS was known for its high-quality products and innovative solutions, and it had a strong reputation in the electronics industry. EPCOS AG (now TDK Electronics AG) was a German company that specialized in the design and manufacture of electronic components, including capacitors, inductors, and EMI filters.
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