RISS 검색 - 국내학술지논문 상세보기

다국어 초록 (Multilingual Abstract)

Effects of mechanical anisotropic properties on bursting failure and its pressure of rectangular deep-drawn cup fabricated by using AA3005-H14 thin sheet are investigated to utilize for electrolyte container of lithium-ion secondary batteries. The V-notch shape with a depth of 0.1 mm and an angle of 20.0˚ is defined on the rectangular cup, which has a thickness of 0.20 mm on the major surface and that of 0.30 mm on the minor surface. With the measured mechanical properties by uni-axial tensile tests and the defined V-notch geometry, a series of numerical prediction models considering isotropic, planar and normal anisotropic characteristics, are built-up and the bursting simulations are performed. Thereafter, the bursting fracture behavior is investigated by adopting ductile fracture criterion proposed by Cockcroft and Latham. The results predicted for the planar and the normal anisotropic models show that the bursting fracture pressure is well matched to 0.400 MPa, and the isotropic and the planar anisotropic models present a bursting fracture height of about 4.95 mm and 4.92 mm, respectively. A series of experimental investigations are undertaken to verify the bursting deformation that had been predicted.

The bursting pressure and its height during experimental verifications are shown to be in good agreement with each variation of about 5.88% and roughly 0.20% with respect to the numerical results obtained using the planar anisotropic model.

참고문헌 (Reference)

1 C. H. Doh, "Thermal and electrochemical behaviour of C/LixCoO2 cell during safety test" 175 : 881-885, 2008

2 Y. S. Chen, "The importance of heat evolution during the overcharge process and the protection mechanism of electrolyte additives for prismatic lithium ion batteries" 181 : 69-73, 2008

3 S. Kut, "The application of the formability utilization indicator for finite element modeling the ductile fracture during the material blanking process" 31 : 3244-3252, 2010

4 H. Takuda, "The application of some criteria for ductile fracture to the prediction of the forming limit of sheet metal" 95 : 116-121, 1999

5 B. S. Kang, "Study on process parameters and its analytic application for nonaxisymmetric rectangular cup of multistage deep drawing process using low carbon thin steel sheet" 49 : 925-940, 2010

6 C. S. Park, "Process design and blank modification in the multistage rectangular deep drawing of an extreme aspect ratio" 153-154 : 778-784, 2004

7 K. Saanouni, "On the numerical prediction of the ductile fracture in metal forming" 75 : 3545-3559, 2008

8 B. S. Kang, "Multi-stage deep drawing process for rectangular cup with extreme aspect ratio using 3003-H16 aluminum alloy" 81 (81): 588-591, 2010

9 S. E. Clift, "Fracture prediction in plastic deformation processes" 32 : 1-17, 1990

10 T. W. Ku, "Fracture limit prediction for a double safety structure in cylindricaltype lithium secondary batteries" 31 : 4897-4912, 2010