Structural design and testing of pouch cells
Yıl 2021,
Cilt: 5 Sayı: 2, 80 - 91, 30.06.2021
Aluru Vamsi
Jamal Ansari
Sundaresan Mk
Chıtaranjan Pany
,
Bibin John
Aiswarya Samridh
Mercy Td
Öz
A reliable supply of energy source is required for aerospace applications. Due to their high specific energy density and low self-discharge, Lithium-ion cells are preferred over other energy sources. Pouch cells have much better energy density compared to metallic cell cases. A pouch cell is developed for launch vehicle and automotive applications. Two aluminum-polymer laminates are heat sealed at 180-1900 C to form the pouch cell. Experimental characterization ( lap shear, T-peel and tensile) of bonded laminate/films are carried out. UTS of laminate is obtained from lap shear and tensile tests. Fracture energy (mode-1) is obtained from T-peel tests and used as an input for the cohesive zone model. Mechanics of pouch cell due to internal pressure (abuse condition) is performed
Teşekkür
Authors would like to acknowledge, GD, SDEG and, DD, STR for constant and continuous encouragement in reviewing this technical paper.
Kaynakça
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- [10] Christopher K. Mechanics of peeling: cohesive zone law and stability, PhD Thesis, California Institute of Technology, Pasadena, California, USA, 2011.
- [11] Miao T, Tian L, Leng X, Miao Z, Wang J, Xu C, Liu L. A comparative study of cohesive zone models for predicting delamination fracture behaviors of arterial wall. Open Physics 2020; 18: 467-477.
- [12] Bonifaz EA. Cohesive zone modeling to predict failure processes. Canadian Journal on Mechanical Sciences & Engineering 2011; 2(3): 42-54.
- [13] Zhang ZZ, Paulino GH. Cohesive zone modeling of dynamic failure in homogeneous and functionally graded materials. International Journal of Plasticity 2005; 21: 1195-1254.
- [14] Pany C, Sundaresan MK, Rao BN, Sivasubramonian B, Nair NJ. On the bursting of an HSLA steel rocket motor case during proof pressure testing. Steel Grips (Journal of Steel and related Materials) Application 2012;10: 434-438.
Yıl 2021,
Cilt: 5 Sayı: 2, 80 - 91, 30.06.2021
Aluru Vamsi
Jamal Ansari
Sundaresan Mk
Chıtaranjan Pany
,
Bibin John
Aiswarya Samridh
Mercy Td
Kaynakça
- [1] Kiehne A. Battery Technology Handbook, 2nd edition,New York: Marcel Dekker, Inc., 2003.
- [2] Isidor B. Batteries in a Portable World, 3rd edition,USA: Cadex Electronics, Inc., 2011.
- [3] Isidor B. Types of Battery Cells in Battery University,USA: Cadex Electronics, Inc., 2011,
- [4] David L. Thomas, B, Reddy. Handbook of Batteries, 3rd edition, New York: McGraw-Hill, ISBN 0-07-135978-8, 2002.
- [5] Shashank A, Ajay K, Shen W. Application of robust design methodology to battery packs for electric vehicles: identification of critical technical requirements for modular architecture. Batteries 2018; 4(3): 30. doi:10.3390/batteries4030030
- [6] Heydecke J. Introduction to Lithium Polymer Battery Technology. Jauch Quartz GmbH & Jauch Battery Solutions GmbH, In der Lache 24, 78056 Villingen-Schwenningen, Germany, 2018.
- [7] Rivlin RS. The effective work of adhesion. Paint Technology 1944; 9: 215-218.
- [8] Kendall K. The adhesion and surface energy of elastic solids. Journal of Physics D: Applied Physics 1971; 4(8):1186.
- [9] Alfano G, Crisfield MA. Finite element interface models for the delamination analysis of laminated composites: mechanical and computational issues. International Journal for Numerical methods in Engineering 2001; 50: 1701-1736. https://doi.org/10.1002/nme.93.
- [10] Christopher K. Mechanics of peeling: cohesive zone law and stability, PhD Thesis, California Institute of Technology, Pasadena, California, USA, 2011.
- [11] Miao T, Tian L, Leng X, Miao Z, Wang J, Xu C, Liu L. A comparative study of cohesive zone models for predicting delamination fracture behaviors of arterial wall. Open Physics 2020; 18: 467-477.
- [12] Bonifaz EA. Cohesive zone modeling to predict failure processes. Canadian Journal on Mechanical Sciences & Engineering 2011; 2(3): 42-54.
- [13] Zhang ZZ, Paulino GH. Cohesive zone modeling of dynamic failure in homogeneous and functionally graded materials. International Journal of Plasticity 2005; 21: 1195-1254.
- [14] Pany C, Sundaresan MK, Rao BN, Sivasubramonian B, Nair NJ. On the bursting of an HSLA steel rocket motor case during proof pressure testing. Steel Grips (Journal of Steel and related Materials) Application 2012;10: 434-438.