Aging behavior of lithium titanate battery under high‐rate discharging cycle

Abstract

The high‐rate discharging performance of a lithium titanate battery is one of its main properties. In conditions that require ultra‐high‐rate discharging, a lithium titanate battery can be dis-charged continuously at a current of 50 C (50 times of its maximum capacity) or higher. In this paper, we take cylindrical steel shell lithium titanate cells as the research object and perform aging cycles at 66 C on these cells. The ultra‐high‐rate discharging cycles cause a rapid high‐power capacity fading while the available capacity at normal current rate is not affected. The capacity at 66 C decreases to 80% of initial value in 10 cycles. This paper also analyzes the aging process of a lithium titanate battery at high‐rate discharging with incremental capacity (IC) analysis, and presents the aging behavior of lithium titanate battery qualitatively, which is inconsistent with existing research. We at-tribute the aging mechanism of ultra‐high‐rate discharging cycles to the decrease of ionic mobility and increase of polarization resistance. Mechanical damage is observed in the CT scan of an aged cell, which we presume to be the result of rapid strain of cathode material.