Underwater Test Configuration

A schematic diagram, Figure 6, shows a typical underwater test configuration and oscilloscope record used to determine shock wave impulse. The pressure vs. time is displayed both at fast and slow scope speeds and the impulse vs. time at the faster scope speed. The impulse vs. time is electronically integrated from the pressure vs. time signal from the pressure gauge. 

Fig 6 This diagram shows an Underwater Test Configuration and the oscilloscope record used to determine shock wave impulse (positive of the record at right)... 

Battery safety has been obviously given a special attention in this volume. Commercial lithium-ion cells and batteries are commonly used to power portable equipment, but they are also used to buildup larger batteries for ground (e.g. EVs), space and underwater applications. Chapter 17 provides test data on the safety of commercial lithium-ion cells and recommendations for safe design when these cells are used in much larger battery configurations. Chapter 18 focuses on safety aspects of LIBs at the cell and system level. In particular, abuse tolerance tests are explained with actual cell test data. Furthermore, internal short and lithium deposition occurring in lithium-ion cells and failure mechanism associated with them are discussed. In Chapter 19, the state of the art for safety optimization of all the battery elements is presented. This chapter also reports tests on not yet commercialized batteries, which pass all the security tests without the help of a BMS. 

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