BATTERY MOCK-UP SAMPLES INCLUDING LITHIUM METAL OR LITHIUM MIMIC METAL FOR ELECTROMAGNETIC TESTING IN AMBIENT CONDITIONS

Organization Name

GM Global Technology Operations LLC

Inventor(s)

Robin James of Rochester Hills MI (US)

Megan E. Mcgovern of Detroit MI (US)

Dmitriy Bruder of Clinton Twp. MI (US)

Whitney Ann Poling of Rochester Hills MI (US)

Erik Damon Huemiller of Troy MI (US)

Shaomao Xu of Sterling Heights MI (US)

Caleb Reese of Ferndale MI (US)

BATTERY MOCK-UP SAMPLES INCLUDING LITHIUM METAL OR LITHIUM MIMIC METAL FOR ELECTROMAGNETIC TESTING IN AMBIENT CONDITIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 17971774 titled 'BATTERY MOCK-UP SAMPLES INCLUDING LITHIUM METAL OR LITHIUM MIMIC METAL FOR ELECTROMAGNETIC TESTING IN AMBIENT CONDITIONS

Simplified Explanation

The patent application describes a method for validating non-destructive, electromagnetic methods in atmospheric conditions of a battery cell containing a lithium metal layer by using a lithium mimic metal layer in a mock-up sample for testing.

• Select a lithium mimic metal layer to replace the lithium metal layer.
• Create a mock-up sample with one or more layers of the battery cell, including the lithium mimic metal layer.
• Perform electromagnetic testing on the mock-up sample.

Key Features and Innovation

• Validation of non-destructive, electromagnetic methods in atmospheric conditions of a battery cell.
• Use of a lithium mimic metal layer in a mock-up sample for testing.
• Replacement of the lithium metal layer with a mimic metal layer for validation purposes.

Potential Applications

The technology can be applied in the development and testing of battery cells with lithium metal layers in various industries such as electric vehicles, consumer electronics, and energy storage systems.

Problems Solved

This technology addresses the challenge of validating electromagnetic methods in atmospheric conditions of battery cells containing lithium metal layers without risking damage to the actual cell.

Benefits

• Ensures accurate validation of non-destructive testing methods.
• Minimizes the risk of damage to lithium metal layers during testing.
• Facilitates the development of safer and more efficient battery cells.

Commercial Applications

• "Method for validating non-destructive, electromagnetic methods in atmospheric conditions of a battery cell" can be utilized by battery manufacturers, research institutions, and testing laboratories to improve the reliability and safety of battery cell testing processes.

Prior Art

Information on prior art related to this technology is not provided in the abstract.

Frequently Updated Research

There is no information on frequently updated research relevant to this technology.

Questions about the Technology

Question 1

How does the use of a lithium mimic metal layer in a mock-up sample help in validating non-destructive, electromagnetic methods for battery cells?

The use of a lithium mimic metal layer allows for testing in atmospheric conditions without risking damage to the actual lithium metal layer, ensuring accurate validation of the testing methods.

Question 2

What are the potential implications of this technology for the development of battery cells with lithium metal layers in different industries?

This technology can lead to the creation of safer and more efficient battery cells in industries such as electric vehicles, consumer electronics, and energy storage systems, enhancing overall performance and reliability.

Original Abstract Submitted

A method for validating non-destructive, electromagnetic methods in atmospheric conditions of a battery cell intended to include a lithium metal layer includes selecting a lithium mimic metal layer to replace the lithium metal layer; and creating a mock-up sample including one or more layers of the battery cell. One or more layers comprise the lithium mimic metal layer. The method includes performing electromagnetic testing of the mock-up sample.