Managing thermal stress of a battery of an information handling system

What is claimed is: 1 . A computer-implemented method of managing a battery of an information handling system, including: characterizing, based on swelling rates for multiple combinations of voltages and temperatures of the battery that are identified from testing of the battery, the battery, including generating a non-linear model including a gas generation response surface that indicates, for each combination of voltage of the battery and temperature of the battery, a time to swelling (TTS) of the battery, including: for any voltage-temperature combination of the battery represented by the gas generation response surface that is between the multiple combinations of voltages and temperature of the battery, performing linear interpolation, based on the multiple combinations of voltages and temperature of the battery, to calculate the TTS of the battery for the voltage-temperature combinations of the battery represented by the gas generation response surface that are between the multiple combinations of voltages and temperature of the battery; generating the non-linear model including the gas generation response surface including i) the TTS of the battery based on the multiple combinations and temperatures of the battery that are identified from testing of the battery and ii) the TTS of the battery for the voltage-temperature combinations of the battery represented by the gas generation response surface that are between the multiple combinations of voltages and temperature of the battery that are identified from testing of the battery, wherein for any particular combination of voltage of the battery, temperature of the battery, a number of days indicating a TTS in a region above the gas generation response surface, the particular combination is associated with gas generation by the battery, wherein for any particular combination of voltage of the battery, temperature of the battery, a number of days indicating a TTS in a region below the gas generation response surface, the particular combination is associated with no gas generation by the battery; determining a first thermal stress time of the battery over a first time period, including: identifying a voltage of the battery over the first time period; identifying a temperature of the battery over the first time period; calculating the first thermal stress time of the battery over the first time period based on the voltage and the temperature of the battery over the first time period; and determining that the first thermal stress time of the battery is associated with the region above the gas generation response surface for the voltage and the temperature of the battery over the first time period, and in response, adjusting a charge voltage of the battery, wherein the battery operates at the adjusted charge voltage. 2 . The computer-implemented method of claim 1 , further comprising: determining, based on the comparison, that the first thermal stress of the battery is less than the time threshold, and in response: determining a second thermal stress time of the battery over a second time period after the first time period, including: identifying a voltage of the battery over the second time period; identifying a temperature of the battery over the second time period; calculating the second thermal stress of the battery over the second time period based on the voltage and the temperature of the battery over the second time period; determining an accumulated thermal stress time of the battery based on a summation of the first thermal stress time and the second thermal stress time; comparing the accumulated thermal stress of the battery to the time threshold; and determining, based on the comparison, that the thermal stress time of the battery is greater than the time threshold, and in response, adjusting the charge voltage of the battery. 3 . The computer-implemented method of claim 1 , wherein the first thermal stress time is further based on a thickness of the battery and an impedance threshold of the battery. 4 . The computer-implemented method of claim 1 , wherein the TTS of the battery is a number of days to gassing by the battery as a function of the temperature of the battery and the voltage of the battery. 5 . The computer-implemented method of claim 1 , wherein adjusting the charge voltage of the battery includes lowering the charge voltage of the battery. 6 . The information handling system of claim 5 , wherein the first thermal stress time is further based on a thickness of the battery and an impedance threshold of the battery. 7 . The information handling system of claim 5 , wherein adjusting the charge voltage of the battery includes lowering the charge voltage of the battery. 8 . An information handling system comprising a processor having access to memory media storing instructions executable by the processor to perform operations, comprising: characterizing, based on swelling rates for multiple combinations of voltages and temperatures of the battery that are identified from testing of the battery, the battery, including generating a non-linear model including a gas generation response surface that indicates, for each combination of voltage of the battery and temperature of the battery, a time to swelling (TTS) of the battery, including: for any voltage-temperature combination of the battery represented by the gas generation response surface that is between the multiple combinations of voltages and temperature of the battery, performing linear interpolation, based on the multiple combinations of voltages and temperature of the battery, to calculate the TTS of the battery for the voltage-temperature combinations of the battery represented by the gas generation response surface that are between the multiple combinations of voltages and temperature of the battery; generating the non-linear model including the gas generation response surface including i) the TTS of the battery based on the multiple combinations and temperatures of the battery that are identified from testing of the battery and ii) the TTS of the battery for the voltage-temperature combinations of the battery represented by the gas generation response surface that are between the multiple combinations of voltages and temperature of the battery that are identified from testing of the battery, wherein for any particular combination of voltage of the battery, temperature of the battery, a number of days indicating a TTS in a region above the gas generation response surface, the particular combination is associated with gas generation by the battery, wherein for any particular combination of voltage of the battery, temperature of the battery, a number of days indicating a TTS in a region below the gas generation response surface, the particular combination is associated with no gas generation by the battery; determining a first thermal stress time of the battery over a first time period, including: identifying a voltage of the battery over the first time period; identifying a temperature of the battery over the first time period; calculating the first thermal stress time of the battery over the first time period based on the voltage and the temperature of the battery over the first time period; and determining that the first thermal stress time of the battery is associated with the region above the gas generation response surface for the voltage and the temperature of the battery over the first time period, and in response, adjusting a charge voltage of the battery, wherein the battery operates at the adjusted charge voltage. 9 . The information handling system of claim 8 , the operations further comprising: determining, based on the comparison, that the first the