There are several factors that can contribute to the development of thermal stress in glass:
Since your request is broad, I have designed a comprehensive . This feature is commonly needed in architectural software, engineering tools, or manufacturing quality control systems.
The core risk is the temperature difference between the hot center of the glass (sunny) and the cooler edges (shaded/framed). $$ \Delta T = (T_center - T_edge) $$ Estimated simplified formula: $$ T_center \approx T_ambient + \frac\alpha \times Ih_out $$ (Where $h_out$ is the external heat transfer coefficient).
If you are implementing this in Python or C#, here is the logic flow:
There are several factors that can contribute to the development of thermal stress in glass:
Since your request is broad, I have designed a comprehensive . This feature is commonly needed in architectural software, engineering tools, or manufacturing quality control systems.
The core risk is the temperature difference between the hot center of the glass (sunny) and the cooler edges (shaded/framed). $$ \Delta T = (T_center - T_edge) $$ Estimated simplified formula: $$ T_center \approx T_ambient + \frac\alpha \times Ih_out $$ (Where $h_out$ is the external heat transfer coefficient).
If you are implementing this in Python or C#, here is the logic flow: