ONE-HAND MIXING® conductive glue develops conductivity as the curing reaction progresses after application for bonding or circuit formation. This article presents data showing how temperature affects curing speed and conductivity stability.

✅Temperature vs. Curing Behavior

The time required for conductivity to stabilize varies significantly depending on the ambient temperature.

• Around 25 °C (77 °F)  - Spring/Autumn Conditions

Conductivity is typically achieved within 8–12 hours, stabilizing in 1–2 days.

• Below 10 °C (50 °F) - Winter Conditions

Conductivity may take 5–7 days to develop.

Warming the area can significantly accelerate the curing process.

• Above 60 °C (140 °F) - Heated Conditions

Stable conductivity is achieved within 30–60 minutes.

✅Test Data

• Correlation Between Curing Temperature and Time to Reach Stable Resistance (Left Graph)

Higher temperatures result in a faster decrease in resistance,

demonstrating that resistance stabilizes in a shorter time as temperature increases.

• Curing Behavior at Various Temperatures (Right Graph)

At lower temperatures, the curing reaction slows significantly, confirming the effectiveness of moderate heating in achieving early conductivity.

✅Usage Notes

• Temperature control is especially important during winter.

• Using a hair dryer or a heated workspace can reduce curing time.

• By optimizing heating conditions, stable conductivity can be achieved more quickly and reliably.

✅Summary

ONE-HAND MIXING® conductive glue is highly temperature-dependent in its curing behavior. By managing the working environment appropriately, users can achieve stable electrical conductivity efficiently and with confidence.