Superheated steam is used to reach reaction temperature in some turnkey production plants.

Mechanical milling can lower the reaction temperature required during borothermic reduction.

Nitration can be controlled by adjusting acid concentrations and reaction temperature.

Reactions speed up with polar aprotic solvents and higher reaction temperatures.

This is important because modification affects the reaction temperatures.

Ketone reactions of this type require higher reaction temperatures.

The candle must be wrapped in thermal insulation to maintain the reaction temperature and to protect surrounding equipment.

The optimal reaction temperature is determined by the specific diazalkane used.

The reaction temperature can reach up to 1500 C for a millisecond.

The wire is then heated to the reaction temperature to form MgB inside.