Specific Process Knowledge/Thermal Process/Pyrolysis/Pyrolysis with Multipurpose Anneal Furnace: Difference between revisions
No edit summary |
No edit summary |
||
Line 2: | Line 2: | ||
==Pyrolysis Recipes== | ==Pyrolysis Recipes== | ||
Because the properties of the final carbon are largely depending on the pyrolysis process as well as the polymer precusors, each parameter has a different influence. By modifying those parameters, the properties of pyrolytic carbon can be tailored. The number of steps, the maximum temperature of each step, the heating rate, the dwell time at the maximum temperature and the gas composition inside the furnace are the parameters that can be changed to control the properties of pyrolytic carbon. At DTU Nanolab, the polymer precusor mostly is SU-8 negative photoresist and high temperature 3D printing resin. Depend on the designed properties of pyrolytic carbon material, pyrolysis process will be optimized. Check the recipes on the Pyrolysis with Multipurpose Anneal Furnace page below. | |||
== Recipe for maximize the tensile stress of pyrolytic carbon == |
Revision as of 12:58, 16 April 2020
Feedback to this page: click here
Pyrolysis Recipes
Because the properties of the final carbon are largely depending on the pyrolysis process as well as the polymer precusors, each parameter has a different influence. By modifying those parameters, the properties of pyrolytic carbon can be tailored. The number of steps, the maximum temperature of each step, the heating rate, the dwell time at the maximum temperature and the gas composition inside the furnace are the parameters that can be changed to control the properties of pyrolytic carbon. At DTU Nanolab, the polymer precusor mostly is SU-8 negative photoresist and high temperature 3D printing resin. Depend on the designed properties of pyrolytic carbon material, pyrolysis process will be optimized. Check the recipes on the Pyrolysis with Multipurpose Anneal Furnace page below.