Chemistry (GregTech 5 Unofficial)

With version 5.09.30 the chemistry of GT5U has become a lot more realistic, but also a lot more complex. This page describes how to obtain the new basic materials and how to process them.

Starting materials
Only non-elemental starting materials are being listed here.

Acetone
Can be obtained by distilling Wood Vinegar, by treating Cumene with Oxygen, or by smelting a mixture of Acetic Acid and Calcium. Used for producing Epoxy Resin or Glue.

Benzene
Can be obtained by distilling Wood Tar or Heavy Fuel. Used for producing Cumene.

Ethylene
Can be obtained by distilling Naptha or Wood Gas, or from treating Ethanol with Sulfuric Acid. Used for producing Polyethylene and Polyvinyl Chloride.

Hydrochloric Acid
Can be obtained from synthesizing Hydrogen and Chlorine, also gained as a byproduct from producing Polydimethylsiloxane, Polytetrafluoroethylene, or Epichlorohydrin. Used for producing Polyvinyl Chloride and Bisphenol A production.

Hydrofluoric Acid
Can be obtained from synthesizing Hydrogen and Fluorine. Used for producing Polytetrafluoroethylene.

Phenol
Can be obtained from distilling Wood Tar or Heavy Fuel, or by treating Cumene with Oxygen. Used for producing Epoxy Resin.

Phosphoric Acid
Obtained by treating elemental Phosphor with Oxygen and Water, or by treating Apatite dust with Sulfuric Acid and Water. Used for producing Cumene.

Propene
Obtained by distilling Naphtha. Used for producing Epoxy Resin.

Sodium Hydroxide
Obtained by electrolyzing Salt Water, or by treating elemental Sodium with Water (do not try this at home). Used for producing Epoxy Resin.

Plastics
'Normal reaction' and 'Polymerization' are performed in a Chemical Reactor. Polymerization recipes always follow the same pattern: The monomer can be treated with either Compressed Air or with Oxygen to produce the Polymer. Optionally tiny amounts of Titanium Dust can be added. Oxygen and Titanium increase the Polymer output by 50% each.

Epoxy Resin
Produced from Acetone, Chlorine, Mercury, Phenol, Propene, Sodium Hydroxide, and Water. Used for producing circuit boards. Becomes available at Low Voltage (requires Oil though).

Polydimethylsiloxane
Produced from Chlorine, Methane, Silicon, and Water. Used for Wetware Life Support Circuit Boards, EV+ Pumps, and SMD Capacitors. Becomes available at Medium Voltage.

Polyethylene
Produced from Ethylene. Used for producing Machine Hulls (mandatory for HV+), circuit components, Fluid Pipes, and more. Becomes available at LV (requires Oil though).

Polytetrafluoroethylene
Produced from Chlorine, Hydrofluoric Acid, and Methane. Used for producing ZPM+ Machine Hulls, Wetware Life Support Circuit Boards, and Fluid Pipes. Becomes available at High Voltage.

Polyvinyl Chloride
Produced from Ethylene, Hydrochloric Acid, and Oxygen, or from Ethylene and Chlorine. Used for producing Item Pipes.