Tape casting was first described as a method to mass-produce capacitors. In this first published description from 1947 the process was described as: In 1960 a patent was filed for multilayered tape casting and in 1996 the first tapes under 5 μm were cast.
Production process
The tape casting process converts ceramic powder to a thin film by making a liquid form of it, casting it on a flat plane and drying it.
Ingredients
The starting point for the tape casting process is the powder that the 'tape' is to be consisting of. This is the active component of the final product and the other contents, such as binder material and solvents have to be compatible with the powder. The powder is in general very fine, with maximum particle sizes of 5 micrometers. The solvent serves the purpose of allowing the powder to be cast, as if it were a liquid, and also to spread secondary components through the tape. Surfactants are added as well, to control the behaviour of the tape surface. Furthermore, binder material is added. This determines the bulk structure and mechanical characteristics of the tape.
Slurry manufacturing
The slurry ingredients as mentioned in the previous section are mixed and stored in tanks.
Slurry casting
The slip material is transported in pipes from tanks to the casting machine. The slip may be filtered before being applied, to remove imperfect particles. The cast slurry is called a green layer or green sheet, and needs further processing such as cutting and drying. During casting it is important to cast a perfectly flat surface without streaks, for this different casting mechanisms have been designed to minimise slip streams in the slurry. The blades that flatten and thin the cast surface are called doctor blades. These come in different shapes such as thick or thin flat cutting surfaces, rounded edges and knife blade-shaped edges. For tapes that are cast thinner than 50 micrometer, the coating is not applied from the top, but from the side or bottom. The surface on which is cast can be made from steel, glass, coated paper and polymers. Steel is the most economical surface, but removal of thin sheets from a steel surface is difficult and the steel surface needs relatively frequent replacement due to damaging.
The cast tape only dries from one side, the exposed surface, as the casting surface is impermeable. Drying is dependent on two processes, namely the evaporation of the solvent from the surface, and the diffusion of the solvent through the tape towards the single exposed surface. The evaporation may be sped up by applying air drying. However, usually evaporation should be limited to ensure steady diffusion of the solvent. If the solvent does not leave the sheet in a controlled fashion, the tape may crack or curl. Several processing steps may be executed depending on the product requirement, such as cutting, laminating, punching or thermal treatment.
Usage
The process is used in the production of capacitors, polymer batteries, photovoltaics, electrodes for molten carbonate fuel cells. Films as thin as 5 micrometer can be produced using tape casting.