Tape casting of high dielectric ceramic substrates for microelectronics packaging

A. I.Y. Tok; F. Y.C. Boey; M. K.A. Khor

doi:10.1361/105994999770346783

Tape casting of high dielectric ceramic substrates for microelectronics packaging

A. I.Y. Tok^*, F. Y.C. Boey, M. K.A. Khor

^*Corresponding author for this work

President's Office

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

The production of ceramic green tapes is integral to the production of multilayer ceramic packages and capacitors. This article presents a batch type process for producing alumina ceramic green tape down to 150 μm thickness. The process parameters relevant to the precise control of the thickness of an alumina-based ceramic tape have been investigated using a float glass tape caster. Results indicate that the cast tape thickness was dependent on the blade gap until it reached a limiting value. This limiting thickness in turn was dependent on the casting speed, with a higher speed producing thinner tapes. Optimal casting was shown to exist when the blade gap was set at or beyond the limiting value, with the casting speed the controlling factor for the final thickness.

Original language	English
Pages (from-to)	469-472
Number of pages	4
Journal	Journal of Materials Engineering and Performance
Volume	8
Issue number	4
DOIs	https://doi.org/10.1361/105994999770346783
Publication status	Published - Aug 1999

ASJC Scopus Subject Areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

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title = "Tape casting of high dielectric ceramic substrates for microelectronics packaging",

abstract = "The production of ceramic green tapes is integral to the production of multilayer ceramic packages and capacitors. This article presents a batch type process for producing alumina ceramic green tape down to 150 μm thickness. The process parameters relevant to the precise control of the thickness of an alumina-based ceramic tape have been investigated using a float glass tape caster. Results indicate that the cast tape thickness was dependent on the blade gap until it reached a limiting value. This limiting thickness in turn was dependent on the casting speed, with a higher speed producing thinner tapes. Optimal casting was shown to exist when the blade gap was set at or beyond the limiting value, with the casting speed the controlling factor for the final thickness.",

author = "Tok, {A. I.Y.} and Boey, {F. Y.C.} and Khor, {M. K.A.}",

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AU - Tok, A. I.Y.

AU - Boey, F. Y.C.

AU - Khor, M. K.A.

PY - 1999/8

Y1 - 1999/8

N2 - The production of ceramic green tapes is integral to the production of multilayer ceramic packages and capacitors. This article presents a batch type process for producing alumina ceramic green tape down to 150 μm thickness. The process parameters relevant to the precise control of the thickness of an alumina-based ceramic tape have been investigated using a float glass tape caster. Results indicate that the cast tape thickness was dependent on the blade gap until it reached a limiting value. This limiting thickness in turn was dependent on the casting speed, with a higher speed producing thinner tapes. Optimal casting was shown to exist when the blade gap was set at or beyond the limiting value, with the casting speed the controlling factor for the final thickness.

AB - The production of ceramic green tapes is integral to the production of multilayer ceramic packages and capacitors. This article presents a batch type process for producing alumina ceramic green tape down to 150 μm thickness. The process parameters relevant to the precise control of the thickness of an alumina-based ceramic tape have been investigated using a float glass tape caster. Results indicate that the cast tape thickness was dependent on the blade gap until it reached a limiting value. This limiting thickness in turn was dependent on the casting speed, with a higher speed producing thinner tapes. Optimal casting was shown to exist when the blade gap was set at or beyond the limiting value, with the casting speed the controlling factor for the final thickness.

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Tape casting of high dielectric ceramic substrates for microelectronics packaging

Abstract

ASJC Scopus Subject Areas

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