Edward R. Prack scite author profile

Process visualization can be a very powerful tool for understanding dynamic processes. Process visualization requires a non-destructive technique that can be monitored in real time. In this paper various methods of non-destructive inspection will be described and compared. The applicability of these non-destructive inspection methods to process visualization will be compared and contrasted. Particular attention will be paid to a recent development in this area, the environmental scanning electron microscope (ESEM) which is inherently a non-destructive inspection technique with the advantages of electron microscopy for superior magnification and depth of field capability. The ESEM offers a unique platform for process visualization studies. The majority of process visualization is currently done using optical microscopes with hot stages for observing morphological effects top down (optical microscopes) or from the side (contact angle). Major limitations of these optical methods include lack of magnification, poor depth of field, and clouding of optics. Process visualization is best carried out utilizing a non-destructive technique, such as the ESEM, since invasive sample preparation techniques such as conductive coatings alter the sample and make interpretation more difficult. Common process variables such as thermal profiling and the effect of ambient conditions have been examined using the ESEM. Other process variables that could be of interest in the future will be discussed. There are limitations in the ability of the ESEM to reproduce actual process conditions, such as pressure and mass flow rate trade-offs. The ESEM can also be combined directly and indirectly with other analytical techniques to determine the composition of the sample and/or byproducts of a reaction that is being monitored.(ABSTRACT TRUNCATED AT 250 WORDS)

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Structure and Properties of Ceramic Fibers Prepared From Polymeric Precursors [1]

Lipowitz

Freeman

Goldberg

et al. 1986

MRS Proc.

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Ceramics can be prepared by pyrolysis of organosilicon polymers. Advantages of this method of ceramics preparation are; the ability to prepare shapes difficult to achieve by other methods such as fibers and films; the ability to achieve high purity because reagents used to prepare the polymer can be purified by well established chemical methods; processing at lower temperature than conventional methods [2].

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Fab Integrated Packaging (FIP): a new concept for high reliability wafer-level chip size packaging

Topper

Auersperg

Glaw³

et al. 2000

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Root Cause Mechanism for Delamination/Cracking in Stacked Die Chip Scale Packages

Prack

Fan

2006

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Edward R. Prack

Composition and Structure of Ceramic Fibers Prepared from Polymer Precursors

An introduction to process visualization capabilities and considerations in the environmental scanning electron microscope (ESEM)

Structure and Properties of Ceramic Fibers Prepared From Polymeric Precursors [1]

Fab Integrated Packaging (FIP): a new concept for high reliability wafer-level chip size packaging

Root Cause Mechanism for Delamination/Cracking in Stacked Die Chip Scale Packages

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