Packaging strategies for printed circuit board components. Volume I, materials & thermal stresses.

Neilsen, Michael K. (Kansas City Plant, Kansas City, MO); Austin, Kevin N.; Adolf, Douglas Brian; Spangler, Scott W.; Neidigk, Matthew Aaron; Chambers, Robert S.

doi:10.2172/1022184

Packaging strategies for printed circuit board components. Volume I, materials & thermal stresses. Metadata

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Title

Main Title Packaging strategies for printed circuit board components. Volume I, materials & thermal stresses.

Creator

Author: Neilsen, Michael K. (Kansas City Plant, Kansas City, MO)

Creator Type: Personal
Author: Austin, Kevin N.

Creator Type: Personal
Author: Adolf, Douglas Brian

Creator Type: Personal
Author: Spangler, Scott W.

Creator Type: Personal
Author: Neidigk, Matthew Aaron

Creator Type: Personal
Author: Chambers, Robert S.

Creator Type: Personal

Contributor

Sponsor: United States. Department of Energy.

Contributor Type: Organization

Publisher

Name: Sandia National Laboratories

Place of Publication: United States

Date

Creation: 2011-09-01

Language

English

Description

Content Description: Decisions on material selections for electronics packaging can be quite complicated by the need to balance the criteria to withstand severe impacts yet survive deep thermal cycles intact. Many times, material choices are based on historical precedence perhaps ignorant of whether those initial choices were carefully investigated or whether the requirements on the new component match those of previous units. The goal of this program focuses on developing both increased intuition for generic packaging guidelines and computational methodologies for optimizing packaging in specific components. Initial efforts centered on characterization of classes of materials common to packaging strategies and computational analyses of stresses generated during thermal cycling to identify strengths and weaknesses of various material choices. Future studies will analyze the same example problems incorporating the effects of curing stresses as needed and analyzing dynamic loadings to compare trends with the quasi-static conclusions.
Physical Description: 114 p.

Subject

Keyword: Stresses
Keyword: Recommendations
Keyword: Thermal Stresses
STI Subject Categories: 36 Materials Science
Keyword: Thermal Cycling
Keyword: Printed Circuits
Keyword: Packaging
Keyword: Curing

Collection

Name: Office of Scientific & Technical Information Technical Reports

Code: OSTI

Institution

Name: UNT Libraries Government Documents Department

Code: UNTGD

Resource Type

Report

Format

Text

Identifier

Report No.: SAND2011-4751
Grant Number: AC04-94AL85000
DOI: 10.2172/1022184
Office of Scientific & Technical Information Report Number: 1022184
Archival Resource Key: ark:/67531/metadc847065