Title page for ETD etd-043008-100337

Document Type thesis

Author Name Hogan, Patrick Alan

URN etd-043008-100337

Title Prediction and Reduction of Die Soldering.

Degree MS

Department Materials Science & Engineering

Advisors
Diran Apelian, Advisor
Richard D. Sisson Jr., Department Head
Makhlouf Makhlouf, Committee Member
Brian Szymanowski, Sponsoring Organization Rep

Keywords
aluminum casting
die soldering
casting

Date of Presentation/Defense 2008-04-30

Availability unrestricted

Abstract
Die Soldering occurs in aluminum permanent mold casting when the cast metal bonds with the die surface and remains stuck upon ejection of the part. Eventually, this layer builds up and production must be stopped for cleaning. It was estimated in a Contech squeeze casting plant in Pierceton, IN, that 1.5% of variable overhead can be directly attributed to die soldering.
Previous work at WPI has focused on developing the mechanism of how soldering occurs. This work focuses on how that knowledge can be applied in an industrial setting. The work has focused on 4 major areas: (1) Using MAGMAsoft to predict die soldering, (2) Using surface metrology to measure die soldering, (3) Documenting the total process effects of using strontium modified casting alloys.
The work has resulted in: (1) Guidelines for using MAGMAsoft to predict die soldering. The results can be incorporated into the existing MAGMA die soldering module, but provide more accurate time and temperature criteria. (2) The results of the study prove that measurement of the surface of the cast part itself can be used as a method for quantifying die soldering. (3) The total process effects of Sr-modification are reported, along with suggestions for immediate use of Sr-modification at the Pierceton, IN casting plant and guidelines for using Strontium in the future.

Files
phogan.pdf

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Document Type	thesis
Author Name	Hogan, Patrick Alan
URN	etd-043008-100337
Title	Prediction and Reduction of Die Soldering.
Degree	MS
Department	Materials Science & Engineering
Advisors	Diran Apelian, Advisor Richard D. Sisson Jr., Department Head Makhlouf Makhlouf, Committee Member Brian Szymanowski, Sponsoring Organization Rep
Keywords	aluminum casting die soldering casting
Date of Presentation/Defense	2008-04-30
Availability	unrestricted
Abstract Die Soldering occurs in aluminum permanent mold casting when the cast metal bonds with the die surface and remains stuck upon ejection of the part. Eventually, this layer builds up and production must be stopped for cleaning. It was estimated in a Contech squeeze casting plant in Pierceton, IN, that 1.5% of variable overhead can be directly attributed to die soldering. Previous work at WPI has focused on developing the mechanism of how soldering occurs. This work focuses on how that knowledge can be applied in an industrial setting. The work has focused on 4 major areas: (1) Using MAGMAsoft to predict die soldering, (2) Using surface metrology to measure die soldering, (3) Documenting the total process effects of using strontium modified casting alloys. The work has resulted in: (1) Guidelines for using MAGMAsoft to predict die soldering. The results can be incorporated into the existing MAGMA die soldering module, but provide more accurate time and temperature criteria. (2) The results of the study prove that measurement of the surface of the cast part itself can be used as a method for quantifying die soldering. (3) The total process effects of Sr-modification are reported, along with suggestions for immediate use of Sr-modification at the Pierceton, IN casting plant and guidelines for using Strontium in the future.
Files	phogan.pdf