John S. Haggerty
Massachusetts Institute of Technology
96 Papers
2.6K Citations
John S. Haggerty is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Silicon & Ceramic. The author has an hindex of 25, co-authored 96 publications. Previous affiliations of John S. Haggerty include Brown University.
Chat about Author
Papers
Patent
Three-dimensional printing techniques
Emanuel M. Sachs,John S. Haggerty,Michael J. Cima,Paul Williams +3 more
- 04 Jun 1993
TL;DR: In this article, a process for making a component by depositing a first layer of a powder material in a confined region and then depositing binder material to selected regions of the layer of powder material to produce a layer of bonded powder material at the selected regions.
1.3K
Semisolid solidification of high temperature superconducting oxides
Michael J. Cima,Merton C. Flemings,A.M. Figueredo,Masahiko Nakade,Hideo Ishii,Harold D. Brody,John S. Haggerty +6 more
TL;DR: In this paper, two techniques for melttexture processing Ba2YCu3O6.5 by directional solidification from a semisolid melt containing particles of BaY2CuO5 and a copper-rich liquid were reported.
260
Sinterable Ceramic Powders from Laser‐Driven Reactions: II, Powder Characteristics and Process Variables
TL;DR: Si, Si3N4, and SiC powders which possess a unique set of characteristics were produced by a laser-driven gas-phase synthesis process as discussed by the authors, and a detailed analysis of the physical, chemical, and crystalline characteristics of Si and Si 3N4 is presented.
219
Patent
Net-shape ceramic processing for electronic devices and packages
William L. Robbins,John S. Haggerty,D.D. Rathman,William D. Goodhue,George B. Kenney,A. Lightfoot,R. Allen Murphy,Wendell E. Rhine,Julia Sigalovsky +8 more
- 25 May 1995
TL;DR: In this paper, a method of producing electronic device packages is provided, consisting of the steps of shaping a package preform and heating the package pretrain in a nitrogen-containing atmoshpere to nitride the preform.
89
Sinterable Powders from Laser Driven Reactions
John S. Haggerty,W. Roger Cannon +1 more
- 01 Jul 1980
TL;DR: The use of ceramic materials in these applications can only be considered, however, if their reliability is improved as mentioned in this paper, and the wide distribution of observed strengths specifically associated with ceramic materials forces engineers to design so conservatively that ceramics lose their intrinsic advantages relative to conventional materials.
82