Investigation of stainless steel powder compaction process for manufacturing of micro-porous surface feature

Gopal Parekh, Ömer ̈ N Cora, Muammer Koç

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Solid oxide fuel cells (SOFC) are gaining popularity as a means for large scale energy production in many areas. They typically operate at temperatures between 800-1000°C. However, newer versions of the SOFC, called intermediate temperature solid oxide fuel cells (IT-SOFC), operate between 500-700°C. Because of this drastic change, the interconnect (IC) plates of the fuel cell can be made with metals instead of ceramics. This paper investigates the use of stainless steel powders to form porous IC plates and the effect of compacting temperature and pressure on the porosity and the formability of the IC plates. The conditions in which the powders would bond to the thin stainless steel substrate were also investigated; however, none of the cases yielded any success. SS 316L and 430L powders of 53-105 8m size were used in this study. The goal of using powders was to create micro-porous features on a large surface of the IC plates for advanced heat transfer purpose. Based on the results in this study, appropriate process windows for powder compaction of stainless steel 316L and 430L are given for good channel formation and surface porosity.

Original languageEnglish
Title of host publicationInternational Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM
Pages119-122
Number of pages4
DOIs
Publication statusPublished - 2009
Externally publishedYes
EventInternational Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM - Karlsruhe, Germany
Duration: 23 Sep 200925 Sep 2009

Other

OtherInternational Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM
CountryGermany
CityKarlsruhe
Period23/9/0925/9/09

Fingerprint

Stainless Steel
Powders
Compaction
Stainless steel
Solid oxide fuel cells (SOFC)
Porosity
Formability
Temperature
Fuel cells
Metals
Heat transfer
Substrates

Keywords

  • Fuel cell
  • Interconnect plate
  • Porous surface
  • SOFC

ASJC Scopus subject areas

  • Industrial and Manufacturing Engineering
  • Materials Science(all)

Cite this

Parekh, G., Cora, Ö. . N., & Koç, M. (2009). Investigation of stainless steel powder compaction process for manufacturing of micro-porous surface feature. In International Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM (pp. 119-122) https://doi.org/10.1243/17547164C0012009018

Investigation of stainless steel powder compaction process for manufacturing of micro-porous surface feature. / Parekh, Gopal; Cora, Ömer ̈ N; Koç, Muammer.

International Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM. 2009. p. 119-122.

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Parekh, G, Cora, ÖN & Koç, M 2009, Investigation of stainless steel powder compaction process for manufacturing of micro-porous surface feature. in International Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM. pp. 119-122, International Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM, Karlsruhe, Germany, 23/9/09. https://doi.org/10.1243/17547164C0012009018
Parekh G, Cora ÖN, Koç M. Investigation of stainless steel powder compaction process for manufacturing of micro-porous surface feature. In International Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM. 2009. p. 119-122 https://doi.org/10.1243/17547164C0012009018
Parekh, Gopal ; Cora, Ömer ̈ N ; Koç, Muammer. / Investigation of stainless steel powder compaction process for manufacturing of micro-porous surface feature. International Conferences on Multi-Material Micro Manufacture, 4M/International Conferences on Micro Manufacturing, ICOMM. 2009. pp. 119-122
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