Process Gas Infiltration in Inconel 718 Samples during SLM Processing

Autor/innen

  • Christopher Schaak Lehrstuhl für Werkstofftechnologie, TU Dortmund
  • Wolfgang Tillmann Lehrstuhl für Werkstofftechnologie, TU Dortmund
  • Mirko Schaper Lehrstuhl für Werkstoffkunde, Universität Paderborn
  • Mehmet Esat Aydinöz Lehrstuhl für Werkstoffkunde, Universität Paderborn

Abstract

Argon infiltration is a well-known problem of hot isostatic pressed components. Thus, the argon content is one quality attribute which is measured after a hot isostatic pressing (HIP) process. Since the Selective Laser Melting (SLM) process takes place under an inert argon atmosphere; it is imaginable that argon is entrapped in the component after SLM processing. Despite using optimized process parameters, defects like pores and shrink holes cannot be completely avoided. Especially, pores could be filled with process gas during the building process. Argon filled pores would clearly affect the mechanical properties. The present paper takes a closer look at the porosity in Inconel 718 samples, which were generated by means of SLM. Furthermore, the argon content of the powder feedstock, of samples made by means of SLM, of samples which were hot isostatic pressed after the SLM process, and of conventionally manufactured samples were measured and compared. The results showed an increased argon content in the Inconel 718 samples after SLM processing compared to conventional manufactured samples.

Veröffentlicht

17.06.2016

Zitationsvorschlag

Schaak, C., Tillmann, W., Schaper, M., & Aydinöz, M. E. (2016). Process Gas Infiltration in Inconel 718 Samples during SLM Processing. RTe Journal, 13(1). Abgerufen von https://rtejournal.de/rte/article/view/2016_2

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