Direct Observation of Pore Formation and Bubble Mobility During Controlled Melting and Re-Solidification in Microgravity

摘要

Detailed studies on the controlled melting and subsequent re-solidification of succinonitrile were conducted in the microgravity environment aboard the International Space Station (ISS) using the PFMI apparatus (Pore Formation and Mobility Investigation) located in the ISS' glovebox facility (GBX). Samples were initially prepared on ground by filling glass tubes, l cm ID and approximately 30 cm in length, with pure Succinonitrile (SCN) under 450 millibar of nitrogen. During Space processing, experimental parameters like temperature gradient and translation speed, for melting and Solidification, were remotely monitored and controlled from the ground Telescience Center (TSC) at the Marshall Space Flight Center. Real time visualization during controlled melting revealed bubbles of different sizes initiating at the solid/liquid interface, and traveling up the temperature gradient ahead of them. Subsequent controlled re-solidification of the SCN revealed the details of porosity formation and evolution. A preliminary analysis of the melt back and re-solidification and its implications to future microgravity materials processing is presented and discussed.