Protecting molten magnesium and its alloys
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Protecting molten magnesium and its alloys. / Hort, Norbert; Wiese, Burkhard; Dieringa, Hajo et al.
in: Metallurgia Italiana, Jahrgang 108, Nr. 6, 06.2016, S. 105-108.Publikation: Beiträge in Zeitschriften › Zeitschriftenaufsätze › Forschung › begutachtet
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TY - JOUR
T1 - Protecting molten magnesium and its alloys
AU - Hort, Norbert
AU - Wiese, Burkhard
AU - Dieringa, Hajo
AU - Kainer, Karl Ulrich
N1 - cited By 2
PY - 2016/6
Y1 - 2016/6
N2 - Magnesium is having a high affinity to oxygen in the molten state and unlike other metals it is not forming a stable protecting film on the surface of melts. To avoid burning it is therefore necessary to protect molten Mg and its alloys. To achieve this, nowadays mostly SF6 is used in combination with carrier gases like dry air, N2, CO2, or even Ar. However, SF6 has been identified as a highly potent greenhouse gas with a global warming potential > 23,000 more than CO2. Moreover, SF6 is cracked at temperatures higher than 750 °C and toxic fluorine is set free. Fortunately fluorine immediately reacts with Mg vapour and forms stable MgF2. Due to the different threats caused by SF6 the European Union (EU) will ban the use of SF6 for high pressure die casting of magnesium alloys as of January 1st, 2018. Alternatives are already available. But most of them are fluorinated hydrocarbons or other fluorinated chemicals. They are also under discussion in the EU due to the risk that comes with fluorine. SO2 is already recommended as a possible SF6 replacement but is also having its own restrictions with maximum working space concentrations. It might be necessary to reuse again fluxes, but they also have limitations. If magnesium and its alloys shall be further used and processed in the EU, alternative ways of magnesium melt protection need to be established within the near future. This contribution will discuss available methods to protect molten Mg and their consequences.
AB - Magnesium is having a high affinity to oxygen in the molten state and unlike other metals it is not forming a stable protecting film on the surface of melts. To avoid burning it is therefore necessary to protect molten Mg and its alloys. To achieve this, nowadays mostly SF6 is used in combination with carrier gases like dry air, N2, CO2, or even Ar. However, SF6 has been identified as a highly potent greenhouse gas with a global warming potential > 23,000 more than CO2. Moreover, SF6 is cracked at temperatures higher than 750 °C and toxic fluorine is set free. Fortunately fluorine immediately reacts with Mg vapour and forms stable MgF2. Due to the different threats caused by SF6 the European Union (EU) will ban the use of SF6 for high pressure die casting of magnesium alloys as of January 1st, 2018. Alternatives are already available. But most of them are fluorinated hydrocarbons or other fluorinated chemicals. They are also under discussion in the EU due to the risk that comes with fluorine. SO2 is already recommended as a possible SF6 replacement but is also having its own restrictions with maximum working space concentrations. It might be necessary to reuse again fluxes, but they also have limitations. If magnesium and its alloys shall be further used and processed in the EU, alternative ways of magnesium melt protection need to be established within the near future. This contribution will discuss available methods to protect molten Mg and their consequences.
KW - Engineering
KW - carbon dioxide
KW - Die casting
KW - Fluorine
KW - Fluxes
KW - Global warming
KW - Greenhouse gases
KW - Hydrocarbons
KW - magnesium
KW - Magnesium alloys
KW - sulfur dioxide
KW - sulfur hexafluoride
UR - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85009350842&partnerID=40&md5=7f13c727d70555a5a890fbf38af7bf60
M3 - Journal articles
VL - 108
SP - 105
EP - 108
JO - Metallurgia Italiana
JF - Metallurgia Italiana
SN - 0026-0843
IS - 6
ER -