Magnesia refractories with non-oxide components

Research output: ThesisDoctoral Thesis

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Magnesia refractories with non-oxide components. / Pichlbauer, Sabine.
2011.

Research output: ThesisDoctoral Thesis

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@phdthesis{9e4d54d19d66457287ddd3e63f20bd5f,
title = "Magnesia refractories with non-oxide components",
abstract = "Magnesia refractories are used in a wide range of pyroprocesses due to their high refractoriness and the high resistance against basic slags. However, disadvantages of magnesia refractories are their brittleness and their low resistance against silica based melts and slags. Therefore, new, ceramically bonded magnesia refractories should be developed with a low brittleness, on the one hand, and an increased corrosion- and infiltration resistance against silica based melts, on the other hand. The addition of novel components should fulfil these requirements but the production of these samples was more complex than expected. Within this thesis, however, adequate compositions and ways of production for magnesia refractories with novel components could be determined and the positive influence on the brittleness was verified.",
keywords = "Magnesia, Feuerfestbaustoff, Nichtoxid, Spr{\"o}digkeit, magnesia, refractory, non-oxide, brittleness",
author = "Sabine Pichlbauer",
note = "no embargo",
year = "2011",
language = "English",

}

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TY - BOOK

T1 - Magnesia refractories with non-oxide components

AU - Pichlbauer, Sabine

N1 - no embargo

PY - 2011

Y1 - 2011

N2 - Magnesia refractories are used in a wide range of pyroprocesses due to their high refractoriness and the high resistance against basic slags. However, disadvantages of magnesia refractories are their brittleness and their low resistance against silica based melts and slags. Therefore, new, ceramically bonded magnesia refractories should be developed with a low brittleness, on the one hand, and an increased corrosion- and infiltration resistance against silica based melts, on the other hand. The addition of novel components should fulfil these requirements but the production of these samples was more complex than expected. Within this thesis, however, adequate compositions and ways of production for magnesia refractories with novel components could be determined and the positive influence on the brittleness was verified.

AB - Magnesia refractories are used in a wide range of pyroprocesses due to their high refractoriness and the high resistance against basic slags. However, disadvantages of magnesia refractories are their brittleness and their low resistance against silica based melts and slags. Therefore, new, ceramically bonded magnesia refractories should be developed with a low brittleness, on the one hand, and an increased corrosion- and infiltration resistance against silica based melts, on the other hand. The addition of novel components should fulfil these requirements but the production of these samples was more complex than expected. Within this thesis, however, adequate compositions and ways of production for magnesia refractories with novel components could be determined and the positive influence on the brittleness was verified.

KW - Magnesia

KW - Feuerfestbaustoff

KW - Nichtoxid

KW - Sprödigkeit

KW - magnesia

KW - refractory

KW - non-oxide

KW - brittleness

M3 - Doctoral Thesis

ER -