EXPERIMENTAL MANUFACTURE OF HEAT INSULATING PLATES BY EXPANDING THE GLASS WASTE IN THE MICROWAVE FIELD

Authors

  • Lucian Paunescu Daily Sourcing & Research SRL Bucharest
  • Sorin Mircea Axinte Daily Sourcing & Research SRL Bucharest
  • Felicia Cosmulescu Cosfel Actual SRL Bucharest

Keywords:

heat insulating plates, microwave, glass waste, silicon carbide, coal ash, energy consumption

Abstract

The paper presents experimental results of manufacturing in microwave field of heat insulating plates by expanding a powder mixture of glass waste, coal ash, silicon carbide and water pressed into a mold with walls made of silicon carbide. The best variants corresponded to silicon carbide ratios of 2.9 and 3.0 wt.% and coal ash of 10 wt.%. The samples characteristics were almost similar to those industrially made by conventional methods: low apparent density (0.33-0.34 g/cm3), high compressive strength (1.7-1.9 MPa) and water absorption almost zero. The specific energy consumption had low values (1.01-1.04 kWh/kg), being comparable to that achieved by conventional techniques in the industrial production, although the conditions of small-scale experiments were obviously disadvantageous.

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Published

2020-12-31

Issue

Vol. 24 No. 4 (2020): Nonconventional Technologies Review

Section

Articles

How to Cite

EXPERIMENTAL MANUFACTURE OF HEAT INSULATING PLATES BY EXPANDING THE GLASS WASTE IN THE MICROWAVE FIELD. (2020). Nonconventional Technologies Review, 24(4). http://www.revtn.ro/index.php/revtn/article/view/307

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