By Charles H. Drummond III
This factor includes a number of papers offered on the seventieth convention on Glass difficulties on the Ohio nation college, Columbus, Ohio. issues contain melting and molding, refractories, and environmental concerns and new items.
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Additional info for 70th Conference on Glass Problems: Ceramic Engineering and Science Proceedings
The gob moves down in the tools and the neck is attached by a settle blow. After the proper creation of the neck, in step 'c' the first forming blow is performed, which is called the counterblow. This step induces a severe deformation of the glass. The product after the initial blow is called the parison. The parison is rotated in step 'd' into the final mold, held for some time in step 'e' to let it sag, and then in step ' f it undergoes the final blow to attain the desired shape. The deformation in this step is less severe than that in the counterblow, but still the wall thickness can change significantly.
However, oxy-fuel technology has also forced glass makers to consider alternative materials of construction, creative construction, operational changes and robust maintenance programs to address the challenges of using industrially pure oxygen. The primary goal in optimizing the design, operation and maintenance of an oxy-fuel fired glass furnace has been extending the life of superstructure refractories, particularly the furnace crown. Traditional air-fired furnaces utilize silica brick for crown construction due to its relatively low density, thermal conductivity, corrosion characteristics, and moderate cost.
Although the concept of an all refractory, reverberatory furnace with continual operation has not changed, great strides have been made in the materials of construction, maintenance and operation of these systems. One operational change which has greatly changed the operation and environmental footprint of glass production is the use of industrially pure oxygen in place of air. The conversion of typical air-fired glass furnaces to oxy-fuel firing has led to reductions in specific energy requirements, reduced emissions of air pollutants, increased specific pull rates, simplified furnace construction, and improved operational consistency and glass quality.
70th Conference on Glass Problems: Ceramic Engineering and Science Proceedings by Charles H. Drummond III