This quantity is a part of the Ceramic Engineering and technological know-how continuing (CESP) series. This sequence features a selection of papers facing concerns in either conventional ceramics (i.e., glass, whitewares, refractories, and porcelain the teeth) and complicated ceramics. themes lined within the zone of complex ceramic contain bioceramics, nanomaterials, composites, reliable oxide gasoline cells, mechanical homes and structural layout, complicated ceramic coatings, ceramic armor, porous ceramics, and more.
Content:
Chapter 1 layout issues for All?Electric Glassmelters: II (pages 1–13): William R. Steitz and Carl W. Hibscher
Chapter 2 Forehearth electrical Heating managed through Conductance (pages 14–24): James F. Stevenson
Chapter three gas discount rates on transformed Lehrs (pages 25–29): Melvin N. Roberts
Chapter four Asbestos removing in a pitcher Plant (pages 30–34): James C. Haney
Chapter five difficulties concerning Spent?Chrome?Bearing Refractories (pages 35–38): Warren S. Ferguson
Chapter 6 Chrome?Containing uncomplicated fabrics: event within the eu Glass (pages 39–50): Paul P. Boggum
Chapter 7 Longer Glass Furnace existence utilizing 38.1?cm?Thick Flux fabric (pages 51–56): J. J. Kersting, L. H. Kotacska and L. ok. Smith
Chapter eight Glass Batch Pelletizing and toxins seize reports in Pellet Beds (pages 57–78): R. Raghavan, R. R. Thomas, R. E. Miller and W. L. Wallding
Chapter nine Fluidized Beds for Glass Batch Preheating (pages 79–87): Ravi Sakhuja and William E. Cole
Chapter 10 An strength Survey within the Glass (pages 88–94): Charles H. Allen
Chapter eleven Environmental legislation and Its impact at the Glass (pages 95–107): George Teitelbaum
Chapter 12 floor wire: A Case background (pages 108–111): G. A. Anderson
Chapter thirteen floor twine research and strength resources (pages 112–119): Allen D. Davis
Chapter 14 common reviews on floor wire (pages 120–132): John LeBlanc
Chapter 15 Furnace building and Its effect on floor twine in box Glass (pages 133–141): Manfred Weiler
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Extra info for Proceedings of the 41st Conference on Glass Problems: Ceramic and Engineering and Science Proceedings, Volume 2, Issue 1/2
Example text
An extension of the pan depth to 46 cm was possible with a split ring extension. When full, the pan held approximately 340 kg of batch. The pan angle could be continuously varied from 40 to 55 (angle between axis of rotation and horizontal) and the rotational speed between 5 and 20 rpm. Feed locations of batch and water were adjustable through the use of flexible tubes. The drying system included a gas-fired belt dryer and shaft dryer, a burner system for the two dryers, and a vibratory feeder to fill containers with dried pellets.
Again, each member of the committee contributed available information from his or her group. Different plants were assigned to find substitutes for specific materials or components. The resultant list is shown in Table I. Some of these substitute materials were relatively easy to find, test, and place into service. Some replacement items have been extremely difficult to find. When an inquiry is sent to a potential equipment manufacturer, he or she is requested to certify that no asbestos is used in the manufacture of that equipment.
We must first identify all components in the plant that contain asbestos fibers, find a substitute material, properly dispose of the used asbestos parts, and then establish a procedure that will prevent new asbestos from entering the plant. Our first step of identification was to organize a group of knowledgeable technicians. An Asbestos Replacement Committee (ARC) was formed, with an experienced representative from each of our seven primary glass plants. Equally talented members were selected from central engineering, research, environmental affairs, and supply.