Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Plasticating extrusion

S. Levy, Plastics Extrusion Technology Handbook, Industrial Press, New York, 1981. [Pg.393]

M. Mayer, Plastic Extrusion Technology, Hanser Pubhsher, Munich, Germany, 1988, p. 561. [Pg.91]

Schenkel, G, Plastics Extrusion Technology and Practice, Iliffe, 1966. [Pg.339]

These novel organic polymers were not developed solely for the CW or BW treatment market but are for much wider application. These same value-adding process additives are regularly incorporated into products for industrial and domestic cleaning, concrete, pulp and paper, metal finishing, paints and surface coatings, wastewater, seawater distillation, drilling muds, secondary oil-recovery, plastics extrusion, fibers, rubbers, and a host of other areas. [Pg.439]

Carley, J.F. Introduction to Plastics Extrusion, Chemical Engineering Progress Symposium Series no. 49, vol. 60, 1964, p. 38. [Pg.267]

Fig. 4. Configuration of a ceramic membrane reactor for partial oxidation of methane. The membrane tube, with an outside diameter of about 6.5 mm and a length of up to about 30 cm and a wall thickness of 0.25-1.20 mm, was prepared from an electronic/ionic conductor powder (Sr-Fe-Co-O) by a plastic extrusion technique. The quartz reactor supports the ceramic membrane tube through hot Pyrex seals. A Rh-containing reforming catalyst was located adjacent to the tube (57). Fig. 4. Configuration of a ceramic membrane reactor for partial oxidation of methane. The membrane tube, with an outside diameter of about 6.5 mm and a length of up to about 30 cm and a wall thickness of 0.25-1.20 mm, was prepared from an electronic/ionic conductor powder (Sr-Fe-Co-O) by a plastic extrusion technique. The quartz reactor supports the ceramic membrane tube through hot Pyrex seals. A Rh-containing reforming catalyst was located adjacent to the tube (57).
Tadmor, Z., and Klein, I. (1970). Engineering Principles of Plasticating Extrusion. Van Nostrand-Reinhold, Princeton, New Jersey. [Pg.104]

Tadmor, Z., Fundamentals of Plasticating Extrusion, Polym. Eng. Set, 6, 185 (1966) Potente, H., Single-Screw Extruder Analysis and Design, Chapter 5 in Screw Extrusion, White, J. L. and Pontente, H. (Eds.), Hanser, Munich (2003)... [Pg.244]

Tadmor, Z., Klein, I. (1978) Engineering principles of plasticating extrusion. Krieger Publishing Co., New York... [Pg.215]

Hermann, H. (1988) In Hensen F. (ed) Plastics extrusion technology. Hanser, Munich, chap 1... [Pg.216]

Berghaus, U. and F. Hensen Plastics Extrusion Technology, Hanser Gardner Publications, Cincinnati, OH, 1997. [Pg.601]

G. Schenkel, Plastics Extrusion Technology and Theory, Iliffe Books, Ltd., London, 1966. [Pg.23]

Z. Tadmor, Fundamentals of Plasticating Extrusion. I. A Theoretical Model for Melting, Polym. Eng. Sci., 6, 185-190 (1966). First presented at the Society of Plastics Engineers Annual Technical Conference, Montreal Canada, April 1966. [Pg.228]

In this section, we discuss the design of a melt extruder and derive the appropriate mathematical model. This will also introduce the reader to the plasticating extrusion process discussed in the following section. [Pg.448]

Fig. 9.8 Curvature correction factor for drag flow for a Power Law model fluid. /v,. fl 0 denotes the ratio of drag flow between parallel plates to drag (Couette) flow between concentric cylinders at equal gaps and moving surface velocities. The subscript 6 — 0 indicates that in screw extrusion this correction factor is rigorously valid only in the limit of a zero helix angle. [Reprinted by permission from Z. Tadmor and I. Klein, Engineering Principles of Plasticating Extrusion, Van Nostrand Reinhold, New York, 1970.]... Fig. 9.8 Curvature correction factor for drag flow for a Power Law model fluid. /v,. fl 0 denotes the ratio of drag flow between parallel plates to drag (Couette) flow between concentric cylinders at equal gaps and moving surface velocities. The subscript 6 — 0 indicates that in screw extrusion this correction factor is rigorously valid only in the limit of a zero helix angle. [Reprinted by permission from Z. Tadmor and I. Klein, Engineering Principles of Plasticating Extrusion, Van Nostrand Reinhold, New York, 1970.]...
See other pages where Plasticating extrusion is mentioned: [Pg.179]    [Pg.474]    [Pg.615]    [Pg.134]    [Pg.276]    [Pg.330]    [Pg.813]    [Pg.248]    [Pg.438]    [Pg.9]    [Pg.155]    [Pg.180]    [Pg.187]    [Pg.189]    [Pg.328]    [Pg.383]    [Pg.575]    [Pg.590]    [Pg.315]    [Pg.447]   
See also in sourсe #XX -- [ Pg.2 ]



SEARCH



Continuous extrusion (plastics)

Extrusion of plastics

Extrusion plasticating single-screw extruder

Extrusion process, plastics

Plastic deformation processing equal-channel angular extrusion

Plastic deformation processing extrusion

Plastic processing technologies extrusion

Plastic processing technologies extrusion blow molding

Plastic product design extrusion

Plasticating single screw extrusion

Plastics extrusion

Plastics extrusion

Plastics extrusion processing

Plastics joining extrusion

Standard Specification for Polyethylene Plastics Molding and Extrusion Materials

Standard Specification for Polyethylene Plastics Molding and Extrusion Materials from Recycled Postconsumer (HDPE) Sources

The Single Screw Plasticating Extrusion Process

Wood-plastic composites extrusion

© 2024 chempedia.info