Low-impedance compound feed extrusion die

Plastic article or earthenware shaping or treating: apparatus – Means providing a shaping orifice – Plural distinct feed inlets

Reexamination Certificate

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Reexamination Certificate

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06558151

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention relates to honeycomb extrusion dies, and more particularly to an improved design for a honeycomb extrusion die offering enhanced extrusion performance at relatively low extrusion pressures.
In conventional form, honeycomb extrusion dies comprise a die body having an inlet face and an outlet face, with the inlet face incorporating a plurality of feedholes extending through the die body toward the outlet face. These feedholes terminate within the interior of the die body at the bases of a plurality of criss-crossing, interconnected discharge slots formed in the die outlet face. Extrudable material forced into the feedholes at the inlet face of the die and supplied to the bases of the slots expands and knits to fill the interconnected slot space and is subsequently discharged from the slot openings at the outlet face of the die as an interconnecting wall structure which forms the channel walls of an extruded monolithic honeycomb.
Important applications for honeycomb extrusion dies are in the manufacture by extrusion of honeycomb SCR (selective catalytic reduction) catalysts for the control of nitrogen oxide emissions from electrical power plants and in the manufacture of ceramic honeycombs for the support of emissions control catalysts in the exhaust systems of automobiles. In each case, manufacture involves the preparation of a plasticized batch comprising powdered ceramic materials, the extrusion of the plasticized batch through the die to form a green honeycomb shape, and the firing of the green honeycomb shape to produce a strong cellular catalyst or ceramic catalyst support.
An example of a conventional extrusion die design for the manufacture of ceramic honeycombs is disclosed in U.S. Pat. No. 3,790,654 to Bagley. An extrusion die type known as a “compound feed” die, wherein the feedhole portion of the die is an assembly of two or more separate feedhole plates, is disclosed in U.S. Pat. No. 4,118,456. In the latter design, a primary feedhole plate forming the inlet portion of the die comprises a limited number of relatively large feedholes, while a secondary feedhole plate positioned behind the primary plate comprises a larger number of smaller feedholes, the smaller feedholes providing channels for conveying extrudable material from the larger feedholes to the discharge slots.
One of the problems encountered in the extrusion of plasticized inorganic powder batches of metallic or ceramic material is that of high extrusion back-pressure. Batch viscosity must be maintained at a sufficiently high level to insure that, once extruded, the honeycomb extrudate does not slump or otherwise deform in the course of subsequent processing. At the same time, the complex flow paths presented by conventional extrusion dies designed for finely structured honeycomb extrusion greatly increase the pressure required to force plasticized material through the die.
These factors substantially increase the forces sustained by extruder seals, shafts and housings. They also increase the sensitivity of the process to imperfections in surface finish or other manufacturing imperfections in the dies and other forming hardware used for extrusion. Avoiding production difficulties arising from these sources requires the use of more expensive extrusion equipment than would otherwise be required. For example, it is difficult to develop the extrusion pressures required for continuous fine (thin-wall) honeycomb extrusion using a single-screw extruder alone. Instead, twin-screw extruders or pressure-boosting pumping equipment must be used, or resort must be made to discontinuous batch extrusion approaches such as ram extrusion.
Many of these difficulties could be minimized or avoided if a die design offering reduced impedance to plasticized batch flow at high batch viscosities could be developed. It is one object of the present invention to provide such a die. Other objects and advantages of the invention will be apparent from the following description.
SUMMARY OF THE INVENTION
The present invention provides a honeycomb extrusion die of an improved compound feed design. That design permits honeycomb extrusion to be carried out at significantly reduced extrusion pressures. For example, instead of requiring ram extrusion or extrusion using a high pressure extrusion apparatus such as a twin screw extruder or an extruder with a auxiliary gear pump or other pressurizing system, high-viscosity batch materials can be extruded by means of a low-pressure single screw extruder or the like.
The extrusion die of the invention first comprises a thin, unitary, low impedance die body constituting the forming section of the die. That section comprises a die body inlet face and an opposing die discharge face, the inlet face incorporating a plurality of body feedholes extending therefrom toward the discharge face, and an intersecting array of discharge slots extending from the discharge face toward the inlet face. To control and limit flow impedance in this section of the die, the body feedholes overlap, i.e., extend into and terminate beyond the base portions of, the discharge slots.
While having a configuration similar to that of a conventional honeycomb extrusion die, the die body is of limited thickness in order to limit flow impedance. In addition, it features a relatively densely packed array of feedholes, as required to adequately supply the closely spaced discharge slots needed to form an extruded honeycomb of relatively high channel or cell density. Thus the die body alone does not normally have the thickness and strength necessary to withstand significant extrusion pressures without deformation or breakage.
The major strength component of the extrusion die of the invention is a-high-yield-strength die baseplate for supporting the die body. The die baseplate comprises a plurality of baseplate feedholes extending through the baseplate from a die inlet face toward an opposing baseplate outlet face. While substantially larger in diameter than the die body feedholes, to reduce flow impedance and increase the flow volume of batch material toward the die body, the baseplate feedholes are substantially fewer in number and more widely spaced than the die body feedholes. The wider feedhole spacing helps to maintain the strength of the die baseplate at levels adequate to support the extrusion pressure exerted on the die.
To provide a low-impedance interconnection between the die body feedholes and the baseplate feedholes, a compound-feed section is disposed between the die body and the die baseplate. The function of the compound-feed section is to divide and redirect the feedstream from each baseplate feedhole so that it can supply multiple die body feedholes. At least two and more typically four or more separate feedstreams will be created from each baseplate feedstream within the compound feed section of the die.
In principle, the compound feed section could comprise a specially machined die section wherein each inlet channel for a baseplate feedstream divides or branches to form multiple outlet channels to supply the die body feedholes. The branching feed conduits would have inlets connecting with the baseplate feedholes, and a larger number of outlets connecting with the body feedholes. Generally, branching requires that the conduits be angled away from the flow axes of the baseplate feedholes over at least a portion of their length, in order to connect each baseplate feedhole with a plurality of die body feedholes. Such a branching channel structure could be formed in a separate plate to be bonded to the die baseplate and body, or it could be machined directly into the baseplate or even within the die body.
However, in a particularly advantageous embodiment of the invention the compound feed section incorporates a multilayer feed-compounding section to provide the array of branching feed conduits. Disposed between and joining the die body to the die baseplate, this multilayer section is formed as a stacked plurality of thin plates, the branching feed conduits being formed wit

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