Nonwoven metal fabric and method of making same

Metal working – Shredding metal or metal wool article making

Reexamination Certificate

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C029S004520, C029S004530

Reexamination Certificate

active

06249941

ABSTRACT:

FIELD
This invention relates to nonwoven metal fabrics, and also to advantageous processing steps for forming such fabrics.
BACKGROUND
It is known to make nonwoven fabrics of polymeric material by, among other steps, separating the polymeric fibers from a bale, either in a dry-laid or wet-laid process, and feeding the fibers into a garnett to be carded, thereby forming a web of nonwoven polymeric fibers. To facilitate formation of the web of polymeric fibers during the carding process, a lubricant may be introduced onto the polymeric fibers. The polymeric fiber web may then be lapped to form multiple layers. During the lapping operation, adjacent layers may be rotated relative to each other by a predetermined angle. The resulting multi-layer polymeric structure can then be needled or needle-punched to interengage fibers of respective layers with each other and thereby form a single fabric of polymeric material. The above-described process steps and the apparatus for accomplishing them are described more fully in “The Non-Woven Fabric Handbook,” by The Association of the Non-Woven Fabrics Industry, and in U.S. Pat. No. 4,888,234 to Smith, the teachings of which are incorporated herein by reference.
It is also known to create nonwoven metal fabrics by overlaying portions of a nonwoven, metal web to form a multi-layer structure, and then needling or needle-punching the multi-layer structure to form a coherent metal fabric.
The metal fibers in such structure are formed by shaving a metal member with a serrated blade, the resulting shavings comprising the metal fibers. Although the presence of a lubricant between the metal member and the serrated blade may assist in shaving off metal fibers, a lubricant is not generally used because it remains on the metal fibers of the finished product and interferes with customer acceptance and product function in many applications. As a result, the current art teaches maintaining the metal member and resulting fibers substantially free of any lubricant.
The need to maintain the metal fibers free of lubricant has generally constrained attempts to improve the density, uniformity, strength, heat dissipation, and other characteristics of nonwoven metal fabrics. One attempt at such an improved metal fabric is disclosed in U.S. Pat. No. Re. 28,470 to Webber, but the disclosed porous metal structure and method for making it suffer from additional drawbacks and disadvantages. For example, the process disclosed by Webber for making a metal structure is both far too complex and far too costly for many applications where a nonwoven metal fabric is required. In particular, the metal fibers of Webber are formed by an elaborate process of drawing larger diameter metal wires through various constrictions and by tensioning the resulting fibers until they are less than 50 microns in average diameter. The metal fibers formed by the Webber process have outer surfaces which are not as rough and therefore not as prone to advantageous interengagement as those created by the shaving process discussed above. As a result, Webber requires additional and costly processing steps, such as annealing and compacting, to create a suitably strong, coherent metal structure.
Because the metal fibers resulting from the drawing processes of Webber are smoother than those generated by the shaving process discussed above, and are generally less than 50 microns in average diameter, the fibers of Webber are able to be carded. Unfortunately, however, the Webber process cannot be used for fibers over 50 microns in average diameter, as they generally disintegrate during the process. Thus the Webber process is limited to use with metal fibers under 50 microns in diameter. But such fibers are usually not required by the particular application and, for reasons mentioned above, are too costly for many applications of nonwoven metal fabrics.
As a result, certain textile processing apparatus which might be used to enhance the characteristics of nonwoven metal fabric have not been usable heretofor without disintegration of the constituent metal fibers and a consequent breakdown of any web formed from such fibers.
Accordingly, there is a need for a nonwoven metal fabric which can be economically made using suitably adjusted, current textile processing apparatus.
There is a further need for such metal fabric to have improved uniformity, strength, density, and heat-dissipation characteristics.
SUMMARY
Accordingly, an object of this invention is to provide a nonwoven, metal fabric which has improved characteristics resulting from the way it is processed and manufactured.
According to one aspect of the invention, a nonwoven metal fabric is formed by providing a mass of loose fibers with any suitable lubricant. Some of the fibers are separated from the mass, and the separated fibers are carded on a garnett to form a fiber web. The fiber web is then lapped to form multiple layers of metal fibers, and the multiple layers are then needled in order to interengage the fibers and form the nonwoven metal fabric.
According to another aspect of the invention, the mass of fibers is formed by shaving a metal member with a succession of serrated blades, the fibers having irregular cross-sections and rough outer surfaces. The irregular cross-sections vary along the lengths of the fibers.
In accordance with still another aspect of the invention, the fibers may be either carbon steel, stainless steel, copper, or brass. The fibers have an average, cross-sectional diameter of from about 25 to about 125 microns with a length of one to ten inches.
In accordance with still another aspect of the present invention, the lubricant is an oil, and the fibers have a sufficient amount of oil on their outer surfaces to inhibit substantial disintegration of the web when it is carded.
Still other objects, advantages, and novel aspects of the present invention will become apparent in the detailed description of the invention that follows, which includes the preferred embodiment of the invention and the best mode contemplated for carrying out the invention. This detailed description may be understood by reference to the attached drawings, in which:


REFERENCES:
patent: Re. 28470 (1975-07-01), Webber
patent: 1490544 (1924-04-01), Stern
patent: 3670485 (1972-06-01), Brown et al.
patent: 4022593 (1977-05-01), Lerner
patent: 4098665 (1978-07-01), Frechin
patent: 4519201 (1985-05-01), Toon
patent: 4779322 (1988-10-01), Dendooven
patent: 4888234 (1989-12-01), Smith et al.

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