A substantially rectangular stack of folded wet wipes having an improved dispensability and a method of producing the same are described. The stack of folded wet wipes includes a plurality of wet wipes which are individually folded and arranged in a stacked configuration. Each wet wipe includes a leading end edge which is folded about a fold line. The location of the leading end edge of each wet wipe is selectively varied throughout the stack of wet wipes to provide a more stable stack of wet wipes which has a substantially planar top surface.
This application is a divisional of application Ser. No. 08/599,362 entitled STACK OF FOLDED WET WIPES HAVING IMPROVED DISPENSABILITY AND A METHOD OF MAKING THE SAME and filed in the U.S. Patent and Trademark Office on Mar. 15, 1996, U.S. Pat. No. 5,964,351. The entirety of application Ser. No. 08/599,362 is hereby incorporated by reference.
Stacks of wet wipes having improved dispensability are provided. The stacks comprise a first clip of wet wipes and a second clip of wet wipes positioned on top of the first clip of wet wipes. Clips of wet wipes generally include a last wet wipe comprising a bottom portion having a surface area that is greater than the surface area of the top portion. Clips of wet wipes also generally include a next-to-last wet wipe comprising a bottom portion having a surface area that is less than the surface area of the top portion. Individual wet wipes in stacks of the present invention have less tendency to stick together than wet wipes in stacks found in the prior art.
A process for preparing a molded, textured, spunlaced, nonwoven web is provided and wipes made therefrom. Also provided is an apparatus for making molded, textured, spunlaced, nonwoven web. Molded, textured, spunlaced, nonwoven webs prepared by the inventive process and apparatus are also provided. Also provided is a molded, textured, spunlaced, nonwoven web.
A nonwoven composite fabric is provided that contains one or more abraded (e.g., sanded) surfaces. In addition to improving the softness and handfeel of the nonwoven composite fabric, it has been unexpectedly discovered that abrading such a fabric may also impart excellent liquid handling properties (e.g., absorbent capacity, absorbent rate, wicking rate, etc.), as well as improved bulk and capillary tension.
A method for detecting a microorganism or class of microorganisms is provided. More specifically, the method employs an array that contains a plurality of discrete regions (referred to as "addresses") spaced apart on a solid support in a predetermined pattern. The addresses are selected so that the array provides a distinct spectral response (e.g., pattern of colors) or "fingerprint" for a particular microorganism or class of microorganisms. For example, the array may provide a certain spectral response in the presence of one microorganism or class of microorganisms (e.g., gram-negative bacteria), but provide a completely different spectral response in the presence of another microorganism or class of microorganisms (e.g., gram-positive bacteria). Detection of the spectral response provided by the array may thus allow for differentiation between microorganisms.
A composite fabric comprising a necked and creped spunbond nonwoven web of monocomponent fibers hydraulically entangled with a fibrous component that comprises cellulosic fibers. The nonwoven web contains thermoplastic fibers and the fibrous component comprises greater than about 50% by weight of the fabric.
