An elastic laminate is provided including outer facing layers of a fabric and, located between the outer facing layers, a series of individual, spaced apart strips of elastic film extending continuously along the direction of elasticity. The film strips are formed by a controlled tearing of a continuous film while the film is biaxially stretched and bonded to the fabric facings. The fabric facings have gathers formed therein that allow the elastic laminate to stretch at least to the extent that the gathers can be pulled flat.

The present invention is directed to novel, improved, modified or treated microporous membranes for use in textile related applications and which are preferably composed of two or more dissimilar porous membrane or material layers laminated together using heat, compression and/or adhesives. The preferred inventive laminated composite microporous membrane is modified using a technique or treatment such as microcreping to introduce permanent small, regularly spaced, crepes, profiles, compactions, pleats, or wrinkles into the laminated composite microporous membrane for the purpose of improving mechanical strength, elasticity and/or resiliency. In addition, the inventive microcreped microporous laminated membrane more preferably has significantly improved hand or softness, has next-to-the-skin softness, and/or is quiet without crinkling noises during movement, which may be desired performance properties or characteristics of or in textile garments, materials or applications.

The present invention is directed to novel, improved, modified or treated microporous membranes for use in textile related applications and which are preferably composed of two or more dissimilar porous membrane or material layers laminated together using heat, compression and/or adhesives. The preferred inventive laminated composite microporous membrane is modified using a technique or treatment such as microcreping to introduce permanent small, regularly spaced, crepes, profiles, compactions, pleats, or wrinkles into the laminated composite microporous membrane for the purpose of improving mechanical strength, elasticity and/or resiliency. In addition, the inventive microcreped microporous laminated membrane more preferably has significantly improved hand or softness, has next-to-the-skin softness, and/or is quiet without crinkling noises during movement, which may be desired performance properties or characteristics of or in textile garments, materials or applications.

The invention aims at providing a light long fiber nonwoven fabric having a sufficient strength, on which irregularly uneven wrinkles (or crimps) having a large difference in height (bulkiness). It also aims at providing a laminate of fabrics including the long fiber nonwoven fabric. The long fiber nonwoven fabric is a long fiber nonwoven fabric formed from a long fiber, on which irregularly uneven wrinkles having a large difference in height are formed. The laminate of fabrics includes the long fiber nonwoven fabric (the inner layer) and a first fabric (a first outer layer) laminated on one side of the long fiber nonwoven fabric, wherein a first space is formed between the long fiber nonwoven fabric (the inner layer) and the first fabric (first outer layer).

Articles with thin caliper melt coatings of high molecular weight, high viscosity materials and methods of making such coatings.