A laminated composite suitable for use in medical products such as tapes and wraps. The composite includes, for example, a first nonwoven fiber layer, an elastic layer, a melt blown adhesive fiber layer, and a second nonwoven fiber layer. A scrim layer serves as a deadstop, or stretch limit, to prev
A laminated composite suitable for use in medical products such as tapes and wraps. The composite includes, for example, a first nonwoven fiber layer, an elastic layer, a melt blown adhesive fiber layer, and a second nonwoven fiber layer. A scrim layer serves as a deadstop, or stretch limit, to prevent over stretching. The non-woven fiber layer(s) and/or the scrim layer form suitable loops for a hook and loop fastening system. The scrim layer in some embodiments is employed to make the composite finger tearable. The melt blown adhesive layer, nonwoven web layer and elastic layer form a breathable, porous elastic composite. Methods of manufacturing the composite are also disclosed.
대표청구항▼
1. A method of making an elastic laminate composite, comprising the steps of:providing a melt blowing apparatus comprising a die and a rotating collector drum;providing a first nonwoven web overlaying the collector drum, wherein the nonwoven web comprises a material selected from the group consistin
1. A method of making an elastic laminate composite, comprising the steps of:providing a melt blowing apparatus comprising a die and a rotating collector drum;providing a first nonwoven web overlaying the collector drum, wherein the nonwoven web comprises a material selected from the group consisting of a melt blown nonwoven material, a spunbond nonwoven material, a spun laced nonwoven material, a staple carded web, an air laid web and a wet laid web;providing a scrim overlaying the nonwoven web and the collector drum comprising spaced-apart filaments oriented substantially in the machine direction that are perpendicular to spaced-apart filaments oriented substantially in the cross direction;providing a series of substantially parallel, spaced-apart elastic filaments overlaying the nonwoven web and scrim on the collector drum, wherein the elastic filaments are oriented substantially in the machine direction and wherein the elastic filaments are stretched at least 50% beyond their relaxed length;advancing the first nonwoven material, scrim and the overlaying stretched elastic filaments to a position beneath the melt blowing die by rotating the collector drum,melt blowing fibers comprising a pressure-sensitive adhesive from the die into the elastic filaments;providing a second nonwoven web downstream from the die wherein the second nonwoven web comprises a material selected from the group consisting of a melt blown nonwoven material, a spunbond nonwoven material, a spun laced nonwoven material, a staple carded web, an air laid web and a wet laid web;pressure laminating the second nonwoven web onto the blown fiber adhesive, the elastic filaments and the first nonwoven web, by advancing the layers through a nip formed between the collector drum and a calender roll to form an elastic laminate composite comprising the first nonwoven web, the elastic filaments, the blown fiber pressure-sensitive adhesive web and the second nonwoven web; andallowing the stretched elastic filaments to relax and collecting the elastic laminate composite on a winder roll. 2. A method according to claim 1 wherein the elastic filaments are stretched between 50-300 percent. 3. A method according to claim 1 further comprising forming a plurality of hooks on the elastic laminate composite. 4. A method according to claim 1 wherein the step of providing a first nonwoven web includes forming a plurality of stems on die first nonwoven web. 5. A method according to claim 4 wherein the step of forming a plurality of stems on the first nonwoven web comprises:providing discrete quantities of a polymeric material at a temperature above its softening point;fusing the discrete quantities of the polymeric material to the first nonwoven web; andforming a plurality of stems in each of the discrete quantities of the polymeric material. 6. A method according to claim 5, wherein fusing the discrete quantities of polymeric material to the first nonwoven web occurs simultaneously with forming a plurality of stems in each of the discrete quantities of polymeric material. 7. A method according to claim 5, wherein the discrete quantities of polymeric material are provided by extruding molten polymer in a form selected from intermittent quantities and continuous ribbons. 8. A method according to claim 5, further comprising deformation of the stems with a heated surface to produce an enlarged end on the stems. 9. A method according to claim 5, further comprising re-orienting the stems with a heated surface. 10. A method according to claim 4, wherein the first nonwoven web is formed of polymeric material having a softening point, the step of forming a plurality of stems on the first nonwoven web comprises:maintaining the polymeric material of the first nonwoven web at a temperature above its softening point;providing a tool having a surface with a plurality of stem-forming holes configured in discrete regions; andpressing the first nonwoven web against the tool surface under pressur e to form regions of stems on the surface of the web. 11. A method of claim 10, wherein the discrete regions of stem-forming holes are formed by masking a portion of the stem-forming holes in the tool. 12. A method according to claim 10, further comprising deformation of the stems with a heated surface to produce a disk-shaped end on the stems. 13. A method of claim 10, wherein between 5 and 25 percent of the surface area of the tool is occupied by the stem-forming holes. 14. A method of making an elastic laminate composite, comprising the steps of:providing a melt blowing apparatus comprising a die and a rotating collector drum;providing a scrim overlaying the collector drum comprising spaced-apart filaments oriented substantially in the machine direction that are perpendicular to spaced-apart filaments oriented substantially in the cross direction;advancing to scrim to a position beneath the melt blowing die by rotating the collector drum;melt blowing fibers comprising adhesive from the die onto the scrim;providing a series of substantially parallel, spaced-apart elastic filaments overlaying the scrim and adhesive on the collector drain, wherein the elastic filaments are oriented substantially in the machine direction and wherein the elastic filaments are stretched at least 50% beyond their relaxed length;providing a nonwoven web overlaying the scrim, adhesive fiber, elastic filament composite on the collector drum, wherein the nonwoven web comprises a material selected from the group consisting of a melt blown nonwoven material, a spunbond nonwoven material, a spun laced nonwoven material, a staple carded web, an air laid web and a wet laid web;pressure laminating the resulting composite web by advancing the layers through a nip formed between the collector drum and a calendar roll to form an elastic laminate composite comprising a scrim, the blown fiber adhesive web, the elastic filaments and the nonwoven web; andallowing the stretched elastic filaments to relax and collecting the elastic laminate composite on a winder roll. 15. The method of claim 14 wherein the step of providing a nonwoven web includes forming a plurality of stems on the nonwoven web.
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