Tissues are provided as multi-ply tissue products having greater tactile sensation and resiliency in hand. Improved tissues may have a thickened and reduced density middle layer. The tissues may serve as applicators for chemical agents to be released during use of the tissue. A tissue having an impr
Tissues are provided as multi-ply tissue products having greater tactile sensation and resiliency in hand. Improved tissues may have a thickened and reduced density middle layer. The tissues may serve as applicators for chemical agents to be released during use of the tissue. A tissue having an improved tactile impression to the consumer, with enhanced resilience and high external bulk is disclosed. In one embodiment, a multi-ply structure having at least three plies is desirable. A middle or intermediate ply is comprised an increased thickness and a greater bulk is employed. In general, the exterior plies of the tissue are smooth and desirable to the consumer.
대표청구항▼
What is claimed is: 1. A composite tissue structure, comprising: at least three webs, the three webs comprising: (a) a permeable first outer web containing pulp fibers; (b) at least one middle web; (c) a permeable second outer web containing pulp fibers, the middle web being positioned between the
What is claimed is: 1. A composite tissue structure, comprising: at least three webs, the three webs comprising: (a) a permeable first outer web containing pulp fibers; (b) at least one middle web; (c) a permeable second outer web containing pulp fibers, the middle web being positioned between the first and second outer webs; and (d) wherein the middle web has a thickness greater than the thickness of either the first or the second outer web, further wherein the middle web comprises a bulk that is greater than the bulk of either the first or second outer web, the middle web comprising an uncreped through-air-dried tissue. 2. A composite tissue structure as defined in claim 1 in which the middle web provides a corrugated-like structure providing increased bulk to the composite tissue structure. 3. A composite tissue structure as defined in claim 1 in which the tissue is calendered. 4. A composite tissue structure as defined in claim 1 in which the middle web further comprises activated carbon. 5. A composite tissue structure as defined in claim 1, wherein the middle web has a thickness of from about 0.01 cm to about 1 cm. 6. A composite tissue structure as defined in claim 1, wherein the middle web has a density less than the first and second outer webs. 7. A composite tissue structure as defined in claim 1, wherein the first outer web and the second outer web both comprise wet pressed tissues. 8. A composite tissue structure as defined in claim 1, wherein the middle web has a thickness that is at least 1.3 times the thickness of both the first outer web and the second outer web. 9. A composite tissue structure as defined in claim 1, wherein at least one of the first and second outer webs comprises a creped web. 10. A composite tissue structure as defined in claim 1, wherein the first and second outer webs comprise creped webs. 11. A tissue, comprising: at least three webs, at least one of the webs comprising a throughdried paper web, the three webs including: (a) a permeable first outer web containing pulp fibers; (b) at least one middle web; (c) a second outer web containing pulp fibers, the second outer web lying adjacent the middle web or webs, wherein the middle web is between the first outer web and the second outer web; (d) wherein the middle web has a thickness and bulk greater than the outer webs, the middle web comprising an uncreped through-air-dried tissue; (e) further wherein the first outer, middle, and second outer webs are joined to form at least a three web tissue; and (f) the tissue having at least one web that received a chemical enhancement. 12. A tissue as defined in claim 11 in which the chemical enhancement comprises foam applied to the middle web. 13. A tissue as defined in claim 11 in which the chemical enhancement comprises activated carbon applied to the middle web. 14. A tissue as defined in claim 11, wherein the middle web has a thickness of from about 0.01 cm to about 1 cm. 15. A tissue as defined in claim 11, wherein the middle web has a density less than the first and second outer webs. 16. A tissue as defined in claim 11, wherein the middle web has a thickness that is at least 1.3 times the thickness of both the first outer web and the second outer web. 17. The tissue of claim 11 in which the tissue is calendered. 18. A tissue as defined in claim 11 in which at least one of the first and second outer webs comprises a creped web. 19. A tissue as defined in claim 11 in which the first and second outer webs comprise creped webs. 20. A method of manufacturing a tissue having at least three separately formed webs, the method comprising: (a) providing a permeable first outer web containing pulp fibers; (b) providing at least one thick middle web having greater bulk than the first outer web, the middle web comprising an uncreped through-air-dried tissue; (c) providing a permeable second outer web containing pulp fibers; (d) administering to the middle web or webs one or more chemical agents selected from the following agents: activated carbon, antibacterial agents, and foam; and (e) joining the first outer web, middle webs/web, and second outer web together to form a tissue. 21. A method as defined in claim 20, further comprising the step of calendering the tissue after the first outer web, the middle webs/web and the second outer web are joined together. 22. A method as defined in claim 20, wherein at least one of the first and second outer webs comprises a creped web. 23. A method as defined in claim 20, wherein the first outer web and the second outer web comprise creped webs.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (85)
Sultze Rolland F. (Everett WA) Howard Fred B. (Gig Harbor WA) Graef Peter A. (Tacoma WA), A densified absorbent web of cross-linked high-bulk fiber.
Georger William A. (Dunwoody GA) Jones Mark F. (Huntersville NC) Kopacz Thomas J. (Omro WI) Zelazoski Gregory A. (Woodstock GA), Abrasion resistant fibrous nonwoven composite structure.
Hada Frank Stephen ; Hermans Michael Alan ; Tomsovic Charles Robert ; Lange David V. ; Kanitz Roger A. ; Hauser Richard D. ; Murry Patrick W. ; Rounds Doug A. ; Clarke Robert L., Air press for dewatering a wet web.
Chiu Kai F. (Brandon MS) Evans David T. (Brandon MS) Rietvelt Antonius F. (Brandon MS) Wendt Greg A. (Neenah WI), Apparatus for making soft tissue products.
Marinack Robert J. (Oshkosh WI) Awofeso Anthony O. (Appleton WI) Harper Frank D. (Neenah WI) Kershaw Thomas N. (Neenah WI), Biaxially undulatory tissue and creping process using undulatory blade.
Marinack Robert J. (Oshkosh WI) Awofeso Anthony O. (Appleton WI) Harper Frank D. (Neenah WI) Kershaw Thomas N. (Neenah WI), Biaxially undulatory tissue and creping process using undulatory blade.
Marinack Robert J. (Oshkosh WI) Awofeso Anthony O. (Appleton WI) Harper Frank D. (Neenah WI) Kershaw Thomas N. (Neenah WI), Biaxially undulatory tissue and creping process using undulatory blade.
Petrovich John P. (Chesterfield MO) Taylor David L. (St. Louis MO), Cellulosic paper containing the reaction product of a dihaloalkane alkylene diamine adduct and epihalohydrin.
Pilosof David (Cincinnati OH) Cappel Jerome P. (Cincinnati OH) Geis Philip A. (West Chester OH) McCarty Mark Lee (Loveland OH) Trinh Toan (Maineville OH) Zwerdling Susan S. (Wyoming OH), Fabric treating composition containing beta-cyclodextrin and essentially free of perfume.
Kershaw Thomas N. (Neenah WI) Awofeso Anthony O. (Appleton WI) Harper Frank D. (Neenah WI) Bhat Dinesh M. (Neenah WI) Dwiggins John H. (Neenah WI) Ahrens Frederick W. (Hortonville WI) Janda Bruce W. , High softness embossed tissue.
Chen Shan Liang ; Hermans Michael Alan ; Hu Sheng-Hsin ; Kamps Richard Joseph ; Lindsay Jeffrey Dean, Low density resilient webs and methods of making such webs.
Scattolino Thomas F. (Milmont Park PA) Stern Howard J. (Vineland NJ) Trumball John G. (Lima PA) Wolkowicz Richard I. (Turnersville NJ), Method for making a strong, bulky, absorbent paper sheet using restrained can drying.
Hermans Michael Alan ; Liang-Chen Shan ; Chen Fung-jou ; Druecke Frank Gerald ; Gusky Robert Irving ; Hada Frank Stephen ; Kamps Richard Joseph ; Tomsovic Charles Robert, Method of dewatering wet web using an integrally sealed air press.
Wendt Greg Arthur (Neenah WI) Chiu Kai F. (Brandon MI) Burazin Mark Alan (Appleton WI) Farrington ; Jr. Theodore Edwin (Appleton WI) Heaton David Alan (Woodstock GA), Method of making soft tissue products.
Kemp Clifford B. (Cincinnati OH), Multi-ply absorbent wiping product having relatively inextensible center ply bonded to highly extensible outer plies.
Ostendorf Ward W. (West Chester OH) Kelly Stephen R. (Independence KY) Trokhan Paul D. (Hamilton OH) Phan Dean V. (West Chester OH), Multi-ply facial tissue paper product comprising chemical softening compositions and binder materials.
Colton John R. (Freehold NJ) Scordo Dominick (Middletown NJ) Simmons David M. (Howell NJ), Multilocation video conference terminal including controllable conference location reconfiguration.
Trokhan Paul D. (Hamilton OH) Phan Dean V. (West Chester OH), Paper structures having at least three regions including a transition region interconnecting relatively thinner regions.
Trokhan Paul Dennis ; Van Phan Dean, Paper structures having at least three regions including a transition region interconnecting relatively thinner regions.
Trokhan Paul Dennis ; Van Phan Dean, Paper structures having at least three regions including a transition region interconnecting relatively thinner regions.
Solarek Daniel B. (Somerville NJ) Jobe Patrick G. (Westfield NJ) Tessler Martin M. (Edison NJ), Polysaccharide derivatives containing aldehyde groups, their preparation from the corresponding acetals and use as paper.
Morgan ; Jr. George (Cincinnati OH) Rich Thomas F. (Cincinnati OH), Process for forming a layered paper web having improved bulk, tactile impression and absorbency and paper thereof.
Dyer John Collins (Cincinnati OH) DesMarais Thomas Allen (Cincinnati OH) Stone Keith Joseph (Fairfield OH) Seiden Paul (Cincinnati OH) Goldman Stephen Allen (Cincinnati OH) Retzsch Herbert Louis (Cin, Process for making thin-wet absorbent foam materials for aqueous body fluids.
Farrington ; Jr. Theodore Edwin (Appleton WI) Bahlman Julia Smith (Appleton WI) Burazin Mark Alan (Appleton WI) Chen Fung-jou (Appleton WI) Goerg Kristin Ann (Appleton WI) Hermans Michael Alan (Neena, Soft tissue.
Farrington ; Jr. Theodore Edwin ; Bahlman Julia Smith ; Burazin Mark Alan ; Chen Fung-jou ; Goerg Kristin Ann ; Hermans Michael Alan ; Makolin Robert John ; Rekoske Michael John, Soft tissue.
Bjorkquist David W. (Wyoming OH), Temporary wet strength resins with nitrogen heterocyclic nonnucleophilic functionalities and paper products containing s.
Brown-Skrobot Susan K. (Hamilton Square NJ) Hossain Shafi U. (Roswell GA) Smith Kenneth R. (Marietta GA) Kuenn Cary K. (Appleton WI), Virucidal composition, the method of use and the product therefor.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.