A container is formed to include an interior region and a mouth opening into the interior region. The container includes a floor and a side wall coupled to the floor to define the interior region between the floor and the side wall.
대표청구항▼
1. An insulative cup comprising a body including a sleeve-shaped side wall anda floor coupled to the body to define an interior region bounded by the sleeve-shaped side wall and the floor, wherein the body comprises a sheet comprising insulative cellular non-aromatic polymeric material configured to
1. An insulative cup comprising a body including a sleeve-shaped side wall anda floor coupled to the body to define an interior region bounded by the sleeve-shaped side wall and the floor, wherein the body comprises a sheet comprising insulative cellular non-aromatic polymeric material configured to provide means for enabling localized plastic deformation in at least one selected region of the body to provide a plastically deformed first material segment having a first density located in a first portion of the selected region of the body and a second material segment having a second density lower than the first density located in an adjacent second portion of the selected region of the body without fracturing the insulative cellular non-aromatic polymeric material so that a predetermined insulative characteristic is maintained in the body,wherein the plastically deformed first material segment is cellular and the second material segment is cellular,wherein a first of the selected regions of the body in which localized plastic deformation is enabled by the insulative cellular non-aromatic polymeric material is in the sleeve-shaped side wall and wherein the sleeve-shaped side wall includes an upright inner tab arranged to extend upwardly from the floor and configured to provide the first material segment having the first density in the first of the selected regions of the body, an upright outer tab arranged to extend upwardly from the floor and to mate with the upright inner tab along an interface therebetween, and an upright fence arranged to interconnect the upright inner and outer tabs and surround the interior region and configured to provide the second material segment having the second density in the first of the selected regions of the body and cooperate with the upright inner and outer tabs to form the sleeve-shaped side wall,wherein a second of the selected regions of the body in which localized plastic deformation is enabled by the insulative cellular non-aromatic polymeric material is in a rolled brim included in the body and coupled to an upper end of the sleeve-shaped side wall to lie in spaced-apart relation to the floor and to frame an opening into the interior region and wherein the rolled brim includes an inner rolled tab configured to provide the first material segment in the second of the selected regions of the body and coupled to an upper end of the upright outer tab included in the sleeve-shaped side wall, an outer rolled tab coupled to an upper end of the upright inner tab included in the sleeve-shaped side wall and to an outwardly facing exterior surface of the inner rolled tab, and a rolled lip arranged to interconnect oppositely facing side edges of each of the inner and outer rolled tabs and configured to provide the second material segment having the second density in the second of the selected region of the body and cooperate with the inner and outer rolled tabs to form the rolled brim,wherein a third of the selected regions of the body in which localized plastic deformation is enabled by the insulative cellular non-aromatic polymeric material is in a floor mount included in the body and coupled to a lower end of the sleeve-shaped side wall to lie in spaced-apart relation to the rolled brim and to the floor to support the floor in a stationary position relative to the sleeve-shaped side wall to form the interior region and wherein the floor mount includes a web-support ring coupled to the lower end of the sleeve-shaped side wall and configured to provide the second material segment having the second density in the third of the selected regions of the body, a floor-retaining flange coupled to the floor and arranged to be surrounded by the web-support ring, and a web arranged to interconnect the floor-retaining flange and the web-support ring and configured to provide the first material segment having the first density in the third of the selected regions of the body,wherein a fourth of the selected regions of the body in which localized plastic deformation is enabled by the insulative cellular non-aromatic polymeric material is in the floor-retaining flange of the floor mount, the floor-retaining flange includes an alternating series of upright thick and thin staves arranged in side-to-side relation to extend upwardly from the web toward the interior region bounded by the sleeve-shaped side wall and the floor, a first of the upright thick staves is configured to include a right side edge extending upwardly from the web toward the interior region, a second of the upright thick staves is configured to include a left side edge arranged to extend upwardly from the web toward the interior region and lie in spaced-apart confronting relation to the right side edge of the first of the upright thick staves, and a first of the upright thin staves is arranged to interconnect the right side edge of the first of the upright thick staves and the left side edge of the second of the upright thick staves and to cooperate with the left and right side edges to define therebetween a vertical channel, the first of the upright thin staves is configured to provide the first material segment in the fourth of the selected regions of the body, and the first of the upright thick staves is configured to provide the second material segment in the fourth of the selected regions of the body. 2. The insulative cup of claim 1, wherein the upright fence includes an upright left side edge and an upright right side edge arranged to lie in spaced-apart confronting relation to the upright left side edge and the upright outer tab is configured to have the first density and mate with the upright inner tab to establish a bridge arranged to interconnect the upright left and right side edges of the upright fence and formed of plastically deformed material having the first density. 3. The insulative cup of claim 2, wherein the upright fence has an inner surface bounding a portion of the interior region and an outer surface facing away from the interior region and surrounding the inner surface of the upright fence and cooperating with the inner surface of the upright fence to define a first thickness therebetween, the upright inner tab includes an inner surface bounding a portion of the interior region and an outer surface facing toward the upright outer tab, the upright outer tab includes an inner surface facing toward the interior region and mating with the outer surface of the upright inner tab to define the interface between the upright inner and outer tabs, and the upright outer tab further includes an outer face facing away from the upright inner tab, the inner and outer surfaces of the upright inner tab cooperate to define a second thickness therebetween that is about half of the first thickness, and the inner and outer surfaces of the upright outer tab cooperate to define a third thickness that is about half of the first thickness. 4. The insulative cup of claim 1, wherein each of the web and the web-support ring has an annular shape. 5. The insulative cup of claim 1, wherein each of the floor-retaining flange, the web, and the web-support ring includes an inner layer having an interior surface mating with the floor and an overlapping outer layer mating with an exterior surface of the inner layer. 6. The insulative cup of claim 1, wherein the floor includes a horizontal platform bounding a portion of the interior region and a platform-support member coupled to the horizontal platform and arranged to extend downwardly away from the interior region into a space provided between the floor-retaining flange and the web-support ring to mate with each of the floor-retaining flange and the web-support ring. 7. The insulative cup of claim 6, wherein the platform-support member has an annular shape and is arranged to surround the floor-retaining flange and lie in an annular space provided between the horizontal platform and the web. 8. The insulative cup of claim 6, wherein each of the floor-retaining flange, the web, and the web-support ring includes an inner layer having an interior surface mating with the floor and an overlapping outer layer mating with an exterior surface of the inner layer and the inner layer of each of the floor-retaining flange, the web, and the web-support ring is arranged to mate with the platform-support member. 9. The insulative cup of claim 1, wherein the insulative cellular non-aromatic polymeric materials comprises a polypropylene base resin having a high melt strength, a polypropylene homopolymer resin, at least one nucleation agent, and gas means for expanding the resins to reduce density. 10. An insulative cup comprising a body including a sleeve-shaped side wall anda floor coupled to the body to define an interior region bounded by the sleeve-shaped side wall and the floor, wherein the body comprises a sheet comprising insulative cellular non-aromatic polymeric material configured to provide means for enabling localized plastic deformation in at least one selected region of the body to provide a plastically deformed first material segment having a first density located in a first portion of the selected region of the body and a second material segment having a second density lower than the first density located in an adjacent second portion of the selected region of the body without fracturing the insulative cellular non-aromatic polymeric material so that a predetermined insulative characteristic is maintained in the body,wherein the plastically deformed first material segment is cellular and the second material segment is cellular,wherein the body further includes a rolled brim comprising the insulative cellular non-aromatic polymeric material, the rolled brim is coupled to an upper end of the sleeve-shaped side wall to lie in spaced-apart relation to the floor and to frame an opening into the interior region, and the rolled brim includes an inner rolled tab configured to provide the plastically deformed first material segment having the first density and to include oppositely facing left and right side edges and a rolled lip arranged to interconnect the oppositely facing left and right side edges of the inner rolled tab and configured to provide the second material segment having the second density,wherein the body further includes a floor-retaining flange comprising the insulative cellular non-aromatic polymeric material and wherein the floor-retaining flange is coupled to the floor and is formed to include an alternating series of upright thick and thin staves arranged in side-to-side relation to extend upwardly toward the interior region bounded by the sleeve-shaped side wall and the floor, a first of the upright thick staves is configured to include a right side edge extending upwardly toward the interior region, a second of the upright thick staves is configured to include a left side edge extending upwardly toward the interior region and lie in spaced-apart confronting relation to the right-side edge of the first of the upright thick staves, and a first of the upright thin staves is arranged to interconnect the left and right side edges to define therebetween a vertical channel, the first of the upright thin staves is configured to provide the plastically deformed first material segment, and the first of the upright thick staves is configured to provide the second material segment. 11. The insulative cup of claim 10, wherein the rolled brim further includes an outer rolled tab coupled to an outwardly facing surface of the inner rolled tab to provide an outer shell covering the inner rolled tab and formed of plastically deformed material having the first density. 12. The insulative cup of claim 10, wherein the body further includes a sleeve-shaped side wall comprising the insulative cellular non-aromatic polymeric material and the sleeve-shaped side wall includes an upright inner tab arranged to extend upwardly from the floor and configured to provide the plastically deformed first material segment having the first density, an upright outer tab arranged to extend upwardly from the floor and to mate with the upright inner tab along an interface therebetween, and an upright fence arranged to interconnect the upright inner and outer tabs and surround the interior region and configured to provide the second material segment having the second density. 13. The insulative cup of claim 10, wherein the body further includes a floor mount comprising the insulative cellular non-aromatic polymeric material and the floor mount includes a web-support ring coupled to a lower end of the sleeve-shaped side wall and configured to provide the second material segment having the second density, a floor-retaining flange coupled to the floor and arranged to be surrounded by the web-support ring, and a web arranged to interconnect the floor-retaining flange and the web-support ring and configured to provide the plastically deformed first material segment having the first density. 14. The insulative cup of claim 10, wherein the body further includes a floor mount comprising the insulative cellular non-aromatic polymeric material, the floor mount is coupled to a lower end of the sleeve-shaped side wall and to the floor to support the floor in a stationary position relative to the sleeve-shaped side wall to form the interior region, and the floor mount includes a floor-retaining flange coupled to the floor, a web-support ring coupled to the lower end of the sleeve-shaped side wall and arranged to surround the floor-retaining flange, and a web arranged to interconnect the floor-retaining flange and the web-support ring and configured to provide the plastically deformed first material segment having the first density, and the web-support ring is configured to provide the second material segment having the second density. 15. The insulative cup of claim 14, wherein each of the web and the web-support ring has an annular shape. 16. The insulative cup of claim 14, wherein each of the floor-retaining flange, the web, and the web-support ring includes an inner layer having an interior surface mating with the floor and an overlapping outer layer mating with an exterior surface of the inner layer. 17. The insulative cup of claim 14, wherein the floor includes a horizontal platform bounding a portion of the interior region and a platform-support member coupled to the horizontal platform and arranged to extend downwardly away from the interior region into a space provided between the floor-retaining flange and the web-support ring to mate with each of the floor-retaining flange and the web-support ring. 18. The insulative cup of claim 17, wherein the platform-support member has an annular shape and is arranged to surround the floor-retaining flange and lie in an annular space provided between the horizontal platform and the web. 19. The insulative cup of claim 17, wherein each of the floor-retaining flange, the web, and the web-support ring includes an inner layer having an interior surface mating with the floor and an overlapping outer layer mating with an exterior surface of the inner layer and the inner layer of each of the floor-retaining flange, the web, and the web-support ring is arranged to mate with the platform-support member.
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Bland David G. ; Stobby William G. ; Rose Gene D. ; Mork Steve W. ; Staples Thomas L. ; McCann Gordon D., Absorbent, extruded thermoplastic foams.
Nishikawa Shigeo,JPX ; Sugihara Eiichi,JPX ; Takedachi Masahiro,JPX ; Yorita Kaoru,JPX ; Inoue Haruo,JPX ; Shimada Yoko,JPX ; Eriguchi Michio,JPX, Addition method of supercritical carbon dioxide, and production process of expanded thermoplastic resin product by making use of the addition method.
Karjala, Teresa P.; Yalvac, Selim; Diehl, Charles F.; Cheung, Yunwa W.; Rickey, Cynthia L., Adhesive and marking compositions made from interpolymers of ethylene/α-olefins.
Karjala, Teresa P.; Yalvac, Selim; Diehl, Charles F.; Cheung, Yunwa W.; Rickey, Cynthia L., Adhesive and marking compositions made from interpolymers of ethylene/α-olefins.
Miller William P. (Meriden CT) Twigg Robert W. (Rockford IL), Apparatus and method for fabricating a flexible cylinder from multi-ply flexible web material having metal and plastic p.
Weaver, Laura B.; Batra, Ashish; Ansems, Patricia; Strandburg, Gary M.; Kalinkowski, Matthew J., Articles comprising nonpolar polyolefin and polyurethane, and methods for their preparation and use.
Markovich, Ronald P.; Elley-Bristow, Dale M.; Prieto, Miguel A.; Barry, Russell P.; Martinez, Felipe; Falla, Daniel J.; Damen, Julien H. J. M., Cap liners, closures and gaskets from multi-block polymers.
Markovich, Ronald P.; Elley Bristow, Dale M.; Prieto, Miguel A.; Barry, Russell P.; Martinez, Felipe; Falla, Daniel J.; Damen, Julien H. J. M., Cap liners, closures, and gaskets from multi-block polymers.
Sandstrom Erland R. ; Shanton Kenneth John ; Hartjes Timothy Paul, Carton having buckle-controlled brim curl and method and blank for forming the same.
Arriola, Daniel J.; Devore, David D.; Carnahan, Edmund M.; Hustad, Phillip D.; Kuhlman, Roger L.; Wenzel, Timothy T., Catalyst composition comprising shuttling agent for ethylene copolymer formation.
Arriola, Daniel J.; Carnahan, Edmund M.; Cheung, Yunwa Wilson; Devore, David D.; Graf, David D.; Hustad, Phillip D.; Kuhlman, Roger L.; Shan, Colin Li Pi; Poon, Benjamin C.; Roof, Gordon R.; Stevens, James C.; Stirn, Pamela J.; Wenzel, Timothy T., Catalyst composition comprising shuttling agent for ethylene multi-block copolymer formation.
Arriola, Daniel J.; Carnahan, Edmund M.; Cheung, Yunwa Wilson; Devore, David D.; Graf, David D.; Hustad, Phillip D.; Kuhlman, Roger L.; Shan, Colin Li Pi; Poon, Benjamin C.; Roof, Gordon R.; Stevens, James C.; Stirn, Pamela J.; Wenzel, Timothy T., Catalyst composition comprising shuttling agent for ethylene multi-block copolymer formation.
Chang,Andy C.; Weeks,Ronald J.; Peng,Hong; Doufas,Antonios K.; Cheung,Yunwa W., Compositions of ethylene/α-olefin multi-block interpolymer for elastic films and laminates.
Chang, Andy C.; Hoenig, Stephen M.; Cheung, Yunwa W.; Moldovan, Daniel G.; Liang, Wenbin; Diehl, Charles F., Compositions of ethylene/alpha-olefin multi-block interpolymer for elastic films and laminates.
Chang, Andy C.; Weeks, Ronald J.; Peng, Hong; Doufas, Antonios K.; Cheung, Yunwa W., Compositions of ethylene/alpha-olefin multi-block interpolymer for elastic films and laminates.
Chang, Andy C.; Weeks, Ronald J.; Peng, Hong; Doufas, Antonios K.; Cheung, Yunwa Wilson, Compositions of ethylene/alpha-olefin multi-block interpolymer for elastic films and laminates.
Chang, Andy C.; Hoenig, Stephen M.; Cheung, Yunwa W.; Moldovan, Daniel G.; Liang, Wenbin; Diehl, Charles F., Compositions of ethylene/α-olefin multi-block interpolymer for elastic films and laminates.
Chang, Andy C.; Hoenig, Stephen M.; Cheung, Yunwa W.; Moldovan, Daniel G.; Liang, Wenbin; Diehl, Charles F., Compositions of ethylene/α-olefin multi-block interpolymer for elastic films and laminates.
Hartjes, Timothy P.; Breining, Michael A.; Van Handel, Gerald J.; Brown, David C.; Malakhow, Walter, Container employing an inner liner for thermal insulation.
Hartjes,Timothy P.; Breining,Michael A.; Van Handel,Gerald J.; Brown,David C.; Malakhow,Walter, Container employing inner liner and vents for thermal insulation and methods of making same.
Breining Michael A. ; Malakhow Walter ; Curcio Anthony N., Container with indicia covering brim, blank for making such a container, and methods for making the container and blank.
Li Pi Shan, Colin; Hazlitt, Lonnie G.; Cheung, Yunwa W.; Poon, Benjamin C.; Hustad, Phillip D.; Kuhlman, Roger L.; Carnahan, Edmund M.; Qui, Xiahua; Taha, Angela N., Ethylene/α-olefins block interpolymers.
Poon, Benjamin C.; Cheung, Yunwa W.; Lai, Shih-Yaw; Sen, Ashish; Chen, Hongyu; Chiu, Yuen-Yuen D.; Patel, Rajen M.; Chang, Andy C.; Doufas, Antonios K.; Peng, Hong, Fibers made from copolymers of ethylene/α-olefins.
Poon, Benjamin C.; Cheung, Yunwa W.; Lai, Shih-Yaw; Sen, Ashish; Chen, Hongyu; Chiu, Yuen-Yuen D.; Patel, Rajen M.; Chang, Andy C.; Doufas, Antonios K.; Peng, Hong, Fibers made from copolymers of ethylene/α-olefins.
Poon, Benjamin C.; Cheung, Yunwa W.; Lai, Shih-Yaw; Sen, Ashish; Chen, Hongyu; Chiu, Yuen-Yuen D.; Patel, Rajen M.; Chang, Andy C.; Doufas, Antonios K.; Peng, Hong, Fibers made from copolymers of ethylene/α-olefins.
Liang, Wenbin; Cheung, Yunwa W.; Diehl, Charles F.; Kummer, Kyle G., Filled polymer compositions made from interpolymers of ethylene/α-olefins and uses thereof.
Sasaki, Takayuki; Ito, Takashi; Toyota, Yoshinori; Kumagai, Naohiro, Flexible polyurethane foam, process for its production, and seat for automobile using the flexible polyurethane foam.
DeNicola ; Jr. Anthony J. (Newark DE) Smith Jeanine A. (West Chester PA) Felloni Massimo (Ferrara ITX), Foamed articles comprising high melt strength propylene polymer material.
Wu, Jesse; Han, James H.; Jacoby, Phil; Novak, Mark C.; Metaxas, Constantine; Choi-Feng, Chin; Mills, Ray O., Foamed polypropylene sheet having improved appearance and a foamable polypropylene composition therefor.
Fredricks Richard E. ; Breining Michael A. ; Pucci William R. ; McCarthy Donald C. ; Brown David C. ; Segan Richard A. ; Malakhow Walter, Heat insulating paper cups.
Fredricks, Richard E.; Breining, Michael A.; Pucci, William R.; McCarthy, Donald C.; Brown, David C.; Segan, Richard A.; Malakhow, Walter, Heat insulating paper cups.
Walton, Kim L.; Marchand, Gary R.; Dhodapkar, Shrikant; Kapur, Mridula; Wu, Shaofu, Impact modification of thermoplastics with ethylene/α-olefin interpolymers.
Kiss, Gabor; Galuska, Alan Anthony; Reynolds, Jr., Robert Patrick; Chu, John W.; Chapman, Bryan R.; Brant, Patrick; Datta, Sudhin, In-line process for producing plasticized polymers and plasticized polymer blends.
Ylitalo, Caroline M.; Boyd, Scott A.; Carls, Joseph C.; Carlson, Eugene H.; Haas, Christopher K.; Jonza, James M.; Pellerite, Mark J.; Watkins, Robert F., Ink receptive article.
Hughes, Morgan M.; Cheung, Yunwa W.; Gupta, Pankaj; Gathers, John J., Interpolymers of ethylene/α-olefins blends and profiles and gaskets made therefrom.
Andersen Per Just ; Hodson Simon K., Laminated articles of manufacture fashioned from sheets having a highly inorganically filled organic polymer matrix.
Cress Allan K. (Baltimore MD) Busse Charles E. (Jarrettsville MD), Method and apparatus for manufacturing foam plastic containers by use of a tubular forming mandrel.
Burnham Theodore A. ; Cha Sung W. ; Walat Robert H. ; Kim Roland Y. ; Anderson Jere R. ; Stevenson James F. ; Suh Nam P. ; Pallaver Matthew, Method and apparatus for microcellular polymer extrusion.
Burnham, Theodore A.; Cha, Sung W.; Walat, Robert H.; Kim, Roland Y.; Anderson, Jere R.; Stevenson, James F.; Suh, Nam P.; Pallaver, Matthew, Method and apparatus for microcellular polymer extrusion.
Blizard Kent ; Tupil Srinath ; Malavich William, Method and apparatus for microcellular polypropylene extrusion, and polypropylene articles produced thereby.
Busse Charles E. (Jarrettsville MD), Method and apparatus for sealing the sidewall and bottom seam portions of two-piece containers during manufacture thereo.
Park Chul B.,CAX ; Suh Nam P. ; Baldwin Daniel F., Method for providing continuous processing of microcellular and supermicrocellular foamed materials.
Park Chul B.,CAX ; Suh Nam P. ; Baldwin Daniel F., Method for providing continuous processing of microcellular and supermicrocellular foamed materials.
Tusim Martin H. ; Cornell Martin C. ; Suh Kyung W. ; Christenson Christopher P. ; Park Chung P.,DEX, Method of forming a thermoformable polypropylene foam sheet.
Hartjes, Timothy P.; Breining, Michael A.; Van Handel, Gerald J.; Brown, David C.; Malakhow, Walter, Method of making a container employing inner liner and vents for thermal insulation.
Cha Sung W. (Cambridge MA) Suh Nam P. (Sudbury MA) Baldwin Daniel F. (Medford MA) Park Chul B. (Cambridge MA), Microcellular thermoplastic foamed with supercritical fluid.
Karen A. Sheppard ; Jay Kin Keung ; Francis Tran The-Dzuy ; Joseph E. Brew ; Benoit Ambroise BE, Multi-layer oriented heat sealable film structure of improved machinability.
Maxwell Earl G. (9108 Halls Ferry Road St. Louis MO 63136), Nestable non-corrosive container for pressurized beverages and processes for manufacture and handling thereof.
Miyagawa, Toshio; Hirose, Fuminobu; Senda, Kenichi, Polyhydroxyalkanoate-based resin foamed particle, molded article comprising the same and process for producing the same.
Hoenig, Stephen M.; Cheung, Yunwa W.; Moldovan, Daniel G.; Liang, Wenbin; Cheung, Chuiwah A.; Lewis, Ray A.; Newton, John, Polymer blends from interpolymers of ethylene/α-olefins and flexible molded articles made therefrom.
Cheung, Yunwa Wilson; Dobreski, David V.; Turner, Richard; Wheeler, Mark; Handa, Y. Paul, Polymer blends of biodegradable or bio-based and synthetic polymers and foams thereof.
Leser, Chris K.; Driskill, Philip A.; Wallace, Charles T.; Euler, John B.; Paladino, Jason J.; Maravich, Milan C.; Davis, Daniel O.; Mann, Jeffrey A.; Bowlds, Randy A.; Contrada, Svetlana I., Polymeric material for an insulated container.
Ansems, Patricia; Batra, Ashish; Weaver, Laura Bauerle; Effler, Lawrence J.; Silvis, H. Craig; Lakrout, Hamed; Mergenhagen, Laura K., Polyolefin compositions and articles prepared therefrom, and methods for making the same.
Lin, Chon Yie; Chapman, Bryan Robert; Cheng, Chia Yung; Ferry, William Michael; Kelly, Michael Brian; Lundmark, Bruce Robert; Li, Wen, Polypropylene based fibers and nonwovens.
Hayashi Motoshige (Nara JPX) Doi Tsuneo (Nara JPX) Matsuoka Kiyotaka (Nara JPX), Polypropylene resin foamed sheet for thermoforming and process for producing the same.
Greene William J. (Webster NY) Matoushek Robert J. (Rochester NY) Gorman Harry A. (Rochester NY) Weigand John G. (Churchville NY), Process for decurling a strip of photosensitive material.
Leser, Chris K.; Wallace, Charles T.; Driskill, Philip A.; Euler, John B.; Paladino, Jason J.; Maravich, Milan C.; Davis, Daniel O.; Mann, Jeffrey A.; Bowlds, Randy A.; Contrada, Svetlana I., Process for forming an insulated container having artwork.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I, Process for forming an insulated container having artwork.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I, Process for forming an insulated container having artwork.
Shan, Colin Li Pi; Hazlitt, Lonnie G.; Cheung, Yunwa Wilson; Poon, Benjamin C.; Hustad, Phillip D.; Kuhlman, Roger L.; Carnahan, Edmund M.; Qiu, XiaoHua; Taha, Angela N., Propylene/α-olefins block interpolymers.
Watanabe, Hiromi; Kuwahara, Isao, Stock material for container body of insulating paper container, insulating paper container and process for making them.
Watanabe, Hiromi; Kuwahara, Isao, Stock material for container body of insulating paper container, insulating paper container and process for making them.
Carr John (Phoenixville PA) Kucherovsky Joseph (Philadelphia PA) Peppiatt Harry R. (Doylestown PA), Thermoformable laminate material with registered print and method of making the same.
Sukekuni Ito JP; Keiichi Honjo JP; Masami Imada JP; Manabu Kudoh JP, Thermoplastic skin sheet for interior parts of automobiles and method for producing such skin sheet.
Callahan William S. (86 S. Silver La. McKees Rocks PA 15136) Shields Karl B. (282 Alamo Dr. Pittsburgh PA 15241), Waterproof thermal resistant packaging wrap.
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