Patents by Inventor John D. Stelter
John D. Stelter has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20140024279Abstract: A dimensionally stable bonded nonwoven fibrous web formed by extruding melt blown fibers of a polymeric material, collecting the melt blown fibers as an initial nonwoven fibrous web, and annealing the initial nonwoven fibrous web with a controlled heating and cooling operation, is described. The bonded nonwoven fibrous web shrinkage is typically less than 4 percent relative to the initial nonwoven fibrous web.Type: ApplicationFiled: September 20, 2013Publication date: January 23, 2014Applicant: 3M INNOVATIVE PROPERTIES COMPANYInventors: Michael R. Berrigan, John D. Stelter, Ruth A. Ebbens, Sian F. Fennessey
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Patent number: 8591683Abstract: A nonwoven fibrous web comprising a matrix of continuous meltspun fibers bonded to a coherent self-sustaining form, and separately prepared microfibers dispersed among the meltspun fibers. The microfibers may have median diameters less than one or two micrometers. A method for preparing such a nonwoven fibrous web comprises establishing a stream of continuous oriented meltspun fibers having a longitudinal axis, establishing a stream of meltblown microfibers that exit a meltblowing die at a point near the stream of meltspun fibers, the meltblown stream being aimed to merge with the meltspun stream and having a longitudinal axis that forms an angle of between 0 and 90 degrees to the longitudinal axis of the meltspun stream, capturing the meltblown fibers in the stream of meltspun fibers, and collecting the merged stream as a web on a collector spaced near the intersection point of the meltspun and meltblown streams.Type: GrantFiled: June 25, 2010Date of Patent: November 26, 2013Assignee: 3M Innovative Properties CompanyInventors: Andrew R. Fox, John D. Stelter, Timothy J. Lindquist
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Patent number: 8580182Abstract: A molded respirator is made from a monocomponent monolayer nonwoven web containing a bimodal mass fraction/fiber size mixture of intermingled continuous monocomponent polymeric microfibers and larger size fibers of the same polymeric composition. The respirator is a cup-shaped porous monocomponent monolayer matrix whose matrix fibers are bonded to one another at least some points of fiber intersection. The matrix has a King Stiffness greater than 1 N. The respirator may be formed without requiring stiffening layers, bicomponent fibers, or other reinforcement in the filter media layer.Type: GrantFiled: November 19, 2010Date of Patent: November 12, 2013Assignee: 3M Innovative Properties CompanyInventors: Seyed A. Angadjivand, Andrew R. Fox, John D. Stelter, Timothy J. Lindquist, John M. Brandner, James E. Springett
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Publication number: 20130288556Abstract: Dimensionally stable nonwoven fibrous webs include a plurality of fibers formed from one or more thermoplastic polyesters and an antishrink additive, preferably in an amount greater than 0% and no more than 10% by weight of the web. The webs have at least one dimension which decreases by no greater than 12% in the plane of the web when heated to a temperature above a glass transition temperature of the fibers. The webs may be used as wipes.Type: ApplicationFiled: October 14, 2011Publication date: October 31, 2013Applicant: 3M INNOVATIVE PROPERTIES COMPANYInventors: Eric M. Moore, John D. Stelter, Michael R. Berrigan, Francis E. Porbeni, Matthew T. Scholz, Korey W. Karls, Sian F. Fennessey, Scott J. Tuman, Cordell M. Hardy, Yifan Zhang
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Patent number: 8512434Abstract: A molded respirator is made from a monocomponent monolayer nonwoven web of continuous charged monocomponent meltspun partially crystalline and partially amorphous oriented fibers of the same polymeric composition that have been bonded to form a coherent and handleable web which further may be softened while retaining orientation and fiber structure. The respirator is a cup-shaped porous monocomponent monolayer matrix whose matrix fibers are bonded to one another at at least some points of fiber intersection. The matrix has a King Stiffness greater than 1 N. The respirator may be formed without requiring stiffening layers, bicomponent fibers, or other reinforcement in the filter media layer.Type: GrantFiled: February 2, 2011Date of Patent: August 20, 2013Assignee: 3M Innovative Properties CompanyInventors: John D. Stelter, Andrew R. Fox, Seyed A. Angadjivand
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Patent number: 8506669Abstract: A pleated filter is made from a monocomponent monolayer nonwoven web of continuous monocomponent meltspun partially crystalline and partially amorphous oriented fibers of the same polymeric composition that are bonded to form a coherent and handleable web having a Gurley Stiffness of at least 100 mg and which further may be softened while retaining orientation and fiber structure. Rows of pleats are formed in the nonwoven web, and the web is cut to a desired size and shape to provide a pleated filter element containing a self-supporting porous monocomponent monolayer matrix of fibers bonded to one another at least some points of fiber intersection and having an average initial submicron efficiency of at least 15% at a 1.52 meters/sec face velocity. The filter element is deformation resistant without requiring stiffening layers, bicomponent fibers, adhesive or other reinforcement in the filter media layer.Type: GrantFiled: April 13, 2011Date of Patent: August 13, 2013Assignee: 3M Innovative Properties CompanyInventors: Andrew R. Fox, John D. Stelter, Seyed A. Angadjivand, William T. Fay, Michael R. Berrigan, Douglas C. Sundet
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Patent number: 8372175Abstract: A pleated filter is made from a monocomponent monolayer nonwoven web containing a bimodal mass fraction/fiber size mixture of intermingled larger size and smaller size continuous monocomponent polymeric fibers of the same polymeric composition. Rows of pleats are formed in the nonwoven web, and the pleated web is cut to a desired size and shape to provide a filter element containing a self-supporting porous monocomponent monolayer matrix of fibers bonded to one another at least some points of fiber intersection and having an average initial submicron efficiency of at least 15% at a 1.52 meters/sec face velocity. The filter element is deformation resistant without requiring stiffening layers, bicomponent fibers or other reinforcing measures in the filter media layer.Type: GrantFiled: May 27, 2010Date of Patent: February 12, 2013Assignee: 3M Innovative Properties CompanyInventors: Andrew R. Fox, John D. Stelter, Seyed A. Angadjivand, Timothy J. Lindquist, John M. Brandner, James E. Springett
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Patent number: 8282753Abstract: A protection sheet and method of protecting a substrate is disclosed. In an embodiment, the protection sheet comprises an adhesive coated nonwoven material. In an embodiment a surface of the protection sheet captures and retains paint overspray, dust, dirt and other contaminants so as to provide a cleaner paint job. In an embodiment the protection sheet may be laminated to a second nonwoven or woven material to allow clean removal after extended use. The protection sheet may be used to protect horizontal or vertical substrates, and is particularly suited to protect the surfaces of a paint booth used in automotive spray-painting operations.Type: GrantFiled: December 22, 2011Date of Patent: October 9, 2012Inventors: John D. Stelter, Troy K. Ista, Thomas J. Reid, Patrick J. Hager, Kevin M. Eliason
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Patent number: 8240484Abstract: Herein are disclosed high loft spunbonded webs that are substantially free of crimped fibers and gap-formed fibers. The webs exhibit a solidity of from less than 8.0% to about 4.0% and a ratio of Effective Fiber Diameter to Actual Fiber Diameter of at least 1.40. Also disclosed are methods of making such webs.Type: GrantFiled: March 15, 2012Date of Patent: August 14, 2012Assignee: 3M Innovative Properties CompanyInventors: Andrew R. Fox, John D. Stelter, Michael R. Berrigan, Jonathan M Lise
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Publication number: 20120171913Abstract: Herein are disclosed high loft spunbonded webs that are substantially free of crimped fibers and gap-formed fibers. The webs exhibit a solidity of from less than 8.0% to about 4.0% and a ratio of Effective Fiber Diameter to Actual Fiber Diameter of at least 1.40. Also disclosed are methods of making such webs.Type: ApplicationFiled: March 15, 2012Publication date: July 5, 2012Inventors: Andrew R. Fox, John D. Stelter, Michael R. Berrigan, Jonathan M. Lise
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Patent number: 8162153Abstract: Herein are disclosed high loft spunbonded webs that are substantially free of crimped fibers and gap-formed fibers. The webs exhibit a solidity of from less than 8.0% to about 4.0% and a ratio of Effective Fiber Diameter to Actual Fiber Diameter of at least 1.40. Also disclosed are methods of making such webs.Type: GrantFiled: July 2, 2009Date of Patent: April 24, 2012Assignee: 3M Innovative Properties CompanyInventors: Andrew R. Fox, John D. Stelter, Michael R. Berrigan, Jonathan M Lise
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Publication number: 20120090780Abstract: A protection sheet and method of protecting a substrate is disclosed. In an embodiment, the protection sheet comprises an adhesive coated nonwoven material. In an embodiment a surface of the protection sheet captures and retains paint overspray, dust, dirt and other contaminants so as to provide a cleaner paint job. In an embodiment the protection sheet may be laminated to a second nonwoven or woven material to allow clean removal after extended use. The protection sheet may be used to protect horizontal or vertical substrates, and is particularly suited to protect the surfaces of a paint booth used in automotive spray-painting operations.Type: ApplicationFiled: December 22, 2011Publication date: April 19, 2012Inventors: John D. Stelter, Troy K. Ista, Thomas J. Reid, Patrick J. Hager, Kevin M. Eliason
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Patent number: 8105450Abstract: A protection sheet and method of protecting a substrate is disclosed. In an embodiment, the protection sheet comprises an adhesive coated nonwoven material. In an embodiment a surface of the protection sheet captures and retains paint overspray, dust, dirt and other contaminants so as to provide a cleaner paint job. In an embodiment the protection sheet may be laminated to a second nonwoven or woven material to allow clean removal after extended use. The protection sheet may be used to protect horizontal or vertical substrates, and is particularly suited to protect the surfaces of a paint booth used in automotive spray-painting operations.Type: GrantFiled: October 10, 2008Date of Patent: January 31, 2012Assignee: 3M Innovative Properties CompanyInventors: John D. Stelter, Troy K. Ista, Thomas J. Reid, Patrick J. Hager, Kevin M. Eliason
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Publication number: 20110266718Abstract: A flat-fold respirator is made from a stiff filtration panel joined to the remainder of the respirator through at least one line of demarcation. The panel contains a porous monocomponent monolayer nonwoven web that contains charged intermingled continuous monocomponent polymeric fibers of the same polymeric composition and that has sufficient basis weight or inter-fiber bonding so that the web exhibits a Gurley Stiffness greater than 200 mg and the respirator exhibits less than 20 mm H2O pressure drop. The respirator may be formed without requiring additional stiffening layers, bicomponent fibers, or other reinforcement and can be flat-folded for storage. Scrap from the manufacturing process may be recycled to make additional stiff filtration panel web.Type: ApplicationFiled: July 12, 2011Publication date: November 3, 2011Inventors: Seyed A. Angadjivand, James E. Springett, John M. Brandner, Marvin E. Jones, Andrew R. Fox, Michael R. Berrigan, John D. Stelter
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Publication number: 20110250378Abstract: Patterned spunbond fibrous webs include a population of spunbond filaments captured in an identifiable pattern corresponding to a patterned collector surface and bonded together without the use of an adhesive prior to removal from the collector surface. The webs may exhibit a high degree of filament orientation and/or a gradient of filament density in one or more directions determined by the patterned collector surface. Methods of making patterned spunbond fibrous webs, and articles including patterned spunbond fibrous webs made according to the methods, are also disclosed. In exemplary applications, the webs may be used in gas filtration articles, liquid filtration articles, sound absorption articles, surface cleaning articles, cellular growth support articles, drug delivery articles, personal hygiene articles, or wound dressing articles.Type: ApplicationFiled: December 10, 2009Publication date: October 13, 2011Inventors: Bradley W. Eaton, Michael R. Berrigan, John D. Stelter, Timothy J. Diekmann
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Publication number: 20110185903Abstract: A pleated filter is made from a monocomponent monolayer nonwoven web of continuous monocomponent meltspun partially crystalline and partially amorphous oriented fibers of the same polymeric composition that are bonded to form a coherent and handleable web having a Gurley Stiffness of at least 100 mg and which further may be softened while retaining orientation and fiber structure. Rows of pleats are formed in the nonwoven web, and the web is cut to a desired size and shape to provide a pleated filter element containing a self-supporting porous monocomponent monolayer matrix of fibers bonded to one another at least some points of fiber intersection and having an average initial submicron efficiency of at least 15% at a 1.52 meters/sec face velocity. The filter element is deformation resistant without requiring stiffening layers, bicomponent fibers, adhesive or other reinforcement in the filter media layer.Type: ApplicationFiled: April 13, 2011Publication date: August 4, 2011Inventors: Andrew R. Fox, John D. Stelter, Seyed A. Angadjivand, William T. Fay, Michael R. Berrigan, Douglas C. Sundet
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Publication number: 20110151738Abstract: Dimensionally stable nonwoven fibrous webs include a multiplicity of continuous fibers formed from one or more thermoplastic polyesters and polypropylene in an amount greater than 0% and no more than 10% by weight of the web. The webs have at least one dimension which decreases by no greater than 10% in the plane of the web when heated to a temperature above a glass transition temperature of the fibers. A spunbond process may be used to produce substantially continuous fibers that exhibit molecular orientation. A meltblown process may be used to produce discontinuous fibers that do not exhibit molecular orientation. In some embodiments, the fibers comprise a viscosity modifier and/or an anionic surfactant. The webs may be used as articles for filtration, sound absorption, thermal insulation, surface cleaning, cellular growth support, drug delivery, personal hygiene, medical apparel, or wound dressing.Type: ApplicationFiled: December 17, 2010Publication date: June 23, 2011Inventors: Eric M. Moore, John D. Stelter, Michael R. Berrigan, Francis E. Porbeni, Matthew T. Scholz, Kevin D. Landgrebe, Korey W. Karls, Sian F. Fennessey, Jay M. Jennen
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Publication number: 20110151737Abstract: Dimensionally stable nonwoven fibrous webs include a multiplicity of continuous fibers formed from one or more thermoplastic polyesters and polypropylene in an amount greater than 0% and no more than 10% by weight of the web. The webs have at least one dimension which decreases by no greater than 10% in the plane of the web when heated to a temperature above a glass transition temperature of the fibers. A spunbond process may be used to produce substantially continuous fibers that exhibit molecular orientation. A meltblown process may be used to produce discontinuous fibers that do not exhibit molecular orientation. The webs may be used as articles for filtration, sound absorption, thermal insulation, surface cleaning, cellular growth support, drug delivery, personal hygiene, medical apparel, or wound dressing.Type: ApplicationFiled: December 17, 2010Publication date: June 23, 2011Inventors: Eric M. Moore, John D. Stelter, Michael R. Berrigan, Francis E. Porbeni, Matthew T. Scholz, Sian F. Fennessey, Jay M. Jennen
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Publication number: 20110132374Abstract: A molded respirator is made from a monocomponent monolayer nonwoven web of continuous charged monocomponent meltspun partially crystalline and partially amorphous oriented fibers of the same polymeric composition that have been bonded to form a coherent and handleable web which further may be softened while retaining orientation and fiber structure. The respirator is a cup-shaped porous monocomponent monolayer matrix whose matrix fibers are bonded to one another at at least some points of fiber intersection. The matrix has a King Stiffness greater than 1 N. The respirator may be formed without requiring stiffening layers, bicomponent fibers, or other reinforcement in the filter media layer.Type: ApplicationFiled: February 2, 2011Publication date: June 9, 2011Inventors: John D. Stelter, Andrew R. Fox, Seyed A. Angadjivand
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Patent number: 7947142Abstract: A pleated filter is made from a monocomponent monolayer nonwoven web of continuous monocomponent meltspun partially crystalline and partially amorphous oriented fibers of the same polymeric composition that are bonded to form a coherent and handleable web having a Gurley Stiffness of at least 100 mg and which further may be softened while retaining orientation and fiber structure. Rows of pleats are formed in the nonwoven web, and the web is cut to a desired size and shape to provide a pleated filter element containing a self-supporting porous monocomponent monolayer matrix of fibers bonded to one another at least some points of fiber intersection and having an average initial submicron efficiency of at least 15% at a 1.52 meters/sec face velocity. The filter element is deformation resistant without requiring stiffening layers, bicomponent fibers, adhesive or other reinforcement in the filter media layer.Type: GrantFiled: July 31, 2006Date of Patent: May 24, 2011Assignee: 3M Innovative Properties CompanyInventors: Andrew R. Fox, John D. Stelter, Seyed A. Angadjivand, William T. Fay, Michael R. Berrigan, Douglas C. Sundet