RICHARD PETERSON
Restorative Service Providers at Briarcliff Dr, Appleton, WI
License number
Wisconsin 1320-024
Category
Restorative Service Providers
Type
Geriatrics
Address
Address
601 N Briarcliff Dr, Appleton, WI 54915
Phone
(920) 739-4466
Personal information
See more information about RICHARD PETERSON at radaris.comName
Address
Phone
513 W South St, Oconomowoc, WI 53066
515 N Main St, Iola, WI 54945
5061 S Stonehedge Dr, Greenfield, WI 53220
5056 State Highway 71, Sparta, WI 54656
5092 Horizon Ct, West Bend, WI 53095
Professional information
See more information about RICHARD PETERSON at trustoria.com
Richard Peterson, Appleton WI
Richard Peterson, Appleton WI
Specialties:
Geriatric Medicine
Address:
601 N Briarcliff Dr, Appleton 54915
(920) 739-4466 (Phone)
(920) 739-4466 (Phone)
Languages:
English
Richard Peterson, Appleton WI
Richard Peterson, Appleton WI
Specialties:
Physical Therapist
Address:
601 N Briarcliff Dr, Appleton, WI 54915
Method For Rapid Quenching Of Melt Blown Fibers
Method For Rapid Quenching Of Melt Blown Fibers
US Patent:
3959421, May 25, 1976
Filed:
Apr 17, 1974
Appl. No.:
5/461740
Inventors:
Robert E. Weber - Appleton WI
Richard M. Peterson - Appleton WI
Richard M. Peterson - Appleton WI
Assignee:
Kimberly-Clark Corporation - Neenah WI
International Classification:
B01J 206
US Classification:
264 6
Abstract:
A method for producing a nonwoven fabric-like material by a melt blowing technique. Conventional melt blowing equipment is used to form a gas stream containing melt blown microfibers comprising generally discontinuous thermoplastic polymeric microfibers having an average fiber diameter of up to about 10 microns. A liquid, such as water, is sprayed into the gas stream to rapidly cool the fibers and the gas, thereby allowing the production of high quality product at production rates significantly higher than in conventional melt blowing technology. In the final integrated fibrous mat formed on the forming surface, the microfibers are held together by gross mechanical entanglement with each other. The quenching liquid is preferably sprayed into the gas stream from opposite sides, and the temperature of the gas stream is preferably substantially higher than the boiling point of the quenching liquid in the area where the liquid is sprayed into the gas stream so that the liquid is quickly evaporated upon contact with the gas stream.