Jason P Floder

US Patent:

20010047645, Dec 6, 2001

Filed:

Jan 5, 2001

Appl. No.:

09/755440

Inventors:

Gereon Poquette - Denver NC, US
Jason Floder - Gastonia NC, US
Joe Faris - Gastonia NC, US

Assignee:

AB Carter, Inc

International Classification:

D01H007/60

US Classification:

057/125000

Abstract:

The invention provides spinning rings for textile spinning processes having an improved bearing surface formed of a coating of amorphous chromium that is typically applied by an electrodeposition process. The amorphous chromium coated spinning rings of the present invention impart a durable spinning ring that can be used in fine yarn, high speed spinning operations without the need to provide for a conventional break-in period.

US Patent:

20160122851, May 5, 2016

Filed:

Oct 13, 2015

Appl. No.:

14/881633

Inventors:

- Albany OR, US
Jason P. Floder - Gastonia NC, US
Jean-Philippe A. Thomas - Charlotte NC, US
Ramesh S. Minisandram - Charlotte NC, US

International Classification:

C22C 38/58
C22C 38/52
C22C 38/50
C22C 38/48
C22C 38/00
C22C 38/44
C22C 38/42
C22C 38/06
C22C 38/02
C22C 38/54
C22C 38/46

Abstract:

A method of processing a non-magnetic alloy workpiece comprises heating the workpiece to a warm working temperature, open die press forging the workpiece to impart a desired strain in a central region of the workpiece, and radial forging the workpiece to impart a desired strain in a surface region of the workpiece. In a non-limiting embodiment, after the steps of open die press forging and radial forging, the strain imparted in the surface region is substantially equivalent to the strain imparted in the central region. In another non-limiting embodiment, the strain imparted in the central and surface regions are in a range from 0.3 inch/inch to 1 inch/inch, and there exists no more than a 0.5 inch/inch difference in strain of the central region compared with the strain of the surface region of the workpiece. An alloy forging processed according to methods described herein also is disclosed.

US Patent:

20140260492, Sep 18, 2014

Filed:

Mar 15, 2013

Appl. No.:

13/844545

Inventors:

- Albany OR, US
Ramesh S. Minisandram - Charlotte NC, US
Jason P. Floder - Gastonia NC, US

Assignee:

ATI PROPERTIES, INC. - Albany OR

International Classification:

B21J 1/06

US Classification:

723421, 72352, 72357

Abstract:

Split pass forging a workpiece to initiate microstructure refinement comprises press forging a metallic material workpiece in a first forging direction one or more times up to a reduction ductility limit of the metallic material to impart a total strain in the first forging direction sufficient to initiate microstructure refinement; rotating the workpiece; open die press forging the workpiece in a second forging direction one or more times up to the reduction ductility limit to impart a total strain in the second forging direction to initiate microstructure refinement; and repeating rotating and open die press forging in a third and, optionally, one or more additional directions until a total amount of strain to initiate microstructure refinement is imparted in an entire volume of the workpiece.

US Patent:

20140255719, Sep 11, 2014

Filed:

Mar 11, 2013

Appl. No.:

13/792285

Inventors:

- Albany OR, US
Jason P. Floder - Gastonia NC, US
Jean-Philippe A. Thomas - Charlotte NC, US
Ramesh S. Minisandram - Charlotte NC, US

Assignee:

ATI PROPERTIES, INC. - Albany OR

International Classification:

B21J 5/02
C21D 8/00

US Classification:

428603, 148609, 72364

Abstract:

A method of processing a non-magnetic alloy workpiece comprises heating the workpiece to a warm working temperature, open die press forging the workpiece to impart a desired strain in a central region of the workpiece, and radial forging the workpiece to impart a desired strain in a surface region of the workpiece. In a non-limiting embodiment, after the steps of open die press forging and radial forging, the strain imparted in the surface region is substantially equivalent to the strain imparted in the central region. In another non-limiting embodiment, the strain imparted in the central and surface regions are in a range from 0.3 inch/inch to 1 inch/inch, and there exists no more than a 0.5 inch/inch difference in strain of the central region compared with the strain of the surface region of the workpiece. An alloy forging processed according to methods described herein also is disclosed.