RONALD PATRICK SCHMIDT
Pilots at Remuda Ct, Fort Worth, TX

6712099, Mar 30, 2004

Jun 15, 2001

09/882831

Ronald P. Schmidt - Fort Worth TX
Larry R. Bersuch - Ft. Worth TX
Ross A. Benson - Willow Park TX
Amir Islam - Bally PA

Lockheed Martin Corporation - Bethesda MD

D03D 1100

139383R, 139DIG 1, 442205

A three-dimensional weave architecture for weaving preforms has fill fibers woven to provide layer-to-layer interlocking of layers of warp fiber as well as interlocking of fibers within each layer. The woven preform transfers out-of-plane loading through directed fibers to minimize inter-laminar tension. The preform has a base and at least one leg extending from the base, the base and leg each having at least two layers of warp fibers. The fill fibers follow a weave sequence which carries them through part of the base, then into the legs, then through the other portion of the base, and back through the base to return to the starting point of the fill tow. The leg may be connected at a single- or distributed-column intersection, and the intersection may be radiussed. The outer ends of the base and legs may have tapers formed from terminating layers of warp fibers in a stepped pattern.

6676882, Jan 13, 2004

Aug 28, 2001

09/942332

Ross A. Benson - Willow Park TX
Larry R. Bersuch - Fort Worth TX
Harry R. Miller - Fort Worth TX
Ronald P. Schmidt - Fort Worth TX
Linas Repecka - Lakewood CA

Lockheed Martin Corporation - Bethesda MD

B29C 7044

264510, 264511, 264248, 264255, 264257, 264258, 264137, 156286, 156289, 1563096, 156382

A method provides for full or partial infusion of resin into three-dimensional, woven textile preforms. Resin film is placed at selected locations adjacent the preform, and the resin film may be separated from other areas of the preform using separator sheets or other materials. The preform is heated and may be vacuum-bagged to apply pressure, or may be rolled or fed through a die. The heat and pressure cause the resin to infuse into the selected areas of the preform adjacent the resin films. The amount of resin in the partial infusion is the same as is necessary to fully infuse the preform, but the resin remains localized in the selected areas until heated again at cure to cause the resin to flow throughout the preform. The method may also be used to fully infuse the preform with resin by providing sufficient temperature and time at that temperature during the initial infusion.

6835261, Dec 28, 2004

Jul 2, 2001

09/898633

Ronald P. Schmidt - Fort Worth TX

Lockheed Martin Corporation - Bethesda MD

B32B 708

156 92, 1563045, 1563069, 1563073, 1563077, 527292, 527295, 527311, 527351

A method for using a three-dimensional, woven preform to assemble two components. The woven preform is infused with an adhesive, and at least one surface of the preform is bonded to at least one surface of one of the components using the adhesive within the preform. The other of the components is attached to the preform, and this may occur with fasteners after the adhesive is cured or by bonding the second component to the preform with the adhesive. Use of an adhesive, instead of a resin, creates a stronger joint, especially with fiber-reinforcement of the adhesive. The thickness of the compressible, three-dimensional weave provides for a larger dimensional tolerance at each bond line.

6718713, Apr 13, 2004

Dec 19, 2001

10/025393

Ronald P. Schmidt - Fort Worth TX

Lockheed Martin Corporation - Bethesda MD

E04B 138

5230913, 52712, 527292, 527294

A preformed component or “preform” for a structural member has a planar base with two longitudinal legs extending in parallel from the base. A channel is defined between the legs for insertion of a flat plate that forms the first member of the structural member. The base of the preform is bonded to a composite panel. The preform is a composite material having continuous filaments of woven or braided fiber. The preform is impregnated with a thermoset resin that bonds the first member to the second member of the structural member. The preform may have filaments in the legs having a coefficient of expansion to match the plate, and filaments in the base having a coefficient of expansion to match the panel.

7790294, Sep 7, 2010

Jul 5, 2006

11/481326

John C. Macguire - Godley TX, US
Gregory W. Lundeen - Fort Worth TX, US
Ronald P. Schmidt - Fort Worth TX, US

Lockheed Martin Corporation - Bethesda MD

B32B 5/02, B21C 37/00

428608, 4282931, 428614

A three-dimensional, woven metal fiber preform and metal braze matrix forms a high temperature metallic structural joint. The preform is used with a braze alloy matrix to join a structural skin to a flangeless frame. This same basic joint can be used to create large complex structures with very little tooling. The three-dimensional woven metal preform is a flexible element that conforms to match the skin and flangeless frame, thereby avoiding high costs associated with precision fixturing. A high temperature braze metal is used as a matrix for the wire and to join the woven preform to the skin and the frame. The edges of the preform are tapered to a feather edge to avoid stress concentrations and stiffness mismatch.

6911175, Jun 28, 2005

Nov 12, 2003

10/706511

Ross A. Benson - Willow Park TX, US
Larry R. Bersuch - Fort Worth TX, US
Harry R. Miller - Fort Worth TX, US
Ronald P. Schmidt - Fort Worth TX, US
Linas Repecka - Lakewood CA, US

Lockheed Martin Corporation - Bethesda MD

B29C070/44, B32B031/12

264510, 264511, 264248, 264255, 264257, 264258, 264137, 156286, 156289, 1563096, 156382

A method provides for full or partial infusion of resin into three-dimensional, woven textile preforms. Resin film is placed at selected locations adjacent the preform, and the resin film may be separated from other areas of the preform using separator sheets or other materials. The preform is heated and may be vacuum-bagged to apply pressure, or may be rolled or fed through a die. The heat and pressure cause the resin to infuse into the selected areas of the preform adjacent the resin films. The amount of resin in the partial infusion is the same as is necessary to fully infuse the preform, but the resin remains localized in the selected areas until heated again at cure to cause the resin to flow throughout the preform. The method may also be used to fully infuse the preform with resin by providing sufficient temperature and time at that temperature during the initial infusion.

7625510, Dec 1, 2009

Nov 29, 2005

11/289263

Todd H. Ashton - Fort Worth TX, US
Richard R. Batzer - Mansfield TX, US
Ronald P. Schmidt - Fort Worth TX, US

Lockheed Martin Corporation - Bethesda MD

B29C 70/44

264258

Composite tooling is fabricated with low cost dry fabrics and a neat resin instead of expensive prepregs. Dry, three-dimensional woven joint preforms are placed on a dry tool substrate and dry, 3D preforms are also placed between pre-cured egg crate-like junctions. The entire tool substrate and substrate-to-support structure joints are then resin-infused simultaneously through the use of rota-molded tooling aids, providing an additional reduction in cost. Tight control of resin content and distribution with vacuum infusion is thereby provided. This process eliminates the primary cause of structural weakness and cooling distortion, which typically occur at the attachment interface when existing methods are used. The preforms provide significantly greater pull-off strengths at interfaces than do hand-laid tie plies. Issues with tool surface durability are addressed through the use of ceramic-filled face coat.

2003011, Jun 26, 2003

Dec 21, 2001

10/028613

Patrick Sheahen - Fort Worth TX, US
Ronald Schmidt - Fort Worth TX, US

B32B031/00

156/293000, 156/307100

A method uses a three-dimensional, woven preform to assemble two components, the preform having at least a pair of legs extending from a base. The woven preform is infused with a resin, and at least one surface of one of the components is bonded to the legs of the preform using the resin within the preform. The other of the components is then attached to the preform by adhering the component with the resin in the preform. The preform is squeegeed into place, ensuring that air pockets are eliminated and a continuous bond line is created. Resin systems providing for oven or room-temperature curing may be used.

6874543, Apr 5, 2005

Sep 10, 2002

10/238315

Ronald P. Schmidt - Fort Worth TX, US
David A. Kalser - Arlington TX, US

Lockheed Martin Corporation - Bethesda MD

D03D041/00

139383R, 139383 R, 139DIG 1, 442205

A preform for structural joints has a three-dimensional weave architecture with fill fibers woven to provide layer-to-layer interlocking of layers of warp fiber as well as interlocking of fibers within each layer. At least two legs extend from a base, the base and legs each having at least two layers of warp fibers. The legs are connected at a symmetrical, distributed-column intersection, with an odd number of columns of warp fibers being located being the legs. The outer ends of the base and legs preferably have tapers formed from terminating layers of warp fibers in a stepped pattern. Tracer fibers that include a colored strand and an x-ray opaque strand are woven into the preform at selected locations as a warp fiber. The tracer fibers allow for identification of a selected location or a selected portion of the preform through visual inspection or by x-ray image.

6849150, Feb 1, 2005

Jan 16, 2001

09/761301

Ronald P. Schmidt - Fort Worth TX, US

Lockheed Martin Corporation - Bethesda MD

B29C 6500

156285, 156293, 1563031, 1563071, 1563073, 156323

A system and method for forming structural assemblies with 3-D woven joint pre-forms. The method of the present invention forms complex structural assemblies with pre-formed structures. Adhesive is applied between the preformed structures and uncured 3-D woven textile pre-forms. Then together the preformed structures and uncured resin impregnated 3-D woven textile are cured with heat and/or pressure to form the larger complex structural assemblies.