A composite radius filler include a base portion and a tip portion. The base portion is formed of composite plies varying in overall width along an overall lengthwise direction and defining a variable cross-sectional shape of the base portion along the lengthwise direction. The base portion includes
A composite radius filler include a base portion and a tip portion. The base portion is formed of composite plies varying in overall width along an overall lengthwise direction and defining a variable cross-sectional shape of the base portion along the lengthwise direction. The base portion includes at least one transition zone having a transition start and a transition end along the lengthwise direction. The composite plies of the base portion are arranged in one or more stacks each stack having a predetermined fiber orientation angle sequence and a stack width that changes within the transition zone. The tip portion includes a plurality of composite plies formed into a generally triangular cross-sectional shape and stacked on top of the base portion.
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1. A composite radius filler, comprising: a base portion formed of composite plies varying in overall width along an overall lengthwise direction and defining a variable cross-sectional shape of the base portion along the lengthwise direction, the base portion including at least one transition zone
1. A composite radius filler, comprising: a base portion formed of composite plies varying in overall width along an overall lengthwise direction and defining a variable cross-sectional shape of the base portion along the lengthwise direction, the base portion including at least one transition zone having a transition start and a transition end along the lengthwise direction;the composite plies of the base portion being arranged in one or more stacks of composite plys, the composite plys of the base portion being parallel to each other, at least one of the one or more stacks comprising a laminated charge of composite plies having a predetermined fiber orientation angle sequence and having a stack width, the stack width of at least one of the stacks changing within the transition zone; anda tip portion comprised of a plurality of composite plies that are discrete from the composite plys of the base portion, the composite plys of the tip portion being formed into a generally triangular cross-sectional shape and having one or more composite plys that are non-parallel to the composite plys of the base portion, the tip portion being stacked on top of the base portion. 2. The radius filler of claim 1, wherein: the composite plies in the tip portion are pultruded unidirectional slit tape tows. 3. The radius filler of claim 1, wherein: the radius filler has a symmetric shape in an as-stacked condition. 4. The radius filler of claim 1, wherein: the radius filler has an asymmetric shape in an as-stacked condition. 5. The radius filler of claim 1, wherein: at least one of the one or more stacks has a fiber orientation angle sequence comprising a +non-zero degree ply, a −non-zero degree ply, and a 0 degree ply in between the +non-zero degree ply and the −non-zero degree ply; andthe absolute value of a fiber orientation angle of the +non-zero degree ply and the −non-zero degree ply being equal. 6. The radius filler of claim 5, wherein: the fiber orientation angle sequence of the at least one of the one or more stacks comprising a +30 degree ply, a −30 degree ply, and a 0 degree ply in between the +30 degree ply and the −30 degree ply. 7. The radius filler of claim 5, wherein: in at least one of the stacks, the 0 degree ply terminates at a ply termination, and resulting in at least one lengthwise portion of the stack comprising the +non-zero degree ply and the −non-zero degree ply in back-to-back contact with one another. 8. The radius filler of claim 7, wherein the ply termination of the 0 degree ply is located at one of the following: at the transition start;within the transition zone; and,at the transition end. 9. The radius filler of claim 1, wherein: the radius filler is configured to be installed in a part cavity of a composite structure and in an as-assembled condition within the part cavity, the part cavity having a cavity base;the tip portion having a tip portion bottom surface;the base portion having a base portion bottom surface and a base portion height;the base portion providing the radius filler with a vertical overfill of the part cavity wherein: an as-stacked base portion height of the radius filler in the as-stacked condition is at least 5 percent greater than an as-assembled base portion height of the radius filler in the as-assembled condition; andthe as-stacked base portion height is at least one additional ply thickness beyond the as-assembled base portion height;the as-stacked base portion height extending from the base portion bottom surface to the tip portion bottom surface of the radius filler in the as-stacked condition; andthe as-assembled base portion height extending from the cavity base to the location of the tip portion bottom surface if the tip portion were in the part cavity in the as-assembled condition. 10. The radius filler of claim 9, wherein: the part cavity has opposing cavity sides respectively defined by opposing outside radii of the composite structure;the base portion including a single bottom stack and a plurality of mid stacks each having a stack width; andthe stack width of all of the mid stacks being substantially equivalent to a part cavity width at an intersection of the cavity sides with a mid-plane of the respective mid stack. 11. A composite structure, comprising: a pair of composite charges in back-to-back contact with one another and forming a lengthwise part cavity;a radius filler installed in the part cavity and including: a base portion formed of composite plies varying in overall width along an overall lengthwise direction and defining a variable cross-sectional shape of the base portion along the lengthwise direction, the base portion including at least one transition zone having a transition start and a transition end along the lengthwise direction;the composite plies of the base portion being arranged in one or more stacks of composite plys, the composite plys of the base portion being parallel to each other, at least one of the one or more stacks comprising a laminated charge of composite plies having a predetermined fiber orientation angle sequence and having a stack width, the stack width of at least one of the stacks changing within the transition zone; anda tip portion comprised of a plurality of composite plies that are discrete from the composite plys of the base portion, the composite plys of the tip portion being formed into a generally triangular cross-sectional shape and having one or more composite plys that are non-parallel to the composite plys of the base portion, the tip portion being stacked on top of the base portion. 12. A method of manufacturing a radius filler, comprising the steps of: providing a base portion formed of composite plies varying in overall width along at least a portion of an overall lengthwise direction and defining a variable cross-sectional shape of the base portion along the lengthwise direction, the base portion including at least one transition zone having a transition start and a transition end along the lengthwise direction, the composite plies of the base portion being arranged in one or more stacks of composite plys, the composite plys of the base portion being parallel to each other, at least one of the one or more stacks comprising a laminated charge of composite plies having a predetermined fiber orientation angle sequence and having a stack width, the stack width of at least one of the stacks changing within the transition zone;providing a tip portion comprised of a plurality of composite plies that are discrete from the composite plys of the base portion, the composite plys of the tip portion being formed into a generally triangular cross-sectional shape and having one or more composite plys that are non-parallel to the composite plys of the base portion;stacking the tip portion onto the base portion to form a radius filler in an as-stacked condition; andapplying at least one of heat and pressure to the radius filler to produce a radius filler in as as-formed condition having a variable cross-sectional shape. 13. The method of claim 12, wherein the step of providing the tip portion comprises: pultruding a plurality of unidirectional slit tape tows into the generally triangular cross-sectional shape. 14. The method of claim 12, further including: forming the radius filler into a symmetric shape in an as-stacked condition. 15. The method of claim 12, further including: forming the radius filler into an asymmetric shape in an as-stacked condition. 16. The method of claim 12, wherein the step of providing the base portion includes: providing at least one stack of the base portion as a laminated charge comprising a +non-zero degree ply, a −non-zero degree ply, and a 0 degree ply in between the +non-zero degree ply and the −non-zero degree ply, the absolute value of a fiber orientation angle of the +non-zero degree ply and the −non-zero degree ply being equal. 17. The method of claim 16, wherein the step of providing at least one stack of the base portion as a laminated charge includes: providing at least one stack of the base portion as a laminated charge comprising a +30 degree ply, a −30 degree ply, and a 0 degree ply in between the +30 degree ply and the −30 degree ply. 18. The method of claim 16, further including: terminating, in at least one of the stacks, the 0 degree ply at a ply termination located within an overall length of the radius filler, such that in at least one lengthwise section of the radius filler, the stack comprising the +non-zero degree ply and the −non-zero degree ply in back-to-back contact with one another. 19. The method of claim 18, wherein the step of terminating the 0 degree ply comprises locating the ply termination at one of the following: at the transition start;within the transition zone; and,at the transition end. 20. The method of claim 12, wherein the radius filler is configured to be installed in a part cavity of a composite structure and in an as-assembled condition within the part cavity, the part cavity having a cavity base, the tip portion having a tip portion bottom surface, the base portion having a base portion bottom surface and a base portion height, the method further including: forming the radius filler with a vertical overfill of the part cavity wherein: an as-stacked base portion height of the radius filler in the as-stacked condition is at least 5 percent greater than an as-assembled base portion height of the radius filler in the as-assembled condition; andthe as-stacked base portion height is at least one additional ply thickness beyond the as-assembled base portion height;the as-stacked base portion height extending from the base portion bottom surface to the tip portion bottom surface of the radius filler in the as-stacked condition; andthe as-assembled base portion height extending from the cavity base to the location of the tip portion bottom surface if the tip portion were in the part cavity in the as-assembled condition. 21. The method of claim 20, wherein the part cavity has opposing cavity sides respectively defined by opposing outside radii of the composite structure, the method further including: forming the base portion from a single bottom stack and a plurality of mid stacks each having a stack width; andforming the radius filler in an as-stacked condition such that the stack width of all of the mid stacks is substantially equivalent to a part cavity width at an intersection of a cavity side with a mid-plane of the respective mid stack. 22. The method of claim 21, wherein: the bottom stack has a bottom stack width that is less than the part cavity width at a part cavity bottom surface.
Krajca, Scott Edward; Sweetin, Joseph L.; Harris, Christopher G.; Kline, William T.; Forston, Gabriel Z., Variable-radius laminated radius filler and system and method for manufacturing same.
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