MANUFACTURING METHODS OF NET STIFFENERS

Abstract

Method to make a T shaped stiffener form from a stiffener preform (100) having a foot (130) configured to be in contact with an aircraft panel, and a sole (120) with an edge (120a). The manufacturing method includes: obtaining laminates (110a, 110b) formed of layers of composite material, folding the laminates (110a, 110b) to be L shaped in cross section, joining the laminates to form a T shaped preform (100), molding the edge of the sole (120a) so that the edge is semicircular in cross section, applying to the edge (120a) a strip of semi-cured carbon fabric (L1) and a fresh strip of prepreg fiberglass (L2), and curing the preform (100) to obtain the stiffener.

Claims

1. A manufacturing method to make a stiffener made of polymeric composite material reinforced with carbon fiber wherein: the stiffer is T shaped in cross section and the stiffener is obtained from a preform comprising a sole and a foot, the foot corresponds to a section of the stiffener configured to contact an aircraft panel, and the sole corresponds to a remaining part of the stiffener and includes an edge, the manufacturing method comprises: obtaining two laminates of composite material comprising a set of layers of composite material; shaping each of the two laminates of composite material by folding the laminates of composite material to each have an L shaped cross section; joining the two laminates of composite material to obtain the preform with a T shaped cross section; molding the edge of the sole of the preform to obtain a semicircular cross section of the edge of the sole; applying to the edge of the sole a strip of semi-cured fiberglass and a fresh strip of prepreg fiberglass, and curing the preform with the strip of the semi-cured fiberglass and the fresh strip of prepreg fiberglass to obtain the stiffener with the T shaped cross section with the net edge of the sole.

2. The manufacturing method according to claim 1, further comprising applying heat to the edge of the sole to soften the set of layers of composite material.

3. The manufacturing method according to claim 1, further comprising: applying a flexible vacuum bag to the preform prior to the step of curing the preform; and removing the flexible vacuum bag after the step of curing the preform.

4. The manufacturing method according to claim 3. further comprising molding the edge of the sole to obtain a wedge shaped cross section of the edge and later molding the edge with the wedge shaped cross section to form a semicircular cross section of the wedge.

5. A stiffener comprising a specific geometry with a T shaped cross section obtained by means of the manufacturing method according to claim 1.

6. A device for molding an edge of a sole of a preform for a stiffener made of polymeric composite material reinforced with carbon fiber having a T shaped cross section, wherein the stiffener comprises a sole and a foot, wherein the foot corresponds to a section of the stiffener configured contact an aircraft panel and the sole corresponds to a remaining part of the stiffener, the device comprises: a heat application device configured to soften the edge of the sole of the preform; and a set of rollers configured to mold the edge of the sole to mold the edge to be semicircular in cross section.

7. The device according to claim 6, wherein the set of rollers comprises a group of wedge rollers configured to mold the edge of the sole to have a wedge cross section.

8. The device according to claim 7, wherein the set of rollers comprises a group of rounding rollers configured to mold the edge of the sole in a shape of a crescent to obtain the semicircular cross section.

9. A method comprising: folding layers of a polymeric composite material reinforced with carbon fiber to form a first L shaped laminate including a foot and a sole joined to the foot along a fold wherein the sole of the first L shape laminate includes a back surface facing away from the foot of the first L shaped laminate; folding layers of a polymeric composite material reinforced with carbon fiber to form a second L shaped laminate including a foot and a sole joined to the foot along a fold wherein the sole of the second L shape laminate includes a back surface facing away from the foot of the second L shaped laminate; abutting the back of the first L shaped laminate against the back of the second L shaped laminate to form a stiffener preform that is T-shaped in cross section and includes a foot formed of the feet of the first and second L shaped laminates and a sole formed of the soles of the first and second laminates, wherein the foot of the stiffener preform is configured to attach to a panel of an aircraft and the sole of the stiffener preform has an edge opposite to the foot of the stiffener preform; molding the edge to form a molded edge of the sole of the stiffener preform, wherein the molding includes bending ends of the layers of the first and second L shaped laminates at the edge of the sole of the stiffener preform inward to close a gap formed by the ends of the layers at the edge; applying to the molded end of the stiffener preform a strip of semi-cured fiberglass and a fresh strip of prepreg fiberglass, and curing the stiffener preform with the strip of the semi-cured fiberglass and the fresh strip of prepreg fiberglass to form a stiffener having a T shaped cross section and a net edge of the sole.

10. The method of claim 9, wherein the ends of the layers of the first and second L shaped laminates nearest a center plane of the sole of the stiffener preform are shorter than the ends of the layers of the first and second L shaped laminates away from the center line, wherein the molding of the edge of the stiffener preform includes closing the gap such that the ends of the first and second L shaped laminates away from the center plane of the sole of the stiffener preform are bent towards the center plane.

11. The method of claim 9, further comprising heating the edge of the sole of the stiffener preform to soften the ends of the layers of the first and second L shaped laminates before or during the molding of the edge of the sole of the stiffener preform.

12. The method of claim 9, further comprising: applying a flexible vacuum bag to the stiffener preform prior to the curing of the stiffener preform; and removing the flexible vacuum bag after the step of curing the preform.

13. The method of claim 9, wherein the molding the edge of the sole of the stiffener preform includes molding the edge to first form the edge into a wedge shaped cross section and then molding the edge to have a semicircular cross section.

14. The method of claim 9, wherein the molding of the edge of the stiffener preform includes applying rollers to the edge to mold the edge to have a semi-circular cross section.

Description

SUMMARY OF THE DRAWINGS

[0024] To complement the description that is being made and in order to help a better understanding of the characteristics of the manufacturing methods according to the present invention, a set of drawings is attached as an integral part of said description, wherein, for illustrative purposes, and not limiting, the following has been represented:

[0025] FIG. 1 shows a stiffener preform with a T cross section and the book effect generated at the edge of the stiffener sole.

[0026] FIG. 2 shows the shaping by molding of the edge of the sole of the preform.

[0027] FIGS. 3A and 3B show the molding steps of the manufacturing process according to the present invention.

[0028] FIG. 3C shows the application step to the edge of the sole of a strip of semi-cured fiberglass, a strip of prepreg fiberglass, as well as the application to the preform of a flexible vacuum bag.

DETAILED DESCRIPTION

[0029] FIG. 1 shows the preform (100) (fresh or pre-cured) obtained after the steps of the manufacturing method according to the present invention corresponding to obtaining two laminates of composite material (110a, 110b) comprising a set of layers of composite material, shaping each of the two laminates of composite material (110a, 110b) by folding the laminates of composite material (110a, 110b) each with an L cross section and joining the two laminates of composite material (110a, 110b) to obtain the preform (100) with a T cross section.

[0030] As seen in FIG. 1, the different lengths of the ends of the layers of the laminates of composite material (110a, 110b) create an open V-shaped edge of the sole (120a) which forms a gap at the edge of the sole.

[0031] FIG. 2 shows the step of molding (or molding step) the edge of the sole (120a) of the preform (100) that eliminates the book effect, e.g., gap formed by the V-shaped end of the sole, by bending the layers at the V-shaped end inward towards a center plane 122 of the preform (100) for the stiffener.

[0032] The molding is carried out after the step of obtaining two laminates of composite material (110a, 110b) that comprise a set of layers of composite material, as shown in the preform (100) of FIG. 1.

[0033] The molding is also carried out after the step of shaping the two laminates of composite material (110a, 110b) by folding the two laminates of composite material (110a, 110b) in L cross section, and after the step of joining the two laminates of composite material (110a, 110b) with a T cross section to obtain the preform (100) of the stiffener.

[0034] When folding the two laminates of composite material (110a, 110b), a book effect is generated at the edge of the sole (120a), which can be seen in FIG. 1 of the state of the art, resulting in a V-shaped edge of the sole, and is described in the background. In order to eliminate the book effect of the edge of the sole (120a), the manufacturing process according to the present invention comprises the step of molding the edge of the sole (120a) of the preform (100), which is shown in FIG. 2, once the T cross section has been obtained.

[0035] As shown in FIG. 2, the molding step or operation is carried out with the device (1000) configured to, by means of a heat application device (300), in a first phase, apply heat to the edge of the sole (120a) to soften the set of layers of composite material of said edge, and in a second phase, by means of a set of wedge rollers (310) and a set of rounding rollers (311), mold the edge surface of the sole (120a) to obtain the edge of the sole (120a) with a semicircular cross section. At the end of this step, a rounded shape is created on the edge of the sole (120a), closing the internal gap associated with the shorter interior layers and thus eliminating the book effect.

[0036] FIG. 3A shows the step of molding the edge surface of the sole (120a) by means of a group of wedge rollers (310) which comprise a wedge shape to mold the edge of the sole (120a) with a wedge section.

[0037] FIG. 3B shows the step of molding the edge surface of the sole (120a) by means of a group of crescent-shaped rounding rollers (311) to mold the edge of the sole (120a) with a final shape comprising a cross section semicircular.

[0038] FIG. 3C shows the step of applying to the edge of the sole (120a) a strip of semi-cured fiberglass (L1), a fresh strip of prepreg fiberglass (L2), as well as the application to the preform of a flexible vacuum bag (L3), prior to the curing step, thus achieving a net edge of the sole (120a). The net edge of the sole may have a curved outer surface as shown in FIG. 3C.

[0039] The edge of the sole (120a) is covered with a semi-cured fiberglass profile (L1), and above it a fresh strip of prepreg fiberglass (L2). The state of the fiberglass profile (L1) provides sufficient rigidity to mold the edge of the sole (120a) in a controlled manner and allows to achieve a good adhesion with the resin of the preform (100). The fresh state of the strip of prepreg fiberglass (L2) makes it possible to fix the semi-cured fiberglass profile (L1) at the edge of the sole (120a) once the preform (100) has cured.

[0040] The preform (100) together with the fiberglass profile comprising the strip of semi-cured fiberglass (L1) and the fresh strip of prepreg fiberglass (L2) are cured wrapped in the flexible vacuum bag (L3) which adapts to the real shape of the edge of the sole (120a) when a vacuum is applied to the preform as can be seen in FIG. 3C, achieving good consolidation without movements of resin or fiber, thus obtaining a net edge of the sole (120a). Said flexible vacuum bag (L3) can be removed from the stiffener after the curing step.

[0041] While at least one exemplary embodiment of the present invention(s) is disclosed herein, it should be understood that modifications, substitutions, and alternatives may be apparent to one of ordinary skill in the art and can be made without departing from the scope of this disclosure. This disclosure is intended to cover any adaptations or variations of the exemplary embodiment(s). In addition, in this disclosure, the terms comprise or comprising do not exclude other elements or steps, the terms a or one do not exclude a plural number, and the term or means either or both. Furthermore, characteristics or steps which have been described may also be used in combination with other characteristics or steps and in any order unless the disclosure or context suggests otherwise. This disclosure hereby incorporates by reference the complete disclosure of any patent or application from which it claims benefit or priority.