Composite laminate for an airframe lifting surface and method for manufacturing thereof

Abstract

A composite laminate for an airframe lifting surface including: at least two sides and one ramp area defined by a decreasing staggered laminate extended along a ramp direction, wherein the composite laminate includes: first plies formed by tapes arranged parallel to the ramp direction, second plies formed by tapes arranged orthogonal to the ramp direction, third plies formed by tapes arranged in a first laying up direction, being the first laying up direction different from the ramp direction and the direction orthogonal to the ramp direction, and fourth plies formed by tapes arranged in a second laying up direction, being the second laying up direction different from the ramp direction, the direction orthogonal to the ramp direction and the first laying up direction; wherein in the ramp area, the tapes forming the third and/or fourth plies are extended from one laminate side to another laminate side.

Claims

1. A composite laminate for an airframe lifting surface, the composite laminate is formed by a pre-preg material and comprises: at least two sides and one ramp area defined by a decreasing staggered laminate extended along a ramp direction, wherein the composite laminate includes: first plies formed by tapes aligned with the ramp direction, second plies formed by tapes oriented orthogonal to the ramp direction, third plies formed by tapes arranged in a first laying up direction, wherein the first laying up direction differs from the ramp direction and differs from the orthogonal to the ramp direction, and fourth plies formed by tapes arranged in a second laying up direction, wherein the second laying up direction differs from the ramp direction, the orthogonal to the ramp direction, and the first laying up direction; wherein in the ramp area, the tapes forming the third and/or fourth plies extend from one laminate side to another laminate side.

2. The composite laminate according to claim 1, wherein the ramp area includes a region formed by the third plies and the fourth plies, and lacks the first plies and the second plies.

3. The composite laminate according to claim 1, wherein in the ramp area the first plies and/or the second plies extend at least to portions of the third plies and/or the fourth plies.

4. The composite laminate according to claim 1, wherein in the ramp area the first plies and/or second plies overlap portions of the third plies and/or third plies.

5. The composite laminate according to claim 1, wherein the first plies and the second plies are laid up to form a stack of overlapping edges in the ramp area.

6. The composite laminate according to claim 5, wherein the edges of the plies forming the stack are coincident with sides of the composite laminate.

7. The composite laminate according to claim 1, wherein in the ramp area, the tapes forming the third and fourth plies extend from a first laminate side to a second laminate side, opposite to the first laminate side, and the tapes cross over the first and second laminate sides.

8. The composite laminate according to claim 1, wherein in the ramp area, an outermost shortest side of the tapes forming the third plies are extended to an outermost longest side of the tapes forming the fourth plies, and an outermost shortest side of the tapes forming the fourth plies are extended to an outermost longest side of the tapes forming the third plies.

9. The composite laminate according to claim 1, wherein the first laying up direction is orthogonal to the second laying up direction.

10. The composite laminate according to claim 9, wherein the first laying up direction is +45° with respect to a longest direction of the laminate, and the second laying up direction is −45° with respect to the longest direction of the laminate.

11. The composite laminate according to claim 1, wherein the ramp direction is aligned with a direction defined by a longest dimension of the laminate.

12. An airframe lifting surface comprising a composite laminate according to claim 1, and including at least one of: a torsion box, a horizontal tail plane, a vertical tail plane, a rudder, an elevator, an aileron, a spoiler and a flap.

13. A method for manufacturing a composite laminate for an airframe lifting surface comprising: a) laying up pre-preg material forming a set of stacked plies comprising at least a ramp area defined by decreasing staggered plies extended along a ramp direction, b) curing the set of stack plies obtained in the step a), c) obtaining a composite laminate for an airframe lifting surface in the form of a cured composite laminate; wherein the step a) comprises laying up: first plies formed by tapes arranged parallel to the ramp direction, second plies formed by tapes arranged in a direction orthogonal to the ramp direction, third plies formed by tapes arranged in a first laying up direction, wherein the first laying up direction differs from the ramp direction and the direction orthogonal to the ramp direction, and fourth plies formed by tapes arranged in a second laying up direction, wherein the second laying up direction differs from the ramp direction, the direction orthogonal to the ramp direction and the first laying up direction; and, in the ramp area, laying up the tapes forming the third plies and/or the fourth plies from a first laminate side to a second laminate side opposite to the first side.

14. The method, according to claim 13, wherein the laying up of step a) comprises one of the following: laying up the first plies and the second plies up to the ramp area, laying up the first plies and/or the second plies up to an outermost extreme of the of the third plies and/or the fourth plies deployed on the ramp area, laying up the first plies and/or the second plies beyond the outermost extreme of the third plies and/or the fourth plies deployed on said ramp area.

15. The method, according to claim 13, wherein the step a) comprises, in the ramp area, laying up the tapes forming the third plies and the fourth plies from the first laminate side to the second laminate side, and crossing over the first and second laminate sides.

16. The method, according to claim 13, wherein the step a) comprises, in the ramp area, laying up the outermost shortest side of the tapes forming the third plies up to the outermost longest side of the tapes forming the fourth plies, and laying up the outermost shortest side of the tapes forming the fourth plies up to the outermost longest side of the tapes forming the third plies.

Description

SUMMARY OF DRAWINGS

(1) These and other characteristics and advantages of the invention will become clearly understood in view of the detailed description of the invention which becomes apparent from a preferred embodiment of the invention, given just as an example and not being limited thereto, with reference to the drawings.

(2) FIG. 1 shows a perspective view of an airframe lifting surface.

(3) FIG. 2 illustrates a saw teeth pattern on a state of the art laminate.

(4) FIG. 3 shows an irregular surface of a state of the art laminate, wherein FIG. 3 shows two views of the irregular surface.

(5) FIG. 4 shows a schematic representation of a first embodiment of a composite laminate according to the present invention.

(6) FIG. 4A shows a detailed view of FIG. 4 to illustrate the plies in the composite laminate shown in FIG. 4.

(7) FIG. 5 shows a schematic representation of a second embodiment of a composite laminate according to the present invention.

(8) FIG. 5A shows a detailed view of FIG. 5 to illustrate the plies in the composite laminate shown in FIG. 5.

(9) FIG. 6 shows an aircraft including a composite laminate according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(10) The present invention is applicable to a composite laminate having a ramp, such as a composite laminate forming an aircraft airframe lifting surface. The composite laminate may be manufactured with pre-preg material formats without compromising ramp surface quality.

(11) FIG. 1 shows a perspective view of an airframe lifting surface (1) that comprises a composite laminate (2) composed by a set of stacked plies of pre-preg material.

(12) The composite laminate (2) comprises a ramp area (2a) with a decreasing staggered laminate. This ramp area (2a) is extended parallel to a ramp direction D corresponding with the direction of the decreasing staggered laminate.

(13) This composite laminate (2) has an elongate configuration, comprising the ramp area (2a) between its two longest opposite sides (2b, 2c).

(14) This composite laminate (2) is configured with any of the combination of plies shown in FIGS. 4 and 5.

(15) The airframe lifting surface (1) shown in FIG. 1 further comprises a plurality of stiffening elements (8) located along an upper surface of the laminate (2) and bonded to the surface of the composite laminate. The stiffening elements (8) may be stringers. The stiffening elements (8) may be co-cured with a fresh set of stacked plies of the composite laminate (2). In another example, the stiffening elements (8) are co-bonded with the cured composite laminate (2).

(16) FIGS. 4 and 5 show different embodiments of a composite laminate (2) embodying the invention.

(17) The laminate (2) may comprise the following combination of plies:

(18) first plies (21) formed by tapes (4) arranged parallel to the ramp direction (D),

(19) second plies (22) formed by tapes (4) arranged orthogonal to the ramp direction (D),

(20) third plies (23) formed by tapes (4) arranged in a first laying up direction (O1), being the first laying up direction (O1) different from the ramp direction (D) and the direction orthogonal to the ramp direction (D), and

(21) fourth plies (24) formed by tapes (4) arranged in a second laying up direction (O2), being the second laying up direction (O2) different from the ramp direction (D), the direction orthogonal to the ramp direction (D) and the first laying up direction (O1).

(22) while, in the ramp area (2a), the tapes (4) forming the third (23) and/or fourth (24) plies are extended from one laminate side (2b) to the opposite laminate side (2c).

(23) The above combination of plies is shown in detail in FIGS. 4A and 5A according to the embodiments of FIGS. 4 and 5 respectively.

(24) FIG. 4 shows a first embodiment of a composite laminate (2) with a particular lay out configuration in the ramp area (2a), since in such ramp area (2a), the tapes (4) forming the third (23) and the fourth (24) plies are extended from one laminate side (2b) to the opposite laminate side (2c), crossing over both laminate sides (2b, 2c).

(25) FIG. 5 shows a second embodiment of a composite laminate (2) with another particular lay out configuration in the ramp area (3), since in such ramp area (2a), the outermost shortest side of the tapes (4a′) forming the third plies (23) are extended up to the outermost longest side of the tapes (4b′) forming the fourth plies (24). Similarly, the outermost shortest side of the tapes (4a″) forming the fourth plies (24) are extended up to the outermost longest side of the tapes (4b″) forming the third plies (23).

(26) As seen in the embodiments shown in FIGS. 4 and 5, the composite laminate (2) avoids the saw teeth effect in the ramp area (2a), by shifting it to the sides of the laminate (2b, 2c). By avoiding the saw teeth effect in the ramp area, an even surface suitable to be an interface with other components or parts that are to be co-cured, co-bonded or fastened together. Specifically, this surface evenness avoids porosity and wrinkles in co-cured processes, bonding issues in co-bonded processes, and irregular gaps in a fasten processes.

(27) Both configurations may allow for variants with respect to the first (21) and second (22) plies. According to one variant, the ramp area (2a) are formed by of third (23) and fourth plies (24) and lack first (21) and second (22) plies in the ramp area (2a), since these plies are laid-up up to the beginning of the ramp area (2a). According to another variant, the ramp area (2a) comprises first (21) and/or second (22) plies extended up to the outermost extreme (3, 5) of the third (23) and/or fourth plies (24) that form(s) said ramp area (2a). According to a further variant, the ramp area (2a) comprises first (21) and/or second (22) plies extended beyond the outermost extreme (3, 5) of the third (23) and/or fourth plies (24) that form(s) said ramp area (2a).

(28) FIGS. 4 and 5, show the tapes (4) of the first plies (21) as laid up in a direction of zero degrees (0°) with respect to the direction of the longest dimension of the laminate (2), which is coincident with the ramp direction D. The second plies (22) are laid up in a direction of ±90° with respect to the direction of the longest dimension of the laminate (2). The tapes (4) of the third plies (23) are laid up in a first laying up direction (O1) of +45° with respect to the direction of the longest dimension of the laminate (2). The tapes (4) of the fourth plies (24) are laid up in a second laying up direction (O2) of −45° with respect to the direction of the longest dimension of the laminate (2).

(29) In another embodiment, the first (21) and the second (22) plies are laid up forming a stack of overlapping edges in the ramp area (2a). The edges of the plies forming the stack are coincident with the sides of the laminate (2b, 2c).

(30) In another embodiment, the tapes of each ply have a width greater than 3.81 cm (1.5 inch), and are suited for a high deposition pre-preg laminate.

(31) The present invention may be embodied as a method for manufacturing a composite laminate (2) for an airframe lifting surface (1), the method comprising the steps of:

(32) laying up pre-preg material to form a set of stacked plies comprising at least a ramp area (2a) defined by decreasing staggered plies extended along a ramp direction (D),

(33) curing the set of stack plies,

(34) obtaining a composite laminate (2) for an airframe lifting surface (1) in the form of a cured composite laminate (2);

(35) wherein the stacked plies laid up in the laying up step includes:

(36) first plies (21) formed by tapes (4) arranged parallel to the ramp direction (D),

(37) second plies (22) formed by tapes (4) arranged orthogonal to the ramp direction (D),

(38) third plies (23) formed by tapes (4) arranged in a first laying up direction (O1), being the first laying up direction (O1) different from the ramp direction (D) and the direction orthogonal to the ramp direction (D), and

(39) fourth plies (24) formed by tapes (4) arranged in a second laying up direction (O2), being the second laying up direction (O2) different from the ramp direction (D), the direction orthogonal to the ramp direction (D) and the first laying up direction (O1); and,

(40) in the ramp area (2a), laying up the tapes (4) forming the third (23) and/or fourth (24) plies from one laminate side (2b) to the another laminate side (2c).

(41) According to another embodiment, the laying up of step a) is performed according to one of the following:

(42) laying up first (21) and second (22) plies up to the ramp area (2a),

(43) laying up first (21) and/or second (22) plies up to the outermost extreme (3, 5) of the third (23) and/or fourth plies (24) deployed on said ramp area (2a),

(44) laying up first (21) and/or second (22) plies beyond the outermost extreme (3, 5) of the third (23) and/or fourth plies (24) deployed on said ramp area (2a).

(45) Step a) may comprise, in the ramp area (2a), laying up the tapes (4) forming the third (23) and fourth (24) plies from one laminate side (2b) to the opposite laminate side (2c), crossing over both laminate sides (2b, 2c). This preferred embodiment leads to the composite laminate shown in FIGS. 4 and 4A.

(46) Step a) may also comprise, in the ramp area (2a), laying up the outermost shortest side of the tapes (4a′) forming the third plies (23) up to the outermost longest side of the tapes (4b′) forming the fourth plies (24), and laying up the outermost shortest side of the tapes (4a″) forming the fourth plies (24) up to the outermost longest side of the tapes (4b″) forming the third plies (23).

(47) The inventive method may form composite laminate shown in FIGS. 5 and 5A.

(48) In a particular example for obtaining the laminates shown in FIGS. 4 and 5, the lay up would be following the subsequent order:

(49) a third ply (23) formed by tapes (4) arranged in the first laying up direction (O1) of +45°,

(50) a fourth ply (24) formed by tapes (4) arranged in the second laying up direction (O2) of −45°,

(51) a third ply (23) formed by tapes (4) arranged in the first laying up direction (O1) of +45°,

(52) a fourth ply (24) formed by tapes (4) arranged in the second laying up direction (O2) of −45°,

(53) a second ply (22) formed by tapes (4) arranged in a third laying up direction of ±90° with respect to the ramp direction (D), and

(54) two first ply (21) formed by tapes (4) arranged parallel to the ramp direction (D).

(55) An inventive method is disclosed for manufacturing an airframe lifting surface (1) comprising the following steps:

(56) providing at least a composite laminate (2) obtained in at least one of the steps of the method previously defined,

(57) providing stiffening elements (8),

(58) joining the stiffening elements (8) to the composite laminate (2), and

(59) obtaining the airframe lifting surface (1).

(60) In a particular example, the cured composite laminate (2), obtained in the step c) of the method previously defined for manufacturing a composite laminate (2), is joined to at least one stiffening element (8) by a co-bonding process wherein the stiffening element (8) is bonded to the composite laminate (2) by means of an adhesive line. This is performed on the step iii) of the method for manufacturing an airframe lifting surface (1).

(61) The set of stacked plies in the form of a fresh composite laminate (a ‘preform’), obtained in the step a) of the method previously defined for manufacturing a composite laminate (2), may be joined to at least one stiffening element (8), and both components are cured together in a same curing cycle by means of a co-curing process.

(62) FIG. 6 shows an aircraft (9) comprising a plurality of airframe lifting surfaces (1), such as a wing torsion box (10), a horizontal tail plane (11), a vertical tail plane (12), and a rudder (7). These airframe lifting surfaces (1) are manufactured from a composite laminate (2) according to the present invention.

(63) 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.

Composite laminate for an airframe lifting surface and method for manufacturing thereof

Assignee

Inventors

Cpc classification

Classification Explorer

B64C2009/005

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B29C70/30

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C1/061

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

Y02T50/40

GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS

Classification Explorer

B64C3/26

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C5/02

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64F5/10

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C9/00

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B29C70/302

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B29L2031/3085

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C2001/0072

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B29K2105/0872

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C7/00

PERFORMING OPERATIONS; TRANSPORTING

International classification

Classification Explorer

B64C3/26

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C5/02

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C7/00

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C9/00

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64C1/06

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B64F5/10

PERFORMING OPERATIONS; TRANSPORTING

Classification Explorer

B29C70/30

PERFORMING OPERATIONS; TRANSPORTING

Abstract

Claims

Description