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| United States Patent |
5,474,632 |
| Ray , et al. |
December 12, 1995 |
Method of making a lattice core sandwich construction
Abstract
A novel form of sandwich construction is disclosed. The lattice core sandh
construction comprises of elongate lattice cells in side-by-side abutment, to
present common, lengthwise flat sides that have facesheets co-cured thereto
without any secondary bonding. Each lattice cell is formed by wrapping, in
alterate patterns, fiber-reinforced, composite bands around commonly-shaped
mandrels. Opppositely disposed face sheets are placed against flat sides and the
construction co-cured. After co-curing, the mandrels are removed.
| Inventors: |
Ray; Hemen (Perkasie, PA); Gause; Lee
W. (Oakton, VA) |
| Assignee: |
The United States of America as represented
by the Secretary of the Navy (Washington, DC) |
| Appl. No.: |
277400 |
| Filed: |
July 19, 1994 |
| Current U.S. Class: |
156/173; 156/175; 156/189;
156/191; 156/195; 156/292; 428/116 |
| Intern'l Class: |
B32B 003/12 |
| Field of Search: |
156/184,189,292,191,195,173,175
428/116 |
References Cited [Referenced
By]
U.S. Patent Documents
| 2755216 |
Jul., 1956 |
Lemons |
156/187. |
| 3641230 |
Feb., 1972 |
Jenks |
264/314. |
| 3795559 |
Mar., 1974 |
Horn et al. |
156/173. |
| 4155970 |
May., 1979 |
Cassell |
264/137. |
| Foreign Patent Documents |
| 586945 |
Nov., 1957 |
CA |
156/184. |
| 2197618 |
May., 1988 |
GB |
428/116. |
| 1048075 |
Oct., 1983 |
SU |
428/116. |
Primary
Examiner: Aftergut; Jeff H.
Attorney, Agent or Firm: Tura; James
V., Verona; Susan E.
Goverment Interests
STATEMENT OF GOVERNMENT INTEREST
The invention described herein
may be manufactured and used by or for the Government of the United States of
America for governmental purposes without the payment of any royalties thereon
or therefor.
Parent Case Text
This application is a division of application Ser. No. 08/082,067, filed
Jun. 23, 1993, U.S. Pat. No. 5,424,113.
Claims
What we claim is:
1. A method of fabricating a lattice core
sandwich construction, comprising the steps of:
providing first and
second pluralities of bands of curable material;
providing a plurality
of mandrels, each having a uniform transverse cross-section in a shape of an
isosceles trapezoid with two parallel sides of unequal length and two
non-parallel sides of equal length;
helically wrapping each band of the
first plurality in one direction around each one of the plurality of mandrels,
leaving a plurality of unwrapped open spaces on each one of the mandrels;
helically wrapping each band of the second plurality in the opposite
direction around each one of the plurality of mandrels so that the bands of the
second plurality crisscross the bands of the first plurality on the sides of
unequal length, leaving a plurality of unwrapped open spaces on each of the
mandrels;
abutting said wrapped mandrels alternately inverted
side-by-side along their equal-lengthed sides along the entire surfaces thereof;
securing at least one face sheet of curable material to one of the
parallel sides of the abutted wrapped mandrels;
co-curing the bands and
face sheet; and
removing the mandrels.
2. The method according
to claim 1, wherein:
said bands and said face sheet comprise
fiber-reinforced resinous composites.
3. The method according to claim
1, further comprising the step of securing a second face sheet of curable
material to the other parallel side of the wrapped mandrels.
Description
BACKGROUND OF THE INVENTION
The present invention relates
generally to sandwich constructions suitable for use in structural and
non-structural members, and more particularly to sandwich constructions of
low-density cores secured between thin-gauge, high-strength face sheets for use
in a wide range of military, industrial and commercial components.
Sandwich constructions are finding broad application as structural and
non-structural members in boats, aircraft, furniture, refrigerators, and other
items requiring high strength, lightweight materials. They typically include
face sheets bonded to either side of a low density core. The sheets are made of
such materials as metals, plastic, or composite fiber glass laminates for
rigidity and strength. Among the various core materials, are rigid plastic foams
and honeycombs made from layers of corrugated metal sheets or expanded layers of
resin-impregnated plastic sheets.
In airplane design the need for weight
efficiency and aerodynamically smooth surfaces under high stress levels has
stimulated use of sandwich construction as a possible substitute for the
conventional sheet-stringer construction. Notwithstanding the superior
weight-efficiency of the sandwich constructions, their general acceptance for
critical applications has lagged behind theoretical development primarily
because of maintenance problems experienced in service. Honeycomb core sandwich
constructions are considered to be among the most weight-efficient but, they
have a tendency to retain moisture which may become entrapped due to ineffective
edge seals, damage to the face sheets or unbonding of face sheets from the core.
This may degrade the structural integrity and lead to extensive corrosion and
premature failure of components. Experience has shown a significant frequency of
repairs on sandwich structures or sandwich structure part replacements which are
very time-consuming and expensive.
SUMMARY OF THE INVENTION
Accordingly, an object of the present invention is to provide a sandwich
construction having a high strength-to-weight efficiency suitable for a broad
variety of military, industrial and commercial applications.
Another
object is to provide a low-density core sandwich construction in which corrosion
and degradation of structural integrity due to retention of moisture is
substantially eliminated.
Another object is to provide a sandwich
construction in which unbonding of face sheets from the core is substantially
reduced or eliminated when heat, pressure or vacuum is applied for purposes of
repair.
Still another object is to provide a sandwich construction
having a flexible core with structural discontinuities for improved tolerance
for damage.
A further object is to provide a method of fabricating a
low-density core sandwich construction in a single curing process.
A
still further object is to provide a sandwich construction having a core with
passageways for arresting cracks developed during use or upon impact.
These and other objects of the invention are achieved in a sandwich
construction comprising a core of elongate lattice cells in side-by-side
abutment and secured between two face sheets. Each lattice cell is defined by an
openwork structure of crisscrossed bands of stiff material helically formed
around the longitudinal axis thereof. A cell is formed by wrapping two bands in
opposite directions around a mandrel of lengthwise uniform cross section and
opposite flat sides for contiguously interfacing complimentary sides of adjacent
cells and the face sheets. With the mandrels in place, the cells are then
secured between the face sheets and cured in a single curing process after which
the mandrels are removed.
BRIEF DESCRIPTION OF THE DRAWINGS
Further objects and advantages of the invention will become apparent
from the following detailed description taken in conjunction with the
accompanied drawings wherein:
FIG. 1 represents a perspective view, with
the upper face sheet partially cutaway, of a prior art honeycomb core sandwich
construction;
FIG. 2 represents a perspective view, with the upper face
sheet partially cutaway, of a lattice core sandwich construction according to
the invention with a single cell extended from the construction to more clearly
show the relationship of the mandrel to the cell;
FIG. 3 is a top view
of a lattice cell of crisscrossed bands of material helically wound according to
the invention around a trapezoidal mandrel (not shown);
FIG. 4 is an end
view of the cell of FIG. 3;
FIG. 5 is a side view of a single cell
showing a single band wrapping; and
FIG. 6 is a cross-sectional view of
a single wrapping taken along lines VI--VI of FIG. 5.
DETAILED
DESCRIPTION OF THE PREFERRED EMBODIMENT
Referring now to the drawings
wherein like referenced characters designate like or corresponding components
throughout the several views, there is shown in FIG. 1 a typical prior art
honeycomb core sandwich construction 10 having a low density core consisting of
hexagonal cells 12 bonded at their ends to face sheets 14. However, under stress
the face sheets may crack or separate from the cell ends permitting moisture to
accumulate and with time cause the core to increase in weight and corrode. The
usual procedure for repair entails resealing the cell ends by applying an
adhesive and applying heat and pressure (or vacuum) to the external surfaces of
the facing sheets. This is unreliable and sometimes causes further unbonding of
face sheets and core.
Referring to the inventive embodiment of FIGS. 2
through 4, there is shown a lattice core sandwich construction 16 of elongate
cells 18a and 18b in side-by-side alignment between face sheets 20a and 20b.
Each cell 18a or 18b defines in transverse cross section and isosceles trapezoid
formed by stiff bands 22a and 22b of fiber-reinforced composite helically wound
in opposite directions along a longitudinal axis. Bands 22a and 22b crisscross
at intervals on the unequal sides of the cells and are attached to face sheets
20a and 20b by co-curing. The unequal sides of cells 18a are inverted with
respect to those of cells 18b to provide contiguous contact of interfacing equal
sides of adjacent cells. Thus, it can be seen that the openwork lattice provides
communication between cells for preventing stagnation of any accumulated
moisture and thereby minimizing corrosion. In addition, the various angles of
bands 22a and 22b formed relative to the interfacing planes of facing sheets 20a
and 20b and to the sides of cells 18a and 18b, provide a sandwich construction
of comparable strength.
The method of fabricating the above-described
lattice core sandwich construction 16 can be explained with reference to FIGS. 2
through 6. Each cell 18a and 18b is formed by wrapping bands 22a and 22b around
and along the length of an elongate mandrel 28 of isosceles trapezoidal
transverse cross section. In the illustrated embodiment, the bands are a
fiber-reinforced, resin-impregnated composite and the mandrel is solid plastic
type material, such as TFE or other similar materials, to facilitate its removal
after curing. Bands 22a and 22b are helically wrapped such that they crisscross
on unequal opposite sides 28a and 28b of mandrel 28 and leave open spaces
therein for moisture communication. The wrapped mandrels are then placed,
alternately inverted, in side-by-side abutment between fiber-reinforced resinous
composite face sheets 20a and 20b and co-cured without any secondary bonding to
the exposed bands of cells 18a and 18b. At this point in the operation, mandrels
28 are removed (see FIG. 2.)
Other acceptable tooling materials and
mandrel configurations are contemplated depending on the application, core and
face sheet materials, and bonding process. Of course, the composition of the
materials and the shape of the mandrels will influence the structural strength
and integrity of the finished lattice core sandwich construction. In some
applications, the mandrel may be inflatable to incorporate complex shapes.
Furthermore, the lattice cells may be fabricated from bands of composites or
metal and attached to the face sheets by secondary bonding.
Some of the
many advantages of the invention should now be readily apparent. For example,
the lattice core Sandwich construction provides passageways from cell to cell
allowing moisture to drain, reducing the tendency for corrosion. The lattice
core provides flexibility and discontinuity for improved tolerance for damage.
Cracks developed due to impact are arrested. The lattice core sandwich
construction is cost effective because it is especially suitable for resin
transfer-molding woven fabrics on reusable solid or inflatable mandrels. The
tendency for unbonding face sheets from the core due to heat and pressure (or
vacuum) during repairs is also substantially reduced or eliminated.
It
will be understood that various changes in the details, materials, steps and
arrangement of parts, which have been herein described and illustrated in order
to explain the nature of the invention, may be made by those skilled in the art
within the principles and scope of the invention as expressed in the appended
claims.
* * * * *
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