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US20010011442A1 - Reinforced panel structure - Google Patents

Reinforced panel structure Download PDF

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Publication number
US20010011442A1
US20010011442A1 US09/742,270 US74227000A US2001011442A1 US 20010011442 A1 US20010011442 A1 US 20010011442A1 US 74227000 A US74227000 A US 74227000A US 2001011442 A1 US2001011442 A1 US 2001011442A1
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United States
Prior art keywords
yarns
type
fabric
ribs
structural panel
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Abandoned
Application number
US09/742,270
Inventor
David Phin
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Scott and Fyfe Ltd
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Individual
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Assigned to SCOTT & FYFE LIMITED, A BRITISH CORPORATION reassignment SCOTT & FYFE LIMITED, A BRITISH CORPORATION ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: PHIN, DAVID DONALD
Publication of US20010011442A1 publication Critical patent/US20010011442A1/en
Abandoned legal-status Critical Current

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C70/00Shaping composites, i.e. plastics material comprising reinforcements, fillers or preformed parts, e.g. inserts
    • B29C70/04Shaping composites, i.e. plastics material comprising reinforcements, fillers or preformed parts, e.g. inserts comprising reinforcements only, e.g. self-reinforcing plastics
    • B29C70/06Fibrous reinforcements only
    • B29C70/10Fibrous reinforcements only characterised by the structure of fibrous reinforcements, e.g. hollow fibres
    • B29C70/16Fibrous reinforcements only characterised by the structure of fibrous reinforcements, e.g. hollow fibres using fibres of substantial or continuous length
    • B29C70/24Fibrous reinforcements only characterised by the structure of fibrous reinforcements, e.g. hollow fibres using fibres of substantial or continuous length oriented in at least three directions forming a three dimensional structure
    • DTEXTILES; PAPER
    • D04BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
    • D04BKNITTING
    • D04B21/00Warp knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
    • D04B21/14Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threads; Fabrics incorporating small auxiliary elements, e.g. for decorative purposes
    • D04B21/16Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threads; Fabrics incorporating small auxiliary elements, e.g. for decorative purposes incorporating synthetic threads
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2403/00Details of fabric structure established in the fabric forming process
    • D10B2403/02Cross-sectional features
    • D10B2403/021Lofty fabric with equidistantly spaced front and back plies, e.g. spacer fabrics
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2505/00Industrial
    • D10B2505/02Reinforcing materials; Prepregs

Definitions

  • This invention relates to a reinforced panel structure and to a method of making such a panel structure.
  • the invention is particularly concerned with panel structures of the type comprising a sheet of fabric which is impregnated during manufacture with a hardenable liquid material.
  • the fabric is a multi-layer knitted structure comprising first and second layers spaced apart by a relatively less dense intermediate layer.
  • Such a reinforced panel structure is described in EP-B-0339227.
  • a reinforced panel made of a knitted fabric which is impregnated with a hardenable resin which is subsequently cured and/or hardened to provide a structural component.
  • the knitted fabric comprises first and second parallel spaced layers which are interlinked by ribs made of multi-filament yarn.
  • the characteristics of these ribs is such that, upon impregnation of the fabric by rolling or other means, the fabric is able to recover the spacing between the layers against the natural tendency of the resin to adhere the layers together.
  • the ribs are appropriately shaped and are made from a particular class of high-stiffness technical yarns. Examples from this particular group of technical yarns include multi-filament yarns made of glass fibre filaments, carbon fibre filaments, aramide fibre filaments and ceramic fibre filaments.
  • the present invention seeks to provide a product of the general type described above but in which there can be greater flexibility in the type of yarn used, particularly in the intermediate layer, so that a more appropriate choice of yarn, based perhaps on price or particular required characteristics in the finished product, can be made, rather than having the yarn type primarily dictated by the required characteristics of high-stiffness mentioned above.
  • a structural panel made of a knitted fabric which is impregnated with a hardenable liquid material which is subsequently cured and/or hardened, said knitted fabric comprising first and second spaced layers which are interlinked by an intermediate pile layer comprising multiple ribs made of yarn, said panel being characterised in that said intermediate pile layer comprises at least some ribs of a first type and at least some ribs of a second type, different to the first type, and in that the ribs of said first type are made from yarns which are sufficiently stiff to provide the fabric with self-recovery characteristics when squeezed.
  • the yarns of the first type are monofilament yarns.
  • Examples of such yarns are synthetic filaments such as polypropylene, polyethylene, polyester and polyamide.
  • monofilament yarns such as proposed above
  • multifilament yarns can be somewhat blurred but workers in the art understand the difference between the two.
  • Monofilament yarns are rarely found less than about 0.04 mm in diameter, whilst 0.1 mm diameter is more typical and diameters even up to 3 mm are possible.
  • a filament used in a multifilament yarn has a diameter typically in the region of about 2 to 25 microns.
  • the thickness of the monofilament yarn used will depend primarily upon the required thickness of the fabric: for example 0.05 to 0.1 mm thickness might be used for a fabric of 4 or 5 mm thickness, whereas a thicker fabric, for example 20 mm thick, might need monofilaments of 0.2 or 0.25 mm thickness, and a fabric in excess of 20 mm would require an appropriate diameter monofilament.
  • Fabrics of thickness as high as 20 mm are not readily obtainable with the fabric described in the aforementioned EP-B-0339227 because there is a practical limit to the stiffness of the technical yarn used.
  • all of the monofilament yarns will have the same characteristics of material and diameter, but there may be special instances where monofilaments of different materials and/or diameter are used.
  • the yarns of the second type can be of any suitable material, in particular, any material which will give the required characteristics in the fabric.
  • the yarns of the second type are multifilament yarns, but they do not need to be of the technical type mentioned above (although they can be), which gives great flexibility in choice of material for the characteristics required.
  • Multifilament yarns are preferred because they are generally more effective in taking up the resin during impregnation and there are some combinations of material which are known to work together particularly well, for example jute and phenolic resin.
  • the yarns of the second type could also be spun yarns or composite yarns such as core spun yarns, or plied yarns or even technical yarns of the aforementioned special variety.
  • random examples include jute, cotton, polyester and glass.
  • the ribs linking the two layers comprise yarns either of the first type—high stiffness, preferably monofilament, yarns for self recovery—or of the second type—any other type of yarn, but preferably multifilament or spun yarns having good resin wetting characteristics.
  • the two types of yarn will normally be distributed evenly over the area of the fabric, although special circumstances may dictate other arrangements.
  • the ratio of yarns of the first type to yarns of the second type will depend upon the particular circumstances—a ratio of 1.1 might be typical—and the pattern of yarns as between the first and second types can be varied to suit the requirements either of the fabric, or of the knitting machine used to make the fabric.
  • yarn of the second type will be the most desirable to use, since this is likely to have the best wetting characteristics; therefore the general rule might be that the use of yarns of the first type is kept to a minimum consistent with providing an effective and even self restoring effect.
  • the fabric may be knitted on any suitable knitting machine; for example a double needle bed knitting machine of the Raschel type would be particularly suitable.
  • a double needle bed knitting machine of the Raschel type would be particularly suitable.
  • Such a machine allows the use of separate beams for each of the first and second layers and for the ribs.
  • Many variations are possible but, as an example, in a machine having 5 beams, two of these could be used for each of the layers, and one for the ribs.
  • the two different required yarn types can each be supplied from a separate beam, or a single beam could be used, itself fed with different yarns from bobbins or a creel.
  • the yarns used for the first and second layers may be the same as one of the yarns used for the ribs of the intermediate pile layer, or they may be different. Indeed, according to the characteristics required of the finished product, the first and second layers, and the intermediate pile layers may all be knitted from different yarns.
  • the ribs linking the first and second layers have a length which is greater than the distance between the layers and that the ribs have a bowed shape.
  • the radius of curvature of the bowed ribs reduces, thus increasing the natural tendency of the ribs to return to their original shape.
  • the structural panel is produced by impregnating the fabric with a hardenable liquid material such as resin.
  • a hardenable liquid material such as resin.
  • the fabric is squeezed to ensure that the resin fully impregnates the fabric and the choice of yarns of the first type for at least some of the ribs linking the two layers ensures that, after such squeezing, the fabric will return to substantially its original shape, in particular, the spacing between the layers will be maintained. Since the intermediate pile layer is of a fairly open construction air pockets will be formed which will provide the advantageous strength and insulative properties required of the finished panel.
  • a method of manufacturing a structural panel made of a knitted fabric comprising first and second spaced layers which are interlinked by an intermediate pile layer comprising multiple ribs of a first type and multiple ribs of a second type, different from the first type, wherein the ribs of the first type are made from yarns which are sufficiently stiff to provide the fabric with self-recovery characteristics when squeezed, said method comprising impregnating the fabric with a hardenable liquid material, placing the fabric in a mould, and holding the fabric in the mould to permit hardening of the liquid material.
  • the impregnated fabric is squeezed prior to being placed in the mould to ensure full penetration of the fabric by the liquid material, and to remove excess liquid material.
  • the mould is of such shape and dimensions that, during its time in the mould, the fabric is selectively constrained and expands, under the influence of the aforementioned ribs of the first type, to substantially fill the mould and thus take up the internal shape of the mould.
  • the monofilament yarns are able to exert considerable force within the mould, thus enabling quite intricate 3D shapes to be moulded with accuracy.
  • FIG. 1 is an edge view of a reinforced panel structure made in accordance with the invention.
  • FIG. 2 is an edge view of the panel of FIG. 1 taken in a direction at right angles to the view of FIG. 1.
  • the panel comprises upper and lower parallel knitted layers 1 , 2 and an intermediate pile layer 3 extending between and separating the layers 1 and 2 .
  • the panel illustrated in the drawings is made from a knitted fabric which has a structure essentially similar to that shown.
  • the fabric is impregnated with a hardenable resin. Once the resin has hardened, a relatively stiff panel is formed.
  • the panel may be planar, as illustrated, or may be some other shape, as required.
  • the layers 1 and 2 may or may not be identical, depending upon the characteristics required of the finished product. Variations between the two layers may include different knitting patterns, different sizes of yarn or different types of yarn.
  • the pile layer 3 comprises two sets of ribs, with the ribs of each set being distributed regularly about the fabric.
  • the two sets of ribs are identified by the reference 4 for the first set, and the reference 5 for the second set (however, only the first set of ribs is visible in FIG. 1).
  • the ribs of each set alternate in the X-Y directions shown, giving a 1:1 ratio between the two sets, but other patterns are possible—for example, more of one set than the other.
  • the density of the ribs can also be varied according to the required characteristics of the finished product.
  • the intermediate layer 3 serves essentially two functions: firstly, in the finished product, the impregnated ribs form pillars maintaining the spacing between the layers 1 and 2 ; secondly, during impregnation by the resin the intermediate layer needs to be capable of restoring the spacing between layers 1 and 2 against the natural tendency of the resin to hold them together.
  • the two sets of ribs are made of materials having different characteristics.
  • the ribs 4 comprise monofilament yarns made from synthetic materials such as polypropylene, polyethylene, polyester and polyamide. Monofilament yarns have the high stiffness necessary to provide the necessary restoring force during impregnation of the fabric.
  • the ribs 5 are made from multifilament yarns, spun yarns, or composite yarns, typically knitted at about 12 gauge and with a weight of about 1100 dtex. Because the restoring function is taken care of by the ribs 4 , the fabric designer can be much more flexible in his choice of yarn to be used for the ribs 5 .
  • Multifilament or spun yarns are advantageous because they exhibit a better “wicking” action than monofilament yarns and they therefore make stronger, reinforced resin pillars maintaining the separation between the layers in the finished product.
  • multifilament and spun yarns prior to impregnation, are not usually particularly stiff and therefore do not significantly contribute to the restoring force necessary during impregnation.
  • both sets of ribs contribute to both of the above-referred to functions
  • the first function is primarily served by the second set of ribs 5 and the second function by the first set of ribs 4 .
  • Examples of the yarn used for the second set of ribs are natural fibres for example jute and cotton or synthetic yarns such as polyester or glass.
  • the extreme flexibility which is available in the choice of yarn for the ribs 5 enables known advantageous combinations to be used, for example jute with phenolic resin systems.
  • the length of the ribs 4 of the first set, and preferably also the ribs 5 of the second set are made slightly greater than the distance between the layers 1 and 2 .
  • the ribs take up a slightly bowed shape which improves the force they are able to impart when restoring the shape during impregnation.
  • the ribs extend at an angle from one layer to the other. Typically this angle is approximately 60° with respect to the plane of the panel.
  • the yarns comprising the ribs are slightly twisted during the knitting process since this has been found to improve the ability of the ribs to maintain their shape. However, this is not a fundamental requirement.
  • the pattern of ribs may be varied to suit the circumstances of use.
  • the ribs are arranged in the plane of the panel along two pairs of parallel rows, intersecting at right angles; however different arrangements, including more random arrangements could be used, subject to the ability of the knitting machine to knit the required pattern.
  • the manufacture of the structural panel of the invention proceeds by way of two basic steps, firstly the knitting of a multilayer fabric and second the impregnation of the fabric with a hardenable resin or similar, followed by the hardening or curing of the resin.
  • the resultant product is a hard, strong, reinforced panel structure which has a variety of uses.
  • the knitting step is preferably carried out on a double bed knitting machine, for example of the Raschel type, including a plurality of bars.
  • a double bed knitting machine for example of the Raschel type, including a plurality of bars.
  • Such machines are well known in the art.
  • the yarn for the different parts of the structure may be fed from different bars: each of the upper and lower layers 1 , 2 preferably requires at least two bars; the intermediate pile layer 3 preferably requires at least one bar.
  • the machine could be set up so that the two different yarns of the pile layer 3 are fed from respective bars.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Composite Materials (AREA)
  • Mechanical Engineering (AREA)
  • Knitting Of Fabric (AREA)
  • Laminated Bodies (AREA)

Abstract

A reinforced panel structure made by impregnating resin in a knitted fabric and allowing the resin to cure. The fabric comprises first and second spaced layers (1,2) which are interlinked by an intermediate pile layer (3) comprising two sets of ribs (4,5). The ribs (4) comprise monofilament yarns having a relatively high stiffness sufficient to provide a restoring force during impregnation of the fabric with resin. The ribs (5) are made from multifilament yarns, spun yarns or composite yarns, selected for desired properties of the finished fabric and/or for their wetting properties during impregnation.
A method of making a reinforced panel structure is also described, this involving placing the impregnated fabric into a closed mold wherein it can expand, under the influence of the monofilament yarns, to fill the mold and thus produce a finished 3D article corresponding in shape to the interior of the mold.

Description

  • This invention relates to a reinforced panel structure and to a method of making such a panel structure. The invention is particularly concerned with panel structures of the type comprising a sheet of fabric which is impregnated during manufacture with a hardenable liquid material. The fabric is a multi-layer knitted structure comprising first and second layers spaced apart by a relatively less dense intermediate layer. [0001]
  • Such a reinforced panel structure is described in EP-B-0339227. In this patent there is described a reinforced panel made of a knitted fabric which is impregnated with a hardenable resin which is subsequently cured and/or hardened to provide a structural component. The knitted fabric comprises first and second parallel spaced layers which are interlinked by ribs made of multi-filament yarn. The characteristics of these ribs is such that, upon impregnation of the fabric by rolling or other means, the fabric is able to recover the spacing between the layers against the natural tendency of the resin to adhere the layers together. To this end, the ribs are appropriately shaped and are made from a particular class of high-stiffness technical yarns. Examples from this particular group of technical yarns include multi-filament yarns made of glass fibre filaments, carbon fibre filaments, aramide fibre filaments and ceramic fibre filaments. [0002]
  • The construction described in EP-B-0339227 is in effect tied to the use of these particular technical yarns since, amongst the available multi-filament yarns, only these have the stiffness required to recover a significant inter-layer spacing during impregnation with resin. However, such yarns are expensive and difficult to process, and may not always provide other required characteristics of the product, either before or after resin impregnation. The present invention seeks to provide a product of the general type described above but in which there can be greater flexibility in the type of yarn used, particularly in the intermediate layer, so that a more appropriate choice of yarn, based perhaps on price or particular required characteristics in the finished product, can be made, rather than having the yarn type primarily dictated by the required characteristics of high-stiffness mentioned above. [0003]
  • According to a first aspect of the invention there is provided a structural panel made of a knitted fabric which is impregnated with a hardenable liquid material which is subsequently cured and/or hardened, said knitted fabric comprising first and second spaced layers which are interlinked by an intermediate pile layer comprising multiple ribs made of yarn, said panel being characterised in that said intermediate pile layer comprises at least some ribs of a first type and at least some ribs of a second type, different to the first type, and in that the ribs of said first type are made from yarns which are sufficiently stiff to provide the fabric with self-recovery characteristics when squeezed. [0004]
  • Preferably the yarns of the first type are monofilament yarns. Examples of such yarns are synthetic filaments such as polypropylene, polyethylene, polyester and polyamide. [0005]
  • The distinction between monofilament yarns, such as proposed above, and multifilament yarns can be somewhat blurred but workers in the art understand the difference between the two. Monofilament yarns are rarely found less than about 0.04 mm in diameter, whilst 0.1 mm diameter is more typical and diameters even up to 3 mm are possible. By contrast a filament used in a multifilament yarn has a diameter typically in the region of about 2 to 25 microns. [0006]
  • The thickness of the monofilament yarn used will depend primarily upon the required thickness of the fabric: for example 0.05 to 0.1 mm thickness might be used for a fabric of 4 or 5 mm thickness, whereas a thicker fabric, for example 20 mm thick, might need monofilaments of 0.2 or 0.25 mm thickness, and a fabric in excess of 20 mm would require an appropriate diameter monofilament. Fabrics of thickness as high as 20 mm are not readily obtainable with the fabric described in the aforementioned EP-B-0339227 because there is a practical limit to the stiffness of the technical yarn used. Generally speaking all of the monofilament yarns will have the same characteristics of material and diameter, but there may be special instances where monofilaments of different materials and/or diameter are used. [0007]
  • The yarns of the second type can be of any suitable material, in particular, any material which will give the required characteristics in the fabric. Preferably the yarns of the second type are multifilament yarns, but they do not need to be of the technical type mentioned above (although they can be), which gives great flexibility in choice of material for the characteristics required. Multifilament yarns are preferred because they are generally more effective in taking up the resin during impregnation and there are some combinations of material which are known to work together particularly well, for example jute and phenolic resin. [0008]
  • The yarns of the second type could also be spun yarns or composite yarns such as core spun yarns, or plied yarns or even technical yarns of the aforementioned special variety. [0009]
  • To illustrate the diversity of possible natural or synthetic yarns which may be used, random examples include jute, cotton, polyester and glass. [0010]
  • Not all the yarns of the second type need to be the same; as with the monofilament yarns, a mixture of materials and diameters can be used to achieve special characteristics. [0011]
  • Thus it will be seen that the ribs linking the two layers comprise yarns either of the first type—high stiffness, preferably monofilament, yarns for self recovery—or of the second type—any other type of yarn, but preferably multifilament or spun yarns having good resin wetting characteristics. The two types of yarn will normally be distributed evenly over the area of the fabric, although special circumstances may dictate other arrangements. The ratio of yarns of the first type to yarns of the second type will depend upon the particular circumstances—a ratio of 1.1 might be typical—and the pattern of yarns as between the first and second types can be varied to suit the requirements either of the fabric, or of the knitting machine used to make the fabric. [0012]
  • It is normally the case that yarn of the second type will be the most desirable to use, since this is likely to have the best wetting characteristics; therefore the general rule might be that the use of yarns of the first type is kept to a minimum consistent with providing an effective and even self restoring effect. [0013]
  • The fabric may be knitted on any suitable knitting machine; for example a double needle bed knitting machine of the Raschel type would be particularly suitable. Such a machine allows the use of separate beams for each of the first and second layers and for the ribs. Many variations are possible but, as an example, in a machine having 5 beams, two of these could be used for each of the layers, and one for the ribs. In connection with the intermediate rib layer, the two different required yarn types can each be supplied from a separate beam, or a single beam could be used, itself fed with different yarns from bobbins or a creel. [0014]
  • The yarns used for the first and second layers may be the same as one of the yarns used for the ribs of the intermediate pile layer, or they may be different. Indeed, according to the characteristics required of the finished product, the first and second layers, and the intermediate pile layers may all be knitted from different yarns. [0015]
  • In order to make the maximum benefit of the stiffness of the yarns of the first type, it is preferred that the ribs linking the first and second layers have a length which is greater than the distance between the layers and that the ribs have a bowed shape. When the fabric is compressed during impregnation with resin, the radius of curvature of the bowed ribs reduces, thus increasing the natural tendency of the ribs to return to their original shape. [0016]
  • Following manufacture of the knitted fabric, the structural panel is produced by impregnating the fabric with a hardenable liquid material such as resin. During this process the fabric is squeezed to ensure that the resin fully impregnates the fabric and the choice of yarns of the first type for at least some of the ribs linking the two layers ensures that, after such squeezing, the fabric will return to substantially its original shape, in particular, the spacing between the layers will be maintained. Since the intermediate pile layer is of a fairly open construction air pockets will be formed which will provide the advantageous strength and insulative properties required of the finished panel. [0017]
  • According to a second aspect of the invention there is provided a method of manufacturing a structural panel made of a knitted fabric comprising first and second spaced layers which are interlinked by an intermediate pile layer comprising multiple ribs of a first type and multiple ribs of a second type, different from the first type, wherein the ribs of the first type are made from yarns which are sufficiently stiff to provide the fabric with self-recovery characteristics when squeezed, said method comprising impregnating the fabric with a hardenable liquid material, placing the fabric in a mould, and holding the fabric in the mould to permit hardening of the liquid material. Preferably the impregnated fabric is squeezed prior to being placed in the mould to ensure full penetration of the fabric by the liquid material, and to remove excess liquid material. [0018]
  • Preferably the mould is of such shape and dimensions that, during its time in the mould, the fabric is selectively constrained and expands, under the influence of the aforementioned ribs of the first type, to substantially fill the mould and thus take up the internal shape of the mould. During this process the monofilament yarns are able to exert considerable force within the mould, thus enabling quite intricate 3D shapes to be moulded with accuracy. [0019]
  • In order that the invention may be better understood, an embodiment thereof will now be described by way of example only and with reference to the accompanying drawings in which: [0020]
  • FIG. 1 is an edge view of a reinforced panel structure made in accordance with the invention; and [0021]
  • FIG. 2 is an edge view of the panel of FIG. 1 taken in a direction at right angles to the view of FIG. 1. [0022]
  • Referring to the drawings, the panel comprises upper and lower parallel knitted layers [0023] 1, 2 and an intermediate pile layer 3 extending between and separating the layers 1 and 2.
  • The panel illustrated in the drawings is made from a knitted fabric which has a structure essentially similar to that shown. In order to manufacture the panel the fabric is impregnated with a hardenable resin. Once the resin has hardened, a relatively stiff panel is formed. The panel may be planar, as illustrated, or may be some other shape, as required. [0024]
  • The layers [0025] 1 and 2 may or may not be identical, depending upon the characteristics required of the finished product. Variations between the two layers may include different knitting patterns, different sizes of yarn or different types of yarn.
  • The [0026] pile layer 3 comprises two sets of ribs, with the ribs of each set being distributed regularly about the fabric. In the drawings, the two sets of ribs are identified by the reference 4 for the first set, and the reference 5 for the second set (however, only the first set of ribs is visible in FIG. 1). The ribs of each set alternate in the X-Y directions shown, giving a 1:1 ratio between the two sets, but other patterns are possible—for example, more of one set than the other. The density of the ribs can also be varied according to the required characteristics of the finished product.
  • The [0027] intermediate layer 3 serves essentially two functions: firstly, in the finished product, the impregnated ribs form pillars maintaining the spacing between the layers 1 and 2; secondly, during impregnation by the resin the intermediate layer needs to be capable of restoring the spacing between layers 1 and 2 against the natural tendency of the resin to hold them together.
  • To achieve these two functions the two sets of ribs are made of materials having different characteristics. The [0028] ribs 4 comprise monofilament yarns made from synthetic materials such as polypropylene, polyethylene, polyester and polyamide. Monofilament yarns have the high stiffness necessary to provide the necessary restoring force during impregnation of the fabric. The ribs 5 are made from multifilament yarns, spun yarns, or composite yarns, typically knitted at about 12 gauge and with a weight of about 1100 dtex. Because the restoring function is taken care of by the ribs 4, the fabric designer can be much more flexible in his choice of yarn to be used for the ribs 5. Multifilament or spun yarns are advantageous because they exhibit a better “wicking” action than monofilament yarns and they therefore make stronger, reinforced resin pillars maintaining the separation between the layers in the finished product. However, prior to impregnation, multifilament and spun yarns are not usually particularly stiff and therefore do not significantly contribute to the restoring force necessary during impregnation.
  • Thus although, to an extent, both sets of ribs contribute to both of the above-referred to functions, the first function is primarily served by the second set of [0029] ribs 5 and the second function by the first set of ribs 4.
  • Examples of the yarn used for the second set of ribs are natural fibres for example jute and cotton or synthetic yarns such as polyester or glass. The extreme flexibility which is available in the choice of yarn for the [0030] ribs 5 enables known advantageous combinations to be used, for example jute with phenolic resin systems.
  • In order to provide the maximum restoring force, the length of the [0031] ribs 4 of the first set, and preferably also the ribs 5 of the second set, are made slightly greater than the distance between the layers 1 and 2. The result of this is that, when seen from the direction corresponding to FIG. 1, the ribs take up a slightly bowed shape which improves the force they are able to impart when restoring the shape during impregnation. When seen from the direction corresponding to FIG. 2, the ribs extend at an angle from one layer to the other. Typically this angle is approximately 60° with respect to the plane of the panel. Preferably the yarns comprising the ribs are slightly twisted during the knitting process since this has been found to improve the ability of the ribs to maintain their shape. However, this is not a fundamental requirement.
  • The pattern of ribs may be varied to suit the circumstances of use. In the illustrated embodiment the ribs are arranged in the plane of the panel along two pairs of parallel rows, intersecting at right angles; however different arrangements, including more random arrangements could be used, subject to the ability of the knitting machine to knit the required pattern. [0032]
  • The manufacture of the structural panel of the invention proceeds by way of two basic steps, firstly the knitting of a multilayer fabric and second the impregnation of the fabric with a hardenable resin or similar, followed by the hardening or curing of the resin. The resultant product is a hard, strong, reinforced panel structure which has a variety of uses. [0033]
  • The knitting step is preferably carried out on a double bed knitting machine, for example of the Raschel type, including a plurality of bars. Such machines are well known in the art. Although the whole fabric is knitted as a unitary structure, the yarn for the different parts of the structure may be fed from different bars: each of the upper and lower layers [0034] 1, 2 preferably requires at least two bars; the intermediate pile layer 3 preferably requires at least one bar. For example, the machine could be set up so that the two different yarns of the pile layer 3 are fed from respective bars.

Claims (14)

1. A structural panel made of a knitted fabric which is impregnated with a hardenable liquid material which is subsequently cured and/or hardened, said knitted fabric comprising first and second spaced layers which are interlinked by an intermediate pile layer comprising multiple ribs made of yarn, said panel being characterised in that said intermediate pile layer comprises at least some ribs of a first type and at least some ribs of a second type, different to the first type, and in that the ribs of said first type are made from yarns which are sufficiently stiff to provide the fabric with self-recovery characteristics when squeezed.
2. A structural panel according to
claim 1
wherein the yarns of the first type are monofilament yarns.
3. A structural panel according to
claim 2
wherein the yarns of the first type have a thickness in the range 0.05 to 0.25 mm.
4. A structural panel according to any one of
claims 1
to
3
wherein the yarns of the second type are multifilament yarns.
5. A structural panel according to any one of
claims 1
to
3
wherein the yarns of the second type are spun yarns, composite yarns, plied yarns or technical yarns.
6. A structural panel as claimed in any one of the preceding claims wherein all of the yarns of the second type are of the same variety.
7. A structural panel as claimed in any one of
claims 1
to
5
wherein said second yarns include mixtures of different sizes and/or varieties of yarn.
8. A structural panel as claimed in any one of the preceding claims wherein the yarns of the first type and yarns of the second type are distributed evenly over the area of the fabric.
9. A structural panel as claimed in any one of the preceding claims wherein at least the ribs of the first type have a length which is greater than the distance between the layers, and have a bowed shape.
10. A structural panel as claimed in any one of the preceding claims wherein the yarns which comprise the ribs, at least of the first type, are slightly twisted so that they are torsionally biased in the knitted fabric.
11. A method of manufacturing a structural panel made of a knitted fabric comprising first and second spaced layers which are interlinked by an intermediate pile layer comprising multiple ribs of a first type and multiple ribs of a second type, different from the first type, wherein the ribs of the first type are made from yarns which are sufficiently stiff to provide the fabric with self-recovery characteristics when squeezed, said method comprising impregnating the fabric with a hardenable liquid material, placing the fabric in a mould, and holding the fabric in the mould to permit hardening of the liquid material.
12. A method as claimed in
claim 11
wherein, prior to introduction into the mould, the impregnated fabric is squeezed to ring out excess liquid material.
13. A method as claimed in either one of claims 11 or 12 wherein the mould is of such shape and dimensions that, during its time in the mould, the impregnated squeezed fabric is selectively constrained and expands, under the influence of the ribs of the first type, to substantially fill the mould and thus produce a finished structural panel having a 3D shape corresponding to the interior of the mould.
14. A method as claimed in any one of
claims 11
to
13
wherein the liquid material is a resin.
US09/742,270 1999-12-23 2000-12-21 Reinforced panel structure Abandoned US20010011442A1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
GBGB9930567.4A GB9930567D0 (en) 1999-12-23 1999-12-23 Reinforced panel structure
GB9930567.4 1999-12-23

Publications (1)

Publication Number Publication Date
US20010011442A1 true US20010011442A1 (en) 2001-08-09

Family

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Application Number Title Priority Date Filing Date
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Country Status (3)

Country Link
US (1) US20010011442A1 (en)
EP (1) EP1111110A3 (en)
GB (2) GB9930567D0 (en)

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US6779562B2 (en) 2002-06-12 2004-08-24 Trw Occupant Restraint Systems Gmbh & Co. Kg Gas conduit pipe
WO2007095668A1 (en) * 2006-02-22 2007-08-30 Futuris Automotive Interiors (Australia) Pty Ltd Composite structure
US20080182047A1 (en) * 2007-01-30 2008-07-31 Chinniah Thiagarajan Multiwall Polymer Sheet, and Methods for Making and Articles Using the Same
JP2014222118A (en) * 2013-05-13 2014-11-27 株式会社ユニチカテクノス Disk-shaped humidification element

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NL1025846C2 (en) * 2004-03-30 2005-10-03 Saint Gobain Syncoglas N V Reinforcement materials, reinforcement blankets, and composites comprising these reinforcement materials.

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DE3139402A1 (en) * 1981-10-03 1983-04-14 Hoechst Ag, 6230 Frankfurt Multilayer knitted web and its use as a heat-exchanger element and as a fibre reinforcement
DE3813741C2 (en) * 1988-04-23 1998-12-24 Vorwerk Co Interholding Knitted component and process for its manufacture
FR2653142B1 (en) * 1989-10-16 1993-04-23 Chaignaud Ind COMPOSITE MATERIAL AND ITS MANUFACTURING METHOD.
JP3269830B2 (en) * 1991-07-08 2002-04-02 アルケア株式会社 Substrate for holding curable resin composition for orthopedic surgery
BE1006090A4 (en) * 1992-07-13 1994-05-10 Leuven K U Res & Dev COMPOSITE AND A COMPOSITE STRUCTURE BASED ON A THREE-DIMENSIONAL knit.
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US5422153A (en) * 1993-06-25 1995-06-06 Marumiya Shoko Co., Ltd. Weft knitted composite fabric
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Cited By (10)

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Publication number Priority date Publication date Assignee Title
US6779562B2 (en) 2002-06-12 2004-08-24 Trw Occupant Restraint Systems Gmbh & Co. Kg Gas conduit pipe
WO2007095668A1 (en) * 2006-02-22 2007-08-30 Futuris Automotive Interiors (Australia) Pty Ltd Composite structure
US20080318021A1 (en) * 2006-02-22 2008-12-25 Futuris Automotive Interiors (Australia) Pty Ltd Composite Structure
CN101405129B (en) * 2006-02-22 2012-09-12 富卓汽车内饰(澳大利亚)股份有限公司 Composite structure, forming method and tridimensional preform
AU2007219038B2 (en) * 2006-02-22 2013-04-18 Adient Luxembourg Holding S.À.R.L Composite structure
US8790565B2 (en) * 2006-02-22 2014-07-29 Futuris Automotive Interiors (Australia) Pty Ltd Composite structure
US20140302262A1 (en) * 2006-02-22 2014-10-09 Futuris Automotive Interiors (Australia) Pty Ltd Composite Structure
US20080182047A1 (en) * 2007-01-30 2008-07-31 Chinniah Thiagarajan Multiwall Polymer Sheet, and Methods for Making and Articles Using the Same
US9963879B2 (en) * 2007-01-30 2018-05-08 Sabic Global Technologies B.V. Multiwall polymer sheet, and methods for making and articles using the same
JP2014222118A (en) * 2013-05-13 2014-11-27 株式会社ユニチカテクノス Disk-shaped humidification element

Also Published As

Publication number Publication date
GB2357522A (en) 2001-06-27
EP1111110A2 (en) 2001-06-27
GB9930567D0 (en) 2000-02-16
GB0031119D0 (en) 2001-01-31
EP1111110A3 (en) 2002-04-17

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