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AU782938B2 - Resilient product - Google Patents
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AU782938B2 - Resilient product - Google Patents

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Publication number
AU782938B2
AU782938B2 AU29268/02A AU2926802A AU782938B2 AU 782938 B2 AU782938 B2 AU 782938B2 AU 29268/02 A AU29268/02 A AU 29268/02A AU 2926802 A AU2926802 A AU 2926802A AU 782938 B2 AU782938 B2 AU 782938B2
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Australia
Prior art keywords
section
interlayer
working section
resilient product
product according
Prior art date
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Ceased
Application number
AU29268/02A
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AU2926802A (en
Inventor
Norman Ross Mills
Steven Geoffrey Rickard
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
BOSS RUBBER TECHNOLOGIES Pty Ltd
Original Assignee
BOSS RUBBER TECHNOLOGIES Pty L
HENKEL AUSTRALIA Pty Ltd
Priority date (The priority date 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 date listed.)
Filing date
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Priority claimed from AUPR7306A external-priority patent/AUPR730601A0/en
Application filed by BOSS RUBBER TECHNOLOGIES Pty L, HENKEL AUSTRALIA Pty Ltd filed Critical BOSS RUBBER TECHNOLOGIES Pty L
Priority to AU29268/02A priority Critical patent/AU782938B2/en
Publication of AU2926802A publication Critical patent/AU2926802A/en
Assigned to HENKEL AUSTRALIA PTY LTD, BOSS RUBBER TECHNOLOGIES PTY LTD reassignment HENKEL AUSTRALIA PTY LTD Alteration of Name(s) of Applicant(s) under S113 Assignors: BOSS RUBBER TECHNOLOGIES PTY LTD, CLING ADHESIVE PRODUCTS PTY. LTD.
Application granted granted Critical
Publication of AU782938B2 publication Critical patent/AU782938B2/en
Assigned to BOSS RUBBER TECHNOLOGIES PTY LTD reassignment BOSS RUBBER TECHNOLOGIES PTY LTD Alteration of Name(s) of Applicant(s) under S113 Assignors: BOSS RUBBER TECHNOLOGIES PTY LTD, HENKEL AUSTRALIA PTY LTD
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Description

P/00/011 Regulation 3.2
AUSTRALIA
Patents Act 1990
ORIGINAL
COMPLETE SPECIFICATION STANDARD PATENT oeoo oooo *o o o* oooo oooo Invention Title: RESILIENT PRODUCT ~F
SEC
113 4, Applicant: BOSS RUBBER TECHNOLOGIES PTY. LTD. and -LINGe ADHESIVE PReDu' P" TD.
r P L+4 The following statement is a full description of this invention, including the best method of performing it known to me: 1 Douneai RESILIENT PRODUCT This invention relates to a resilient product adapted to be attached to a support so as to, for example, function as a sealing member. In another example the resilient product may function as a resilient mounting member. It will be convenient to hereinafter describe the invention with particular reference to sealing members, but it is to be understood that the invention has wider application including the resilient mounting member example.
A resilient product according to the invention is especially, but not exclusively, useful in providing a weather or dust seal for vehicle doors and other movable members. Vehicle door seals typically include a length of extruded rubber or other resilient material that is secured to the door and/or the frame surrounding the door opening. Such seals are commonly attached to the door or the frame by means of clips, or other fastening devices. The need for such fastening devices adds to the cost of the seal, and also adds to the time required (and consequent cost) to attach the seal to its support.
S" In relatively recent times it has been proposed to attach a resilient seal to a vehicle door or frame by means of a double sided adhesive tape. That technique has not been satisfactory because of a tendency of the resilient seal member to separate from the adhesive tape.
It is an object of the present invention to provide a resilient product that can be satisfactorily attached to a support by means of an adhesive. It is a S further object of the invention to provide an improved method of manufacturing a resilient product, such as (by way of example) a sealing member. Yet another object of the invention is to provide a resilient sealing member having a surface thereof formed at least in part of a pressure sensitive adhesive whereby the member is able to be secured to a support. It is a still further object of the invention to provide a method of manufacturing such a sealing member.
Another object of the invention is to provide an improved seal for vehicle doors.
Another object of the invention is to provide an improved resilient mounting member.
A resilient product according to the invention includes a working section formed of a relatively soft elastomeric material, a mounting section having an adhesive surface for securing the working section to a support, and an interlayer formed of a relatively hard material interposed between the working section and the mounting section and being secured to both said working section and said mounting section, wherein the interlayer is secured to the working section by fusion welding.
In an example product suitable for use as a vehicle door seal, the working section is formed of Santoprene rubber, or a material of similar H,\Shonal\Keep\Speci\29268-02 Vol Amendment 12/08/04 softness, and the interlayer is formed of polypropylene, or a material of similar hardness.
The interlayer may be attached to the working section by fusion welding, and the mounting section may be attached to the interlayer by any suitable means, such as adhesion. Alternative to forming the interlayer separate from the working section, it may be created by treating a surface of the working section to transform that surface into a relatively hard layer whilst leaving the remainder of the working section in a relatively soft state, which may be the soft state initially possessed by the working section. The mounting section is preferably a double sided adhesive strip or layer having a release liner of suitable material over the adhesive surface remote from the interlayer.
In circumstances where the mounting section is a double sided adhesive tape, it is preferred that the stretchability (elasticity) of the tape is substantially Oo" the same as that of the interlayer. If there is a difference, it is preferable that 15 the elasticity of the tape is greater than that of the interlayer. The working section however, which may be an extruded section or profile of Santoprene rubber for example, will usually have greater flexibility and elasticity than both the mounting section and the interlayer.
The interlayer may be formed of a sheet or strip of polypropylene, or other suitable material, and may be combined with the adhesive tape prior to being connected to the working section. In those circumstances, it will usually be the case that the interlayer/tape composite will be stored in roll form with the tape outermost to facilitate subsequent connection to the working section. A release liner of paper, plastic, or other suitable material, will remain over and protect the outer adhesive surface of the tape until the resilient product is being made ready for attachment to a support.
It is preferred that the two opposite surfaces of the liner are subjected to differential surface treatment prior to that liner being applied to the adhesive surface of the tape. That differential treatment is designed to ensure that the liner remains in place on the adhesive tape as the tape is being unwound from the stored condition.
According to another aspect of the invention there is provided a method of producing a resilient product including the following steps: bringing an adhesive surface of a mounting section into engagement with one surface of a relatively hard interlayer, securing the mounting section to the interlayer by adhesion to form a composite, applying a compressional force to said mounting section interlayer composite, H.\Shonal\Keep\Speci\29268-02 Vol Amendment 12/08/04 feeding the mounting section interlayer composite into the path of molten material intended to form a relatively soft working section, and fusing the working section to an opposed surface of the interlayer.
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S S H,\Shonal\Keep\Speci\29268-02 Vol Amendment 12/08/04 4 It will be convenient to hereinafter further describe the invention with particular reference to the accompanying drawings. It is to be understood however, that the particularity of those drawings and the associated detailed description does not supersede the generality of the preceding relatively broad description of the invention.
Figure 1 is a cross-sectional view of a resilient product 1 according to one embodiment of the invention. The product 1 includes a working section 2 connected to a mounting section 3 through an interlayer 4. The mounting section 3 has an adhesive surface 5 that is protected by a suitable removable overlay 6. The relative thicknesses of the various components are not drawn to scale, and have been exaggerated for convenience of illustration.
The working section 2 is preferably formed of a relatively soft elastomeric material such as Santoprene rubber, or another suitable thermoplastic S.elastomer. The "relatively soft" characteristic of the material is to be understood S 15 as normally encompassing hardnesses in the range Shore A5 to Shore inclusive. There may be circumstances under which the working section 2 has a hardness falling outside of that range, but in the case of a product intended for use as a sealing member for vehicle doors) the hardness will generally fall within the stated range. A material suitable for use as a sealing member will preferably be a low flexural modulus material 0.3 Mpa to 150 Mpa, inclusive, at 230C) that can be stretched to at least twice its original length at room temperature, and be able to return to its approximate original length when stress is removed. That is, it will generally have a high elastic memory and a recoverable elongation in the order of 200% to 1500%, inclusive. Furthermore, the material preferably exhibits very low tension or compression set during stretching or compression 10% to 40% at tensile break), and should preferably behave like rubber.
Other materials could be used for the working section 2. By way of example, a sponge rubber or a foamed elastomeric polymer (such as foamed Santoprene or PVC foam) could be used. In such cases, the material might be selected on the basis of specific gravity rather than hardness as in the previous example. Materials having specific gravity in the range 0.1 to 1.2, inclusive, could be suitable. By way of example, PVC foam having a specific gravity in the range 0.8 to 1.2 inclusive could be suitable.
W:KATKYHSPECNtossnter.dOc The relatively hard interlayer 4 could be formed of any suitable material, including polypropylene or another polymer such as PVC. The "relatively hard" requirement will generally be satisfied if the material has a hardness in the range Rockwell R80 to Rockwell R150, inclusive, but hardnesses outside of that range may be acceptable in some circumstances. The selected material will preferably have elongation (at break) in the order of 100% to 500%, inclusive, and a flexural modulus of 130 Mpa to 1200 Mpa, inclusive, at 23 0 C. It is also preferred, but not essential, that the interlayer has a thickness in the range 0.3mm to 2.0mm, inclusive. A thickness in the range 1.0mm to 2.0mm is usually preferred. A thickness greater than 2.0mm is unlikely to be used if the product 1 is intended as a sealing member, but there may be circumstances .".that require or enable such a large thickness.
The thickness of the interlayer 4 may be selected by reference to the °configuration and/or elasticity of the working section 2. By way of example, a relatively soft unsupported working section 2 may require a thicker interlayer 4 :than would be required for a relatively stiff and therefore relatively selfsupporting working section 2.
The interlayer 4 may be formed by a sheet or strip of either oriented polypropylene, or biaxially oriented polypropylene. Whichever of those materials is adopted it is preferably a material having dimensional stability eg., a maximum variation of 3% at 80 0 C (AS2324-1979 appendix A suitable material is semi-rigid low plasticised PVC sheeting having an Elmendorf tear strength of 40 N/mm minimum, and a BSS hardness of (BS.2782, method 307A).
Although the interlayer 4 is described above as being formed separate from the working section 2, it is to be understood that it may be formed by an integral surface region of the working section 2. That is, a surface of the working section 2 may be treated so as to transform the material at that surface from a relatively soft state to a relatively hard state. The treatment may be selected so as to transform the state of the material through a suitable depth below the treated surface whilst leaving the remainder of the working section 2 in its original relatively soft state, or substantially in that state.
The mounting section 3 may be of any suitable form or composition. In one arrangement, the mounting section 3 is formed of a strip or sheet having a 6 pressure sensitive adhesive at each of two opposite surfaces 5 and 7. The strip or sheet may be composed of a suitable carrier material, such as non-woven rayon, saturated with an appropriate adhesive. Preferably, the carrier material has an ultimate elongation of 2 to A solvent acrylic type adhesive may be suitable, and particularly such an adhesive providing the section 3 with peel adhesion of approximately 7N/cm. In the final assembly as shown by Figure 1, the outermost surface 5 of the mounting section 3 is covered by a protective and releasable layer 6 of suitable material, such as a sheet of paper or thin plastic, treated with, or including, an appropriate release agent. The arrangement is such that the protective layer 6 can be removed without disturbing the adhesive characteristics of the surface It is to be understood that the mounting section 3 could be formed in other ways. By way of example, the adhesive could be a transfer adhesive, or •could be applied to the section 3 by spraying or another suitable process.
S 15 Assuming the resilient product 1 is intended to function as a sealing member, such as a seal for a vehicle door, the working section 2 could be formed by any suitable process, such as extrusion or moulding. Figure 2 shows, in diagrammatic form, an example moulded working section 2 of rectangular frame-like form. Figure 3 shows, again in diagrammatic, the transverse cross-sectional form of an example extruded working section 2.
Both examples are shown for illustrative purposes only. In a further example -T.i (not shown), the working section 2 may be formed as a relatively broad sheet, and a moulding process or an extrusion process could be used for that purpose.
The sheet so formed may be subsequently divided into strips, or sections of other shapes, as may be required.
Figure 9 illustrates a preferred embodiment of the resilient product as previously described. For simplification of understanding of the ilustration like features are referred to by like reference numerals from Figure 1. The preferred embodiment illustrated in Figure 9 includes a cap section 2a associated with the working section 2b. The cap section is formed from a material which is harder than the working section. The cap section may have a hardness greater than Rockwell R80. The cap section may also be formed separately from the working section and secured to the working section by fusion or other welding process. The cap section may be formed from any suitable material. By way of WIXATHPEagxossntM.doc example the cap section may be formed from polypropylene, rigid PVC or other rigid thermoplastic.
Referring now to Figure 10 which illustrates a further preferred embodiment of the invention where like reference numerals refer to like features previously described. The illustrated resilient product includes a cap section 2a and a working section 2b wherein the cap section is formed integrally with the working section. The cap section and working section may be formed by any suitable process. In one example of the process a portion of the working section is treated so as to transform that portion into the relatively hard cap section 2a. In another example of the process the cap section 2a and working section 2b are co-extruded. The relative hardness of the cap section may increase throughout its depth, or may be relatively constant for the depth of the .cap section.
Figure 4 is a diagrammatic illustration of an example method of manufacturing a resilient product 1 according to the present invention. In that :example method, a working section 2 is produced at the station 8 by moulding, extrusion, or any other suitable process. A relatively hard interlayer 4 is moved from the station 9 so as to be placed in face to face relationship with the working section 2. The interlayer 4 and the working section 2 are connected together at the station 10 by any suitable means. By way of example, the interlayer 4 and the working section 2 may be connected by a melt adherence (welding) process. A first composite 2,4 is thereby produced.
It may be necessary to treat the exposed surface of the interlayer 4 to enable, or assist, a connection to be made with a mounting section 3 as previously described. Assuming the interlayer 4 is formed of a polypropylene, the exposed surface might be treated by corona discharge at the station 11. It is to be understood however, that other types of surface treatment(eg., etching, u ciI etchi., blue flaming, or chemical treatment) could be adopted to condition the interlayer 4 so as to promote an adhesive connection with the mounting section 3.
Whatever the nature of the surface treatment, it is preferred that the treated surface has surface adhesion in the range 34 to 42 Dyne, inclusive 38 Dyne). The mounting section 3 may be stored in the form of a roll 12, and is unwound from the roll 12 as it is moved into station 13 to be combined with the composite 2,4. Preferably, a protective release liner 6 is provided over one 8 surface only of the tape 3, which is the outside surface 5 (Figure The differential treatment to opposite surfaces of the liner 6 as previously described ensures that only one of those opposite surfaces separates from the adhesive tape 3 as the tape 3 is being unwound from the roll 12.
It is preferred that the adhesive tape 3 is connected to the composite 2,4 under controlled conditions. By way of example, conditions such as temperature, pressure of application, and exposure to dust, may be controlled to maximise the strength of adhesion between the two bodies.
Figure 5 illustrates a variation of the Figure 4 arrangement involving the use of cross-head extrusion. In the Figure 5 arrangement, the interlayer 4 is fed into the path of the molten material intended to form the working section 2, and emerges from the station 8 in face to face relationship with the working section 2. The working section 2 and the interlayer 4 may be connected together (eg., by melt adherence) while at the station 8. Alternatively, that connection could S 15 occur, or be enhanced, at the station 10 as previously described. In all other respects, the method of Figure 5 may be generally in accordance with the method of Figure 4.
Figure 6 illustrates another example method in which the working section 2 and the interlayer 4 are co-extruded at the station 8. The succeeding steps of the method may be as described above in connection with Figure 4. In a variation of the Figure 6 method, the mounting section 3 may be applied to the -T.i interlayer 4 at station 8. In such a method, the final product 1 will emerge from the station 8, and the stations 11 and 13 will not be required.
Figure 7 illustrates yet another example method in which the working section 2 (however formed) is passed to a treatment station 15 at which a surface region of the section 2 is transformed into a relatively hard state, as previously described. The resulting composite 2,4 may then be passed through successive method steps as described in relation to Figure 4.
Still another example method is shown by Figure 8 which involves crosshead extrusion as briefly discussed above in connection with Figure 5. In the Figure 8 arrangement the double sided adhesive tape 3 is fed through a pressing station 18 including at least one pair of nip rolls 19. The interlayer 4 is also fed through the station 18 so as to overly and engage the adhesive surface 7 of the tape 3. Prior to entering the station 18, the interlayer 4 may be passed W:W(ATHYWSPECMssn At.=c 9 through a treatment station 11 at which at least the surface at the interface 16 is treated by corona discharge, for example.
The tape 3 and the intertayer 4 are pressed together at the station 18 under controlled conditions including, for example, controlled pressure between the tape 3 and the interlayer 4. The process within the station 18 may be carried out at ambient temperature. It is preferred that after passing through the rolls 19 the tape/interlayer composite 3,4, is passed over or through other rolls (not shown) that are oriented or otherwise arranged to enhance the bond between the tape 3 and the interlayer 4. That may be done by a pushing, rubbing, or massaging operation. By way of example, a compressive force applied to an exposed surface of the tape and/or the interlayer 4 may be caused to travel across the exposed surface in a direction transverse to, or angularly relative to, the direction of longitudinal movement of the composite 3,4. Such •treatment of the composite 3,4 may be carried out by passing the composite through a pair of contra-rotating rolls (not shown), at least one of which may have its rotational axis disposed at an angle other than 900 relative to the S" direction of movement of the composite 3,4.
The composite 3,4 is then passed through the head chamber 20 of an extruder 21 containing a molten body 22 of the material intended to form the working section 2. The arrangement is such that the composite 3,4 and the working section 2 are united within the chamber 20 by melt adhesion. After emerging from the chamber 20, the resulting new composite 2,3,4 is passed through a controlled temperature water bath 23 so as to cool the composite 2,3,4 and set the working section 2 at the profile or cross-sectional shape dictated by the outlet end 24 of the extruder 21.
Since the composite 3,4 is fed through the extruded chamber 20 with the protective liner 6 in place, it will usually be desirable to form that liner from a suitable material, such as a plastics material, able to withstand the temperature conditions within the chamber 20 as well as the conditions within the water bath 23. Suitable materials include polyesters, and it is preferable that the selected material is one that has a low level of elasticity and therefore resists stretching.
A resilient product 1 as described has a strong resistance to delamination of the product, particularly at the interface 16 (Figure 1) of the interlayer 4 and the mounting section 3. That is believed to arise because the W KATMsPE Mossaftaoc relatively hard interlayer 4 shields the interface 16 from the influence of movement occurring within the working section 2 because of compression or stretching of that section when in use as a vehicle door seal).
Delamination at the interface 17 (Figure 1) between the working section 2 and the interlayer 4 is unlikely to occur because of the very strong bond existing between those two components.
Other possibly relevant factors include: 1. The mounting section 3 (the adhesive tape) is relatively inelastic, and preferably has a degree of elasticity similar to that of the interlayer 4. Relative movement between the mounting section 3 and the interlayer 4 is therefore minimised, and that reduces the possibility of delamination.
0: 2. The use of fusion welding to unite the interlayer 4 and the working section 2 resists separation of the interlayer 4 and the working section 2 when the working section 2 is being stretched or otherwise forcibly distorted.
3. When the product is being applied to a rigid support, such as a vehicle door frame, the tape/interlayer composite 3,4 enables that composite to resist stretching because of its relatively low level of elasticity. As a result, the bond between the two parts of the composite remains substantially stress free after completion of the installation process.
The product 1 is ideally suited for applications in which the product is adhered directly to a support, such as a vehicle door or door frame. It will be appreciated that when used as a vehicle door seal (for example) the product is able to be conveniently and rapidly attached to its support. Other benefits will be apparent from the preceding description of the product and its method of manufacture.
Various alterations, modifications and/or additions may be introduced into the constructions and arrangements of parts previously described without departing from the spirit or ambit of the invention as defined by the appended claims.
WKATHIYSPECNmsSlbeM.doc

Claims (32)

1. A resilient product including a working section formed of a relatively soft elastomeric material, a mounting section having an adhesive surface for securing the working section to a support, and an interlayer formed of a relatively hard material interposed between the working section and the mounting section and being secured to both said working section and said mounting section, wherein the interlayer is secured to the working section by fusion welding. io
2. A resilient product according to claim 1, wherein the interlayer and the working section are in sheet or strip form.
3. A resilient product according to claim 2, wherein the mounting section is in sheet or strip form.
4. A resilient product according to any one of claims 1 to 3, wherein the 15 product is in layered form such that the interlayer shields a face of the mounting section from the influence of movement occurring in the working section caused by compression or stretching of the working section.
A resilient product according to any one of claims 1 to 4, wherein the working section is Santoprene rubber.
6. A resilient product according to any one of claims 1 to 5, wherein the interlayer is polypropylene.
7. A resilient product according to any one of claims 1 to 6, wherein the irelatively soft elastomeric material has a hardness in the range Shore A5 to inclusive.
8. A resilient product according to any one of claims 1 to 7, wherein the relatively hard material has a hardness in the range Rockwell R80 to R150 inclusive.
9. A resilient product according to any one of claims 1 to 8, including a cap section associated with the working section, the cap section being harder than the working section.
A resilient product according to claim 9, wherein the cap section is formed integrally with the working section by treating a portion of the working section remote from the interlayer to transform that portion into the relatively hard cap section.
11. A resilient product according to claim 10, wherein the cap section and working section are co-extruded.
12. A resilient product according to claim 10, wherein the working section is Hs\Shonal\Keep\Speci\29268-02 Vol Amendment 12/08/04 12 treated to gradually increase in relative hardness between the relatively soft working section and the relatively hard cap section.
13. A resilient product according to claim 10, wherein the hardness of the cap section is substantially constant throughout the treated portion of the working section.
14. A resilient product according to claim 1, wherein the cap section is formed separately from the working section and is secured thereto by fusion or welding.
A resilient product according to claim 14, wherein the cap section is lo formed from polypropylene, rigid PVC or another rigid thermoplastic.
16. A resilient product according to claim 14 or 15, wherein the cap section o has a hardness greater than Rockwell
17. A dust or weather seal including a resilient product according to any preceding claim. 15
18. A dust or weather seal according to claim 17, adapted to be secured by said adhesive surface to a vehicle door or a vehicle door frame.
19. A resilient mounting member including a resilient product according to any one of the preceding claims.
A method of producing a resilient product according to claim 1, including the step of fusing one face of the working section to one face of the interlayer, and applying the mounting section to the opposite face of the interlayer by adhesion prior to or following the fusing step.
21. A method according to claim 20, including treating said opposite face of the interlayer to promote adhesion to the mounting section.
22. A method of producing a resilient product including the following steps: bringing an adhesive surface of a mounting section into engagement with one surface of a relatively hard interlayer, securing the mounting section to the interlayer by adhesion, applying a compressional force to said mounting section interlayer composite, feeding the mounting section interlayer composite into the path of molten material intended to form a relatively soft working section, and fusing the working section to an opposed surface of the interlayer.
23. A method according to claim 22 including treating said one surface of the interlayer to promote adhesion.
24. A method according to claim 23 wherein said treatment of said one surface involves treatment by corona discharge, etching, blue flame or chemical H:\Shonal\Keep\Speci\29268-02 Vol Amendment 12/08/04 13 treatment to promote adhesion.
A method according to any one of claims 22 to 24, wherein the compressional force is created by storing the mounting section interlayer composite on a spool under tension for a predetermined period of time.
26. A method according to claim 25, wherein the predetermined period of time is no less than six hours.
27. A method according to any one of claims 22 to 26, wherein the step of fusing said working section to the interlayer involves using heat and pressure to weld the working section to the interlayer.
28. A method according to claim 27, wherein the heat is latent heat supplied by the molten material.
29. A method according to any one of claims 22 to 28 including passing the mounting section-interlayer-working section composite through a cooling station "to set a profile of the working section. 15
30. A method according to any one of claims 22 to 29, wherein the said one surface of the interlayer is cooled during the fusing step to avoid liquefying the adhesive.
31. A resilient product produced by the method of any one of claims 22 to
32. A resilient product or a method substantially as herein described with reference to any one of the accompanying figures. Dated this 12 th day of August 2004 BOSS RUBBER TECHNOLOGIES PTY LTD and HENKEL AUSTRALIA PTY LTD By their Patent Attorneys GRIFFITH HACK Fellows Institute of Patent and Trade Mark Attorneys of Australia HI\Shonal\Keep\Speci\29268-02 Vol Amendment 12/08/04
AU29268/02A 2001-08-28 2002-03-28 Resilient product Ceased AU782938B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AU29268/02A AU782938B2 (en) 2001-08-28 2002-03-28 Resilient product

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
AUPR7306A AUPR730601A0 (en) 2001-08-28 2001-08-28 Resilient product
AUPR7306 2001-08-28
AU29268/02A AU782938B2 (en) 2001-08-28 2002-03-28 Resilient product

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AU2926802A AU2926802A (en) 2003-03-06
AU782938B2 true AU782938B2 (en) 2005-09-08

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Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0000392A2 (en) * 1977-07-16 1979-01-24 Bayer Ag Cephalosporins and penicillins, processes for their preparation and pharmaceutical compositions containing them

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0000392A2 (en) * 1977-07-16 1979-01-24 Bayer Ag Cephalosporins and penicillins, processes for their preparation and pharmaceutical compositions containing them

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Owner name: BOSS RUBBER TECHNOLOGIES PTY LTD, HENKEL AUSTRALIA

Free format text: THE FORMER OWNER WAS: BOSS RUBBER TECHNOLOGIES PTY LTD, CLING ADHESIVE PRODUCTS PTY LTD