AU717200B3 - A building panel and method of forming same - Google Patents

Description

"A BUILDING PANEL AND METHOD OF FORMING SAME" This invention relates to a building panel and method of forming same.

This invention has particular application to building panels suitable for offices and commercial premises and for illustrative purposes the building panel of this invention hereinafter will be described in relation to such application. Of course this invention is not limited to such application and it may be used for dwellings, houses and/or factory buildings or warehouses, multi-level apartments or offices, and such like, as well as collapsible furniture, packaging, containers and such like.

Building panels are used in construction to provide walls, floors, ceilings and roofs. Different materials are used according to their respective suitabilities, however, present building panels are generally supported by a framework, such as joists for floors, plates and studs for walls, and battens for ceilings and roofs.

Additionally, offices and commercial premises such as shops and restaurants o include awnings or covered areas where it is desirable not to have pillars.

15 Recently, composite structural panels have been developed using a metal clad :•onto a core body usually formed from foamed plastics material, such as polystyrene.

When such panels are used at a building corner, the panels are cut and joined to form such corners, weakening the completed structure. Additionally, metal cladding is highly o* conductive of heat, and has a significantly different coefficient of thermal expansion to 20 that of the core body. Thus, such panels are usually used to form flat surfaces, limiting the architectural applications of such panels. Moreover, the metal cladding on such composite panels does not provide a suitable surface finish for many architectural applications.

t' 1 2 This invention aims to alleviate at least one of the abovementioned disadvantages and provide a building panel which will be reliable and efficient in use.

This invention in one aspect resides broadly in a building panel including: core means containing a compressible solid; cladding means on at least one outer surface of the core means, and wherein the building panel is foldable.

Preferably, the core means includes a core body which is a polystyrene, polyurethane or similar polymer foam, and the cladding means includes a cladding layer which is substantially more rigid than the core body for imparting strength thereto. In an alternative form, the core body may be constructed, for example, from sheets of corrugated cardboard with the corrugations running across the thickness of the panels.

Thus, the building panel may be folded by creasing the core body along the inside corner of the fold, along with the cladding layer on the inside surface if such is provided. The core body is thereby compressed in the area within the fold, and, where 15 the cladding layer is provided on both sides of the core body, the cladding layer on the inner side of the fold may be creased into the fold. Alternatively, the cladding layer may be cut from what will become the inside surface of a fold, and sufficient material removed to permit the panel to be folded.

Preferably, slightly less material is removed from the core body than would be necessary to complete the fold such that at least some of the core body material in the vicinity of the fold is compressed.

vicinity of the fold is compressed.

3 Preferably, material forming the core body is removed to form a V-shaped groove or channel about which, or into which, the panel may be folded, closing the groove until the cut edges of the cladding layer meet. Upon causing the cut edges to meet, they may be bonded together to secure the fold. Preferably, the angle of the sides of the groove is shallower then half of the angle of the proposed fold so that the groove is not as deep as the thickness of the core body, and the material near the base of the groove is compressed in performing the folding operation.

Preferably, the surfaces of the core body upon which the cladding layer is to be applied are substantially planar and relatively smooth. However, it will be appreciated that a degree of roughness is desirable on the surface of the core body to facilitate bonding of the cladding layer to the core body. In one embodiment, the surface of the cladding layer may be dimpled, or other specialised surface treatments may be applied, including cutting shallow grooves, or application of a surface bonding or sensitising agent. Of course, the surface of the core material should be substantially clean prior to 15 the application of the cladding layer.

:The cladding layer preferably includes a composite material including a textile component and a resin component. For example, the cladding layer may include a :-:*"flexible fibreglass, nylon, polyester or such like. Preferably, however, the textile o*oo component is formed from a mesh of woven or non-woven threads and a resin 20 component is in the form of a settable liquid applied to the surface and set into the interstices between the threads of the woven or non-woven mesh onto both sides of the core body, the resin component substantially encapsulating the textile component.

Preferably, the mesh is a relatively open mesh, and the settable liquid adequately wets the surface of the threads.

In a preferred embodiment, the textile sheet is a fibreglass mesh formed into a non-woven square grid pattern of 4 mm or 5 mm and having a density of 165 g/m 2 or 150 g/m 2 respectively. The settable liquid is preferably a two-part acrylic, and in a preferred embodiment, is comprised of Aegis MSP Waterproof Multi Surface Protector, Aegis Acrylcoat L.B. Low Build Seamless Liquid Membrane, Aegis Acrylcoat H.B. High Build Flexible Texture Coating or Aegis Acrylcoat P. S. Primer and Sealer or any combination of same as supplied by Durus (Aust) Pty Ltd. (Aegis and Durus are trade marks.) In another aspect, this invention resides broadly in a building panel including: a compressible core formed from a polystyrene, a polyurethane or similar polymer foam; cladding on at least one outer surface of said core comprising a regular open mesh component and a resin component the resin component bonding to the mesh and to the core 15 wherein the cladding is substantially more rigid than said core for imparting strength thereto.

i: Preferably the resin is disposed around and within a plurality of interstices of said mesh.

Preferably the resin component includes a two-part acrylic including a 20 cementitious compound.

Another preferred form is to provide a flange on each end of the panel such that the panel in cross-section is either in U-form or Z-form whereby the panels may be stood up in end-to-end configuration with adjoining panels being hooked together at their respective flanges. It is preferred that in such an arrangement, a gap be provided between the hooked-in flanges and that the distal edge of each flange is placed in close contact with the adjoining panel. Using such an arrangement, piers may be formed between adjoining panels in the form of a settable liquid such as concrete poured into the longitudinal space between the flanges. Additionally, reinforcing bars may be inserted into the space, or the flanges arranged around reinforcing bars as the panels are erected into position.

The panel of the present invention may also be constructed with webbing means interlinking the cladding layers on the two sides of the core means. The webbing means is preferably constructed by coating one surface of a core body forming the core means 9.o.

with the cladding as herein described, slitting the partially clad panel into strips, turning each of the strips about their respective longitudinal axes through 9001, and then coating both of the exposed surfaces with the cladding. The distance between the webs thus created will be determined by the thickness of the unclad core body, and the thickness of the finished panel will be established by the separation of the parallel cuts forming the 9*99 strips.

20 It is preferred that the longitudinal corners of the strips are rounded or chamfered so that when the last two cladding layers are added, the settable liquid fills the channels formed thereby for a stronger bonding between the webs and the cladding layers.

6 It will be appreciated that further webs may be created, such as on a square.

pattern, by making a second set of slits at 9013 to the first set, or a triangular pattern by making second and third sets of slits, each at 600 to one another.

In another aspect, this invention resides broadly in a hinge connection formed into a building panel as hereinbefore described. Preferably, the building panel is in the form of a panel having cladding layer, the flexibility of the cladding layer being sufficient to permit bending of the panel within its elastic limits. Preferably, the panel is cut with a V-shaped cut to permit bending of the panel. It is also preferred that at least some of the core material is retained adjacent the cladding to be bent so that it may be compressed by the folding action of the panel, the cladding layer being substantially non-stretchable.

This invention in another aspect resides broadly in a method of forming a building !*panel, the method including: V 99 providing core means containing a compressible solid; 15 forming said core means into a desired configuration; 9. setting a woven or non-woven textile sheet onto the surface of the core means; applying a settable liquid to the surface of the core means to substantially "encapsulate the textile sheet to form a cladding layer on one or both surfaces of the a,, core means.

20 The method may include applying a coating of settable liquid onto the surface of the core means prior to setting the woven or non-woven textile sheet thereon, and then applying more of the settable liquid.

It is preferred that the cladding layer is foldable. The panel may be folded by the methods described above. Typically, the panel is between 50 mm and 100 mm in thickness, and the V-shaped cut is of a depth of between 10 mm and 20 mm less than the thickness of the panel. The sides of the V-shaped cut are at an angle suitable for the angle of the bend, and the base of the V-shaped cut is preferably rounded so that the straight portions of the sides of the V-shaped cut, when projected through to the other side of the panel, intersect substantially centrally of the material forming the cladding layer on the other side.

The method may further include tacking the textile sheet to the core means and suspending the core means and the textile sheet tacked thereto by the textile sheet.

Suitably, the textile sheet is extended above the upper limit of the core means for this purpose.

It is preferred that the mix used to coat the core means is a wet/dry mix. More preferably, the two-part acrylic is preferably provided in a first aqueous coating sprayed onto the core means and textile component, a second coating of powder comprising the 0. 0second part of the two-part mix. This is preferably followed by a third aqueous coating 15 sprayed onto the second coating in a similar fashion to the first coating, and a fourth **.coating of powder spread or sprayed onto the third coating in a similar fashion to the 0 second coating.

S•It is also preferred that the coating is agitated or mixed by providing a mixing pad resting on the surface of the coating with substantially no compressive force, and providing a small diameter orbital action substantially coplanar with the surface of the panel. If the panel is produced continuously, then the orbital action is added to the 0.000: linear motion of the mixing pad which suitably extends across the width of the panel under manufacture in accordance with the present invention.

8 In an alternative method, the settable liquid is applied by a doctor blade which includes a leading portion, a delivery portion in the form of an elongate plenum chamber, a trailing portion, and an internal flow guide, and wherein the leading portion is in hinged engagement with the remainder of the doctor blade. The leading portion and delivery portion preferably include a substantially flat land portion, flat in the direction of the plane of the surface upon which the settable liquid is to be applied. The flow guide preferably is in the form of an inwardly curving flange, curved away from the surface, and the trailing portion is clear of the surface by a distance sufficient to produce a thickness of settable liquid upon the surface as required.

In order that this invention may be more readily understood and put into practical effect reference will now be made to the accompanying drawings which illustrate a preferred embodiment of this invention and wherein: Fig. 1 shows a portion of a panel in accordance with the invention; 0:.0%Fig. 2 shows detail A of Fig. 1; 15 Fig. 3 shows detail B of Fig 2; Fig. 4 shows diagrammatically a groove for a fold in a sheet in accordance with the present invention; Fig. 5 shows detail C of Fig. 4; Fig. 6 shows the panel of Figs. 4 and 5 when folded; oooo Fig. 7 shows detail D of Fig. 6; Fig. 8 shows collectively and diagrammatically the arrangements of a panel with oeoee hooked flanges; Figs. 9 and 10 show diagrammatically a doctor blade assembly; Fig. 11 shows diagrammatically the coating of a panel in plan view; 9Fig. 12 shows a section of Fig. 11 on B-B; Fig. 13 shows a section of Fig. 11 on A-A; Fig. 13 shows a section of Fig. 11 on A-A; Fig. 14 shows a portion of an alternative panel in accordance with the invention, and Fig. 15 is a diagrammatic view of the construction of the panel of Fig. 14.

Referring to Fig. 1, a panel 10 includes a core 11 and, on each surface of the core 11, a cladding layer 12. In the detail shown in Fig. 2, the cladding layer 12 includes a textile fabric 16 having warp fibres 14 laid across weft fibres 15 at substantially 900 and embedded within a coating material 17. Referring to Fig. 3, the weft fibres 15 are aligned on top of the warp fibres 14. However, it will be appreciated that the warp fibres 14 may be provided above the weft fibres 15, or even a woven pattern between the warp fibres 14 and the weft fibres 15 may be provided.

Referring to Fig. 4, the panel 10 is provided with a V-shaped cut 21 as shown.

Referring to detail C as shown in Fig. 5, the V-shaped cut 21 includes two sloping sides 15 22 which, if projected as shown by respective projected sidelines 24, would intersect at an intersection point 25. But instead, the V-shaped cut 21 curves at the base around a curved base 23 as shown.

~Referring to Fig. 6, the panel 10 includes a fold 26 where the sides 22 of the Vshaped cut 21 are brought together to form a cleavage line 27. Referring to Fig. 7, the o*o* cleavage line 27 ends short of the fold in the panel 10 where one of the cladding layers 12 ends short of a cladding bend 29 and the core 11 is compressed around a °oooo compression area 28.

Referring to Fig. 8, the panels 10 may be hooked panels 30 which include a plane body portion 18 and respective hooked flanges 13 extending along each vertical end of the hooked panels 30. The hooked panels 30 may be provided in either a U-form profile as shown at 31 or a Z-form profile as shown at 32. The hooked flanges are provided at a flange angle 33 of preferably 1 O0.

The hooked panels 30 are provided with a gap 35 between adjoining panels, but with the edges of the flanges 13 hard up against the plane body portion 18 so that a settable liquid may be poured into the gap 35 to provide a pier 36 with a reinforcing 37 extending into a footing 38 set into a foundation 39.

Referring to Figs. 9 and 10, a doctor blade assembly 40 is suspended by a blade support 55 and guided for vertical motion by four guide rollers 56. The doctor blade assembly 40 include a leading portion 48 in hinged connection with a supply portion 46 which is bulbous in section and elongate in the horizontal direction. A flow guide 44 curves inwardly towards the supply portion 46 to provide a delivery plenum 45 extending the length of the doctor blade assembly The flow guide ends short of the supply portion 46 to provide a delivery gap 43 1 5 extending the length of the doctor blade assembly 40. A trailing portion 42 ends away from the surface 49 being coated, with a clearance 41 causing settable liquid introduced into the plenum 45 to be distributed evenly across the surface 49.

The delivery plenum 45 is provided with supply lines shown at 51,52 and 53 in Fig. 9, and the delivery gap 43 tapers or changes its dimensions to produce an even *e distribution of the settable liquid as it is extruded. As can be seen in Fig. 9, the doctor blade assembly is provided in a profile which surrounds the hooked panels 30 as to coat them completely. The doctor blade assembly 40 is held against the surface 49 of the panel 30 by a set of spring loaded clamps shown typically at 58 such that the textile fabric 16 end up substantially centrally placed across the thickness of the settable liquid.

11 Referring to Figs. 11, 12 and 13, a coating assembly line 60 includes a coating machine 62. The panel coated is suspended from a guide track 64, and moved by a pair of trolley assemblies 66 operable on the guide track. Transverse tracks 65 are provided for movement of the panel at right angles to the guide track 64. After coating on the coating machine 62, the panels 30 are suspended while the settable liquid sets in a drying area shown at 68.

Referring to Figs. 14 and 15, an alternative panel 70 includes core bodies shown typically at 71 interposed between two cladding layers 72 bonded onto each side of the core bodies 71, and respective webs shown typically at 73 extending between the cladding layers 71 and bonded thereto along their respective outer edges.

Referring particularly to Fig. 15, the alternative panel 70 is formed by first providing a cladding layer 72 on one side of the core body 71, then slitting the core body 71 along substantially parallel slit lines shown typically at 74 to form respective slit members shown typically at 77. The longitudinal corners of the slit members 77 are 15 rounded or chamfered and the slit members 77 are then turned about their respective longitudinal axes in the direction of an arrow shown typically at 75 until the cladding layer 72 applied to the core body 71 is interposed between successive adjoining slit members 77 to form the webs 73.

Two further cladding layers 72 are added, bonding to the slit members 77 and 20 the webs 73, embedding into the rounded or chamfered corners to give greater strength to the bond between the webs 73 and the cladding layers 72.

In use, a panel of the present invention may be used to construct such parts of a building requiring panelling. Where a corner is required, the panel may be folded as described above.

12 The panel is formed by providing the core 11 in sheet form and applying the cladding layer 12 as described above. Firstly, a layer of settable material is applied to the surface, and before it sets, a layer of textile fabric is applied to the wet settable liquid. Before, during, or after drying, more settable material is added to encapsulate the textile material in the cladding.

To fold the panel 10, a cut is made as described above. The cut may be made by a sharp implement such as a knife or such like, but preferably, a rotary cutter is assembled to form the V-shaped cut. The V-shaped cut may be used as a gap to accommodate the folding of the panel 10 about the cladding bend 29, the structural integrity of the folded panel being enhanced by bonding the cut cladding layer 12 along the sides 22 of the cut 21.

In providing retaining walls, sound barriers, fencing or such like, a footing may be prepared with reinforcing bars extending upwardly therefrom at intervals suitable for providing piers between adjoining hooked panels 30 according to the invention. The 1. 5 panels are placed with their respective flanges around the reinforcing bars, and clamped .*,together to prevent liquid concrete from leaking out between adjoining panels when poured into the gap 35 between the panels. The piers are not normally required the full height of the panels, and the gap may be filled with more concrete, or other filler as desired. Soil may be used as a filler and suitable plants introduced for beautifying the 94*9 wall when completed.

The alternative panel having webs interconnecting the cladding layers is believed 494999 to be of sufficient structure with the core means removed. Due to fire or excessive heat, the core means may melt or decompose, leaving the webs as the means of separating the spaced cladding layers and holding the alternative panel in its shape. Fire foaming 13 surface coatings may be applied to the panels of the present invention to enhance there fire protection rating.

The mixtures referred to by their trade marks Aegis MSP Waterproof Multi Surface Protector, Aegis Acrylcoat L.B. Low Build Seamless Liquid Membrane, Aegis Acrylcoat H.B. High Build Flexible Texture Coating or Aegis Acrylcoat P. S. Primer and Sealer or any combination of same as supplied by Durus (Aust) Pty Ltd are typically as per the technical sheets provided by the manufacturers and included in Annexure A.

It will of course be realised that while the above has been given by way of illustrative example of this invention, all such and other modifications and variations thereto as would be apparent to persons skilled in the art are deemed to fall within the broad scope and ambit of this invention as claimed in the following claims.

DATED THIS SIXTEENTH DAY OF JUNE 1999.

By 15 Pizzeys Patent and Trade Mark Attorneys a.

AwA NIE PBI/5/395 Ams M.S.P.

Waterproof Multi-Surface Protector 'A two-part product which when blended with water forms an extremely strong protective coating on a variety of solid external and internal surfaces, including concrete, concrete blocks, asphalt, timber, fibre cement, polystyrene and glass".

S.

4 APPLICATION~ SPCFCAIN Preparation Mixing Applications 1. All surfaces must be structurally sound.

2. Remove all dags and nibs.

3. Remove any surface oil and grease; Radcon Formula 4 or Turco Oil Lift is recommended.

4. Remove all surface dirt with WATER PRESSURE CLEANER.

Acid Etch all concrete surfaces.

For more detailed instructions refer to the "Applicator's Booklet".

1. Use clean 20 litre pail or clean concrete mixer.

2. Shake bottle of "WET MIX" and pour into pail or mixer.

3. Fill the same bottle with water and add to the pail or mixer.

4. Start mixing and slowly add all the "DRY MIX to pail or mixer.

Blend for approximately 3 minutes then allow to stand for 2 minutes before using.

For more detailed instructions refer to the "Applicator's Booklet".

1. Apply AEGIS Surface Sealer to all porous surfaces.

2. Apply AEGIS M.S.P. in accordance with the manufacturer's instructions as detailed in the "Applicator's Booklet".

3. Application methods include: Trowel Screed.

Squeegee Broom Spray Gun (Hopper type) Short hair mohair roller (for specific finishes only) 4. Typical Applications are: Waterproofing basements Waterproofing underground car parks Waterproofing planter boxes Waterproofing concrete block walls Waterproofing balconies podiums Decorative coating for exterior interior walls Protection for concrete retaining walls Extract from ABSAC Technic Protection for pontoons (concrete or polystryrene) Opinion No 138.

Non slip floors stairs "Aegis Mull-Surface Protector" as formuated and Repair damaged concrete manufactured by Durus {Aust.) Pry-Ld., Brisbane.

Repair damaged concrete for use a a ietiv cong Restore rain damaged slabs variouss Repair kerbs gutters surface to Repair staircase treads rises repar of r Repair "ponding" surfaces copng ,1 Repair airport pavement th o, Repair parking areas o 8 in pABSA Repair driveways tu,, Suitable for marine environment g ft *q ::::Finish *f ft f ftftns l ft al to, Idam fire rid for a Iteria owee aft ustalls Das lsted 13 t are May 1991 A range of texture styles can be achieved while maintaining the protective and waterproof qualities. AEGIS M.S.P. may be used to produce a smooth, fine medium or heavy textured profile by using the individual application utensils, or a combination of the various utensils and methods. Special effects are possible and are dependent upon the skill of the Applicator and the nature of the tools used.

YOUR LOCAL AEGIS DISTRIBUTOR AEGIS INTERNATIONAL PTY LTD A.C.N. 067 719 493 140 Gerler Road Hendra Q 4011 PO Box 915 Hamilton Central Q 4007 Australia Telephone: (07) 3868 1255 International +61 73868 1255 Facsimile: (07) 3868 1266 International +61 73868 1266 TECHNICAL SPECFICAION Special Notes Preparation Mixing Application Glazing .:.General o *6.

6 6 o ::Approvals P t Aproal Prcuin AEGIS M.S.P shall be applied only by Approved Applicators and in accordance with the manufacturer's specifications, as detailed in the APPLICATOR'S BOOKLET For new work, AEGIS M.S.P. should be applied during the construction stage before ceilings, woodwork, plumbing, fixtures and fittings have been installed. In the case of remedial work, all surfaces not requiring treatment should be "masked up" before application is commenced.

All surfaces should be prepared and treated in accordance with the manufacturer's specifications and to the satisfaction of the supervising Architect.

Use low speed, heavy duty, electrical stirrer or conventional concrete mixer.

Trowel, hopper spray gun, squeegee or broom are suitable, depending on the Work Specification. Where a waterproof finish is required AEGIS M.S.P should be applied at least 2mm thick. For further information, particularly with regard to surface preparation, follow the detailed instructions contained in the "Applicator's Booklet".

To avoid staining or discolouration apply a clear surface sealer in accordance with the manufacturer's specifications.

ITEM

DATA

Spreading Rate (per 25kg pail) 12m 2 1 mm thick Drying Time 25 0 C (2mm thick) 3-4 hours Recoat Time 25 0 C (2mm thick) 24 hours Trafficability 25 0 C (2mm thick) 24 hours Water Permeability (2mm thick) Excellent (no penetration) Chemical Resistance (commercial) Excellent Dilute mineral acid resistance Excellent Abrasive Index (Main Roads MA20) Excellent (3.9) Skid Resistance (Main Roads Q704) Excellent (SRV 81 wet and 97 dry) Cyclone Rating Class E (Highest possible result) Compressive Strength Up to* 57.0 mpa Flexural Strength Up to* 9.9 mpa Tensile Strength Up to* 5.7 mpa Shearbond Up to* 7.0 mpa Modulus of Elasticity 17.7 gpa Freeze/Thaw (-5oCto 27 0 C) No effect *Testing identifies some minor variation between the grey and off-white products.

Tests conducted by The University of Queensland, Brisbane, and James Cook University, Townsville.

AEGIS M.S.P is approved for use in POTABLE WATER situations and in food preparation areas.

Do not apply at temperatures below 10 0 C or above 30- 32 0

C

Cleaning Wash all utensils thoroughly in water.

AEGIS M.S.P WATERPROOF MULTI-SURFACE

PROTECTOR

4\ A oGIS

INTERNATIONAL

PTY. LTD. A.C.N.067719493 Material Safety Data Sheet Product Name: AEGIS MSP (Mulit Surface Protector Dry Mix) i, I Formula Not Applicable DOT HAZARD CLASS Non Regulated .T nn MN/A I I Chemical Family: Not Anolicable ICas No: Proorietv *i q 0 0 0* q.

000* 0 0 Packing Group: N/A U.N. No: N/A D.G. Class: N/A Hazchem Code: N/A Subsidiary Risk Class: Not Applicable Molecular Weight: N.A Compositional Information Material Approx Weight TWA/TLV: Portland Cement 30-50 5 mg/m 3 Sand Remainder 10mg/m 3 Physical Property Information Appearance Viscosity: Grey or White Powder Not Applicable Melting or Freezing Point Boiling Point: Vapour Pressure (mm Hg) Vapour Pressure (Air=l) Melts >1200* C Not Applicable Not Applicable Not Applicable Solubility in Water Volatile (By WT) Specific Gravity (Water=l) Evaporation Rate: (Butyl Acetate=1) Slightly Soluble Not Applicable 2.0 to 3.0 Not Applicable Fire and Explosion Hazard Information Flash Point: Auto Ignition Lower Explosion Limit Upper Explosion Limit Not Applicable Temperature Not Applicable Not Applicable Non Combustible Extinguishing Media: Foam Alcohol Foam CO, Dry Chemical Water Spray Other Not Applicable Special Firefighting and Explosion Hazards None Unusual Fire and Explosion Hazards Non Combustible Health Hazard Information Effects of Overexposure Swallowed: Mild Corrosive Action Inhalation: Short Term Exposure, irritating Long Term Exposure may cause inflammation of the lining of the respiratory system Eye Contact: Short Term Exposure, irritating Long Term Exposure may cause inflammation of the cornea Skin: Short Term Exposure, irritating Long Term Exposure of wet mix can dry skin Trace amounts of hexavalent chromium (0.07 ppm) may cause allergic dermatitis in some individuals 140 Gerler Road Hendra Q 4011 PO Box 915 Hamilton Central Q 4007 Australia Telephone: (07) 3868 1255 International: 61 7 3868 1255 Facsimile: (07) 3868 1266 International: 61 7 3868 1266 09 9 9 9 9 9 99 9 9 9 99* 9 9 9 9 9 9 999.

9 9.

99 9 9 99 9.9.99 9 9999 9 9 9999 9 Reactivity Information Stability Conditions to Avoid Stable Unstable Not Applicable Hazardous Decomposition Products Not Applicable Hazardous Polymerizations: Conditions to Avoid May Occur Will Occur [X]Not Applicable Not applicable Incompatibility (Materials to Avoid) Water Other Spill or Leak Procedure Information Steps To Be Taken in Case Material is Released or Spilled Prevent loss by wind Waste Disposal Methods Spills may be cleaned up by any dry method such as broom, shovel or vacuum device with care taken to minimize dust evolution into the worker environment For one bucket clean up personnel should wear gloves, boots, dust masks and goggles For large quantities full cover clothing should also be wor Special Protection Information Ventilation Type As necessary, suitable means of dust collection/suppression should be applied to maintain acceptable air borne dust levels Respiratory Protection In dusty environments use filter masks, as in AS 1716 (Class L) Protective Gloves: Impervious gloves, boots and clothing to protect the skin from contact with dust and wet mix is recommended.

Barrier creams may be used.

Eye Protection: In dusty environments tight fitting goggles are advised Other Protective Equipment Following work with the material a shower with soap and water is recommended Storage and Handling Storage Temperature Indoor: Heated/Refrigerated Outdoor Room Temperature Precautionary Labelling: Warning: Freshly mixed cement products may cause skin irritation. Avoid contact with skin whenever possible by use of suitable gloves and clothing. Wash any affected skin with clean water and soap. If any material gets into the eyes, wash immediately and repeatedly with clean water.

If irritation persists, seek medical attention Storage Store in containers that prevent ingress of moisture as this will cause it to set and harden in storage.

File Location: Version No: Date of Issue: Form no: Supersedes: f:\users\aegis\data\msds\mspdry.doc 2 10/09/98 MSDSO1/2/0998 SDI [2 0 *a 0 0 0 S9 *are p.

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9 0 a 0 0 6.

ar e 0* *0 0 9 2' 0 ftse a, AEGIS

INTERNATIONAL

JU *PTY. LTD. A.C.N.067719493 Material Safety Data Sheet Product Name: AEGIS MSP (Multi Surface Protector Wet Mix) Formula DOT HAZARD CLASS Acrylic Antifoamer Petroleum derivative and propriety derivatives Non Regulated I,2-Ethancdiol Antioxidant Chemical Family: Acrylic Cas No: Propriety G.T. Eng.: N/A Packing Group: N/A U.N. No: N/A D.G. Class: N/A Hazchem Code: N/A Subsidiary Risk Class: Not Applicable Molecular Weight: N.A Compositional Information Material Approx Weight TWA/TLV: Acrylic Polymer 40-60 Not established Residual Monomers Trace Not required Ammonia 0.2 maximum 25 ppm Antifoamer 0.5-5.0 5mg/m 3 'as oil mist) 1,2-Ethanediol 0.1-4.5 Not applicable Antioxidant 0.1-2.5 Not applicable Water 40-60 Not established Physical Property Information Appearance: Viscosity Milky white liquid, slight amoniacal odour with amber collar 50 cps max.

Melting or Freezing Point Boiling Point: Vapour Pressure (mm Hg) Vapour Pressure (Air=l) 0° C 100°C 17@20C 1 Solubility in Water Volatile (By WT) Specific Gravity (Water=!) Evaporation Rate: (Butyl Acetate=1) Dilutable 52-54 1 1.2 I Fire and Explosion Hazard Information Flash Point: Auto Ignition Temperature Lower Explosion Limit Upper Explosion Limit Non Combustible Not Applicable Not Applicable Not Applicable Extinguishing Media: Foam Alcohol Foam COz Dry Chemical Water Spray I Other Not Applicable Special Firefighting and Explosion Hazards: None for the quantities involved Unusual Fire and Explosion Hazards: Material can splatter above 100 0 C. Polymer film can bum.

Health Hazard Information Effects of Overexposure Swallowed: Mild Corrosive Action Inhalation: Vapour or mist can cause headache, nausea and irritation of the nose, throat and lungs Eye Contact: Short term exposure, irritating Long Term Exposure may cause inflammation of the cornea Skin: Long term or repeated exposure may be irritating Emergency First Aid Swallowed: Wash mouth and lips with Water. DO NOT induce vomiting. Give water containing sugar or milk to drink Seek Medical Attention Inhalation: Move to fresh air Eyes: Irrigate with copious water for at least 10 minutes. Seek medical attention if irritation persists Skin: Wash with tepid, soapy water. A shower may be required Advice to Doctor: Contact a POISONS INFORMATION CENTRE 140 Gerler Road Hendra Q 4011 PO Box 915 Hamilton Central Q 4007 Australia Telephone: (07) 3868 1255 International: 61 7 3868 1255 Facsimile: (07) 3868 1266 International: 61 7 3868 1266 Reactivity Information aluaollry Stable Unstable Conditions to Avoid Temperatures above 100°C Hazardous Decomposition Products Not Applicable Hazardous Polymerizations: Conditions to Avoid May Occur Will Occur ]Not Applicable Not applicable Incompatibility (Materials to Avoid) Water Other Not Applicable. The defoamer is incompatible with strong oxidizers Spill or Leak Procedure Information Steps To Be Taken in Case Material is Released or Spilled: Keep spectators away Floor may be slippery; use care to avoid falling Dyke and contain spill with inert material (eg. Sand, earth) Transfer liquid to containers for recovery or disposal and solid dyking material to separate containers for disposal Keep spills and runoffs out of municipal sewers and open bodies of water Waste Dinnoal Mrthors- Coagulate the emulsion by the stepwise addition of ferric chloride and lime. Remove the clear supematant liquid and flush to a chemical sewer. Landfill or incinerate the solids and the contaminated dyking material according to Local and State regulations.

0

S

0 o *0 0 6 0

S

I OO S 00 0

S

S

0 Special Protection Information Ventilation Type None for quantities involved Respiratory Protection None required if good ventilation is maintained Wear respirator or filter masks, as in AS 1716suitable for the concentration and types of air contaminants Protective Gloves: Impervious gloves.

Eye Protection: Chemical splash goggles (AS 1337) Other Protective Equipment Standard work clothing and work shoed Storage and Handling Storage Temperature Indoor: Heated/Refrigerated Outdoor 0

C

Precautionary Labelling: Keep from freezing as product may coagulate and stratify Storage Store in airtight containers Toxicity Information The effects of overexposure shown in HEALTH HAZARD INFORMATION are based on acute toxicity profiles for a number of acrylic emulsions that are compositionally similar to this product ROCKCOTE ACRYBOND DATA SHEET 100% acrylic emulsion for two-pack cement-based formulae, especially suited for "low-odour" applications Key features and benefits to formulators "Fourth-generation" low-viscosity emulsion developed specifically for enhancing the strength, durability and adhesion of cement-based products.

Suitable for the formulation of conventional and lightweight renders and coatings, waterproofing systems, patching and repair mortars, underlayments and commercial flooring.

Provides dramatic improvements in bonding liquid applications, especially under wet conditions.

Low-odour formulation ensures reduced worker discomfort during mixing and installation.

Formulated systems display the typical "100% acrylic" benefit on exterior exposure: no degradation or colour development.

Physical Properties The following are typical, but should not be considered as specifications: Appearance Milky emulsion Glass transition temperature Ionic charge Non-ionic DSC (onset) gC Solids by mass 47.0 Minimum film formation temperature (measured) °C 11 Solids by volume 43.8 PH 9.3 Density 25°C (g/cm 3 1.06 Viscosity Brookfield RVT.cps r C

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Availability Data Manufacture: Pack Sizes: Local 200kg non-returnable, open-head "polybottle"-lined drums 1100kg Pallecon T M containers; bulk supplies on application.

Claims (3)

1. A building panel including: a compressible core formed from a polystyrene, a polyurethane or similar polymer foam; cladding on at least one outer surface of said core comprising a regular open mesh component and a resin component the resin component bonding to the mesh and to the core wherein the cladding is substantially more rigid than said core for imparting strength thereto.

2. A building panel according to claim 1 wherein said resin is disposed around and within a plurality of interstices of said mesh.

3. A building panel according to claim 1 or claim 2, wherein the resin i::i ~component includes a two-part acrylic including a cementitious compound. DATED THIS 7 TH DAY OF JANUARY 2000 JOHN BARTHOLOMEW LEE BY PIZZEYS PATENT TRADE MARK ATTORNEYS a a a• cio