Supercoat™ MAXRaft Foundation System (MFS)
Transcription
Supercoat™ MAXRaft Foundation System (MFS)
SMFS V1.0 TM Advanced Coating Systems for Future Living MAXRaft Foundation System (MFS) Waterproofing System Technical Specification TM ALAND NEW ZE MADE Copyright © CFG Coatings Limited 2013 Without limiting the rights of the copyright above, no part of this publication shall be reproduced (whether in the same or a different dimension), stored in or introduced into a retrieval system, or transmitted in any form or by any means (electronic, mechanical, photocopying, or otherwise), without Copyrightrecording © CFG Coatings Limited 2013 the prior permission of the copyright owner. Contents Page Page 1.0 Coating Products Overview 3 Appendix B 9 Handling and Storage 3 Product and Material Warranty 9 Working Temperatures 3 Applicator Producer Statement 9 1.1 Products for Waterproofing 4 Supercoat™ MFS Surface Sealer Technical Supercoat™ MFS Membrane 4 Supercoat™ MFS Texture 4 Supercoat™ MFS Membrane Technical Data Sheet 12 Supercoat™ Tanking Mesh 4 Supercoat™ MFS Texture Technical Data Sheet 13 Waterproof vs Water Resistant 4 Supercoat™ Elastoshied Technical Data Sheet 14 4 Holdfast™ FIXALL 220LM MS Technical Data Sheet 15 4 Elastoshield 5 Technical Support17 1.2 Supercoat™ Protective Coating Systems Supercoat™ Elastoshield 2.0 MAXRaft Foundation System - Application 3.0 Required Equipment6 Data Sheet 11 17 Guarantee Appendix A 7 Health and Safety17 Light Reflectance Value (LRV) 7 Disclaimer Colour Variations Between Batches & Tints 8 17 IMPORTANT APPLICATOR INFORMATION • Moisture can be retained in the substrate during the application and installation process, especially during wet winter months. It is important that applicators ensure that they allow adequate time for the substrate to completely dry out before applying any subsequent Acrylic products. • Follow Technical Data Sheets located in the back of this Technical Specification IMPORTANT OWNER CARE INFORMATION • It is important that the Owner should not rub or clean the Supercoat™ MFS System with any material for the periods stated below to ensure full cure has taken place; * 18 months after coating for the Supercoat™ Protective Coating System products listed in this Technical Specification. 12 months after this period, the owner can then proceed to care for the external surfaces of their Supercoat™ MFS System in the following manner. The owner shall wash the exposed Supercoat™ MFS Texture Surface annually to keep the coating clean. Use water at a low pressure and a soft brush to remove any dirt or dust. Do not use high pressure hoses or water blasters to rinse off. If fungus, oil, fuel soot, or other stubborn grime cannot be cleaned with water alone, use Supercoat™ Mould, Moss and Grime Cleaner, available from MAXRaft. Instructions for dilution rates and application is located on the container. This process removes any dirt or other build up that has gathered on the textured coatings. Copyright © CFG Coatings Limited 2013 1.0Coating Products Overview Working Temperatures This manual covers the technical aspect of coating over the MAXRaft Foundation System (MFS) and should always be read in conjunction with the relevant Supercoat™ TDS sheets and technical literature for the product to be coated. The acrylic products are supplied in pails ready to apply in accordance with the current technical literature. The minimum operating air temperature for exterior coating is 10˚C ensuring that the temperature does not drop below this during the entire curing process. Internal application minimum operating air temperature is 5˚C ensuring the temperature does not drop below this during the entire curing process, maximum operating temperature is 20˚C The Supercoat™ range of products have been designed to compliment the most commonly used building substrates. In new buildings, additions and retro fitting of existing buildings there are a variety of materials used. This manual covers the use of the products detailed in the Supercoat™ MFS System over Expanded Polystyrene (EPS) and Extruded Polystyrene (XPS). Handling and Storage All products must be stored in a well ventilated area, kept dry, out of direct sunlight, away from freezing conditions and up off concrete floors. The acrylic products, in the original unopened containers, have a shelf life of 2 years from date of manufacture, or 12 months once opened. If after the first opening the lid is replaced tightly on the acrylic products, the container can be stored upside down, thus sealing the lid and therefore maximising the shelf life. Keep containers closed at all times when not in use. Avoid contact with eyes, skin or clothing. Avoid breathing vapour. Clean any overspill and splatters thoroughly from surfaces, skin and clothing after use. Showing Supercoat™ MFS Membrane under the Timber bottom plate and the exposed front face of the Supercoat™ MFS Texture Detail 2.1 - Supercoat™ MAXRaft Foundation System (MFS) Cladding System over drained and ventilated cavity Bottom plated hold down bolts. Refer MAXRaft documentation 10mm 15 mm Refer ‘MAXRaft’ documents for all concrete slab & foundation reinforcing ‘MAXRaft’ EPS Foundation Formwork Copyright © CFG Coatings Limited 2013 75mm Polythene DPC over blinding layer 3 225mm Min - Unpaved 150mm Min - Paved 175mm Min Unpaved 130mm 75mm 250mm 120mm 50 mm Apply 1 coat of Supercoat™ Surface Sealer Apply 3 coats of mesh reinforced Supercoat™ MFS Membrane under bottom plate, down face of EPS foundation & over DPC on blinding layer. Apply 1 coat of Supercoat™ MFS Texture to the exposed face of the foundation and over DPC Bead of Holdfast FIX ALL 220 LM MS 200mm Wide gravel filled channel SMFS 2013 1.1 Supercoat™ MAXRaft Foundation System (MFS) Product Overview Waterproof vs Water Resistant The distinction between a waterproof coating and a water resistant coating is an important one. Supercoat™ Acrylic Paints and Textures are water resistant in the sense that they will not allow water as a liquid, to pass through them. Under normal atmospheric conditions the microscopic pores of the water resistant Acrylic coating are too small to allow liquid water to pass through them, provided always, they have been applied to an area where a sufficient fall provides adequate run off to avoid water pooling. Water resistant coatings will however, allow water vapour to pass through these pores when in a gaseous state. This enables internal moisture vapour, such as steam from cooking or washing and vapour from breathing etc., to escape the building, whilst preventing rain from entering. Most wall and floor surfaces benefit from NOT being waterproof, but simply being water resistant. This product is supplied as a dry powder in 25kg bags, with the Applicator adding the water on site to achieve the desired consistency. Supercoat™ Multitex is a strong adhesive based product with an aggregate to provide a key for the subsequent layers. It will cover a variety of substrates as listed below and can be applied over adjacent substrates without modification to enable a smooth, uniform base coat for the subsequent texture coatings. Supercoat™ MFS Membrane Supercoat™ MFS Membrane is a liquid applied elastomeric waterproofing membrane for use in sealing MAXRaft Foundations. This membrane is particularly useful where substrates are subjected to weather or dampness. Available as Plain, Keycoat and Texture (containing aggregate). This product is mesh reinforced. By contrast, a waterproof coating has no pores to allow water liquid or vapour to pass. Supercoat™ Tanking Membrane is fully waterproof and therefore only suitable for selected wet areas, such as decks, parapet or balustrade tops, upper surfaces of sills, bathrooms, laundries or kitchen surfaces. Elsewhere, it is critical that only water resistant breathable coatings are used to avoid the problems caused by a build up of internal moisture. Supercoat™ MFS Texture Supercoat™ MFS Texture is an elastomeric textured waterproofing membrane for use in the MAXRaft Foundation System (MFS). The Supercoat™ MFS Texture is Hopper applied using a standard Hopper gun with an 8mm tip applied at very low pressure. The Supercoat™ MFS Texture is the final coat applied over the Supercoat™ MFS Membrane to the exposed MAXRaft Foundation. 1.2 Supercoat™ Protective Coating Systems Supercoat™ Elastoshield A specially formulated, breathable, elastomeric coating with strong adhesion characteristics for use on most building envelopes. A high viscosity, pure acrylic, incorporating fillers, extenders and fungicides for increased durability. Designed for great adhesion and corrosion resistance with a strong elastomeric membrane providing maximum weather durability under extreme conditions. For coating suitable external surfaces requiring an elastomeric membrane topcoat with excellent micro fissure crack spanning capabilities. Supercoat™ Tanking Mesh This is a fine 62gsm polymer mesh made from 40 denier polyester with a 62/65 mesh construction that the applicator embeds into the first Supercoat™ Tanking Membrane layer and completely conceals with the second and third coat. The Supercoat™ Tanking Mesh reinforces the coating system and provides greater resistance to movement. Its embedment and concealment ensures the correct system thickness of Supercoat™ Tanking Membrane is applied. Supercoat™ Tanking Mesh is available in 400, 800, 1200 & 1500mm wide by 50m rolls. Custom sizes within this range can also be obtained by special order. Surface Sealer Supercoat™ Surface Sealer is a fast drying, low viscosity, high penetration sealer used in the MAXRaft Foundation System (MFS) to seal the Expanded Polystyrene (EPS) or Extruded Polystyrene (XPS) prior to application of the Supercoat™ MFS Membrane. SMFS 2013 Installation of the MAXRaft Foundation System (MFS) 4 Copyright © CFG Coatings Limited 2013 2.0MAXRaft Foundation System (MFS) Application Supercoat™ MFS System Summary Layer 4 - Supercoat™ Tanking Mesh The Supercoat™ Tanking Mesh is designed to structually reinforce the Supercoat™ MFS System. The Supercoat™ Tanking Mesh must be embedded into the first coat of the Supercoat™ MFS Membrane whilst it is still tacky. Ensure that there are no creases or folds in the Supercoat™ Tanking Mesh. It is critical that the Supercoat™ Tanking Mesh has been firmly pressed into the corner junction point where the EPS/XPS meets the Polythene DPC over the Holdfast FIXALL 220LM MS. If the Supercoat™ Tanking Mesh should ever need to be joined, ensure that there is a 50mm mesh overlap. Layer 1 - Apply 1 coat of Supercoat™ MFS Surface Sealer Layer 2 - Apply a Bead of Holdfast FIXALL 220LM MS Sealant Layer 3 - Apply 1 coat of Supercoat™ MFS Membrane Layer 4 - Insert Supercoat™ Tanking Mesh into Layer 3 Layer 5 - Apply 1 coat of Supercoat™ MFS Membrane Layer 6 - Apply 1 coat of Supercoat™ MFS Membrane Layer 7 - Apply 1 coat of Supercoat™ MFS Texture Supercoat MFS System Application Details Ensure that the Polythene DPC and EPS/XPS is thoroughly cleaned and dry prior to application. Do not use any abrasive cleaning chemicals that are not compatible with EPS/ XPS or Polythene DPC, please refer to the manufacturer’s specifications for these products to ensure that the correct cleaning products are used. Layer 5 - Supercoat™ MFS Membrane Next, apply 1 coat of Supercoat™ MFS Membrane at an approximate spread rate of 2.25m2/L, with a wet film thickness of 500 microns. The second coat of Supercoat™ MFS Membrane is applied by roller or brush strokes perpendicular to the strokes used in Layer 3. As shown in Detail 2.1 on Page 3, this is applied under the bottom plate, down the face of MAXRaft EPS/XPS Foundation and over the Polythene DPC on the blinding layer (ensure that the Polythene DPC has been trimmed back prior to application so that it only protrudes 75mm past the EPS/XPS Foundation). Please reference Detail 2.1 on Page 3 in conjunction with the below application instructions. NOTE: For minimum cure times between coats, please reference the Supercoat™ MAXRaft Foundation System (MFS) Technical Data Sheets located at the back of this manual. Layer 1 - Supercoat™ MFS Surface Sealer Apply one coat of the Supercoat™ MFS Surface Sealer at an approximate spread rate of 6m2/L, with a wet film thickness of 150 microns. As shown in Detail 2.1 on Page 3, this is applied under the bottom plate and over the front face of the MAXRaft EPS/XPS Foundation down to where the EPS/XPS meets the Polythene DPC layer. Ensure that the Supercoat™ MFS Surface Sealer is not applied over the Polythene DPC. After application, allow a minimum of 2 hours at 20°C before the product can be overcoated with the 1st coat of Supercoat™ MFS Membrane. Layer 6 - Supercoat™ MFS Membrane Next, apply 1 coat of Supercoat™ MFS Membrane at an approximate spread rate of 2.25m2/L, with a wet film thickness of 500 microns. The third coat of Supercoat™ MFS Membrane is applied by roller or brush strokes perpendicular to the strokes used in Layer 5. As shown in Detail 2.1 on Page 3, this is applied under the bottom plate, down the face of MAXRaft EPS/XPS Foundation and over the Polythene DPC on the blinding layer (ensure that the Polythene DPC has been trimmed back prior to application so that it only protrudes 75mm past the EPS/XPS Foundation). Layer 2 - Holdfast FIXALL 220LM MS Sealant Apply a 5 x 5mm bead of Holdfast FIX ALL 220LM MS at the junction point where the MAXRaft EPS/XPS Foundation meets the Polythene DPC as shown in Detail 2.1 on Page 3. Keeping your small tool wet at all times to ensure that it glides smoothly across the sealant bead, rub along the bead of Holdfast FIXALL 220LM MS Sealant to create a 45° waterproof seal at this junction point. This also acts as a backing for the Supercoat™ MFS Membrane to be applied over, ensuring that a waterproof seal is achieved. Layer 7 - MFS Texture Using a standard Hopper Gun on very low pressure with an 8mm tip, apply the Supercoat™ MFS Texture at an approximate spread rate of 0.9m2/L with a wet film thickness of 1000-1500 microns. As shown in Detail 2.1 on Page 3, this is applied down the face of MAXRaft EPS/XPS Foundation and over the Polythene DPC on the blinding layer. Ensure that a thorough coat is applied to the Polythene DPC as this helps to protect the Supercoat™ MFS Membrane System once the 200mm wide gravel filled channel has been filled. Layer 3 - Supercoat™ MFS Membrane Next, apply 1 coat of Supercoat™ MFS Membrane at an approximate spread rate of 2.25m2/L, with a wet film thickness of 500 microns. The first coat of Supercoat™ MFS Membrane is applied by roller or brush strokes moving in one direction. As shown in Detail 2.1 on Page 3, this is applied under the bottom plate, down the face of MAXRaft EPS/XPS Foundation and over the Polythene DPC on the blinding layer (ensure that the Polythene DPC has been trimmed back prior to application so that it only protrudes 75mm past the EPS/XPS Foundation). Copyright © CFG Coatings Limited 2013 MAXRaft Foundation System Texture 5 SMFS 2013 3.0Required Equipment The following equipment is to be used when applying the Supercoat™ MAXRaft Foundation System (MFS). Hopper Spray Gun 8mm Fluid Nozzle Capacity 5250mL. Roller 16mm NAP Roller Sleeve SMFS 2013 Air Compressor 7 cfm at 25psi. Wagner Airless Sprayer 3000psi. 1.9L/minute (minimum) 30ft. hose 517 Size Tip Small Tool Paintbrush Used to smooth out bead of Holdfast FIXALL 220LM MS Used to apply Supercoat™ MFS Membrane in hard to reach areas 6 Copyright © CFG Coatings Limited 2013 Appendix A Light Reflectance Values (LRV) What is LRV? Most Building Material Appraisals for claddings and exterior products state that paint colours must have an LRV higher than 40%. Colours darker than this are assessed as Alternative Solutions to the NZ Building Code and require consent from the relevant Building Control Authority. The light reflectance value (LRV) of a colour can be measured by a spectrophotometer. This device can measure how much of the visible spectrum of light is reflected by a particular colour. The LRV is measured in a range from 0 - 100% LRV. Pure black gives a 0% reading and pure white gives a 100% reading. Light that is not reflected by the colour is absorbed into the paint. The energy produced by the light absorbed into the paint is ultimately converted into heat, so the lower the LRV the more heat energy that is produced by the surface coating of a building. LRV’s and Building Control Authorities In certain visually sensitive environments, there are town planning requirements which dictate that darker colours (below 40% LRV) must be used, even though this may be beyond the limits of what is required for compliance with the N.Z.B.C. Supercoat™ recommends that when selecting a colour you consult your local Building Control Authority about any restrictions that they may have on the LRV and the suitability of colours below 40% LRV. LRV Scale 100% Black 0% 10% 20% 30% 40% 50% 60% 70% 80% 90% 100% 100% White The LRV can be affected by the finished surface of the coating, for example a jet black gloss finish paint will achieve some reflective values working in a similar way to that of a mirror, where flat/matte and textured paints do not have these properties and therefore will only reflect in a radiated manner. Colours in the LRV Range 40% down to 25% Use of colours in this range are considered an Alternative Solution to the Building Code and as such, requires consent from your Building Control Authority. The Supercoat™ 8 year warranty still applies to this range of LRV, as long as the B.C.A. approval is given. LRV Sensitive Substrates Higher LRV’s are often specified for substrates that are either sensitive to heat, or where thermal expansion and contraction would have a negative impact on the buildings ability to function and remain weather tight. Heat energy build up can increase the risk of the cracking at joints in monolithic wall claddings, especially where timber framing is the supporting structure. Colours in the LRV Range 25% down to 0% If a colour that has an LRV of less than 25% is selected, the building owner will be required to sign a Colour Waiver Form. This form identifies the colour selected for the property as having an LRV under 25%. This waiver removes any rights to claim, under warranty for any future damage to coating or building, caused by excessive heat transmitted by the dark colour. When sampling paint colours, paying attention to Light Reflectance Values as you try different hues, tints, tones and shades creates benchmarks that can assist you in arriving at colour selections quickly and efficiently. Traditional Waffle Slab MAXRaft© Slab Thermal bridge free construction is essential for perimeter foundations to ensure there is no condensation risk and optimal thermal comfort. A conventional waffle slab floor has many thermal bridges especially around the perimeter. MAXRaft© offers a continuous layer of perimeter insulation. This has a dramatic effect on the surface temperature at the floor edge. Our iso-thermal analysis makes it easy to see the difference in surface temperature. Copyright © CFG Coatings Limited 2013 7 SMFS 2013 Colour Variations between Batches & Tints What can be done to minimise the impact of colour variation? 1) Use a single batch for a job or an isolated area. i.e. a paint product that has been tinted from the same tinting machine at the same time. As in good trade practice, all pails of tinted paint should be boxed together prior to use (without exception). This ensures consistency of colour is achieved over the entire job. 2) Do not use paint from different batches on the same surface or surfaces close together. If possible, purchase paint for the whole job at one time. 3) Industry trade practice requires that if you have mixed batches of coloured paint then they must always be ‘boxed’ together. i.e. mixing all the paints in a large container will always ensure colour consistency. CFG Coatings Ltd produces only the highest quality paints for professionals using the highest quality raw materials; this is backed up with quality support. As part of this service, we offer advice to our Networks of Distributors and system providers about colour to help them achieve the best results time after time. 4) Check the colour of all buckets in each batch before you use it. The human eye can differentiate between approximately 10 million colours, the way in which light hits a building can alter that perceived colour, in some cases substantially. However, although paint manufacturers have been making and using colours for many, many years, there are fundamental issues around colour matching that still arise. 5) Ask the Client or Project Manager to agree that the colour (and quality of the paintwork) is in line with the specification by signing off a small test area at the beginning of the project. This will avoid costly recoating every time. 6) The appearance of a colour always depends on the type of lighting. Therefore be sure that the Client or Project Manager checks the colour in suitable lighting conditions. The Client or Project Manager may not ask for this so painting contractors need to be proactive in requesting this check. Industry standard paint technology is still plagued with many variables and whilst these variables may be very small, they can still be quite significant at times. Why are variables experienced? 7) ‘Touching up’ should only be attempted using paint from the original job using the same application methods. Therefore, paint should be reserved specially for this purpose. It is recommended that touching up is carried out up to a break in the wall or surface. With particular colours, usually deeper shades and higher sheen finishes it may be necessary to recoat the entire area to avoid noticeable differences in appearance. 1) Manufactured pigments have always differed from batch to batch. 2) Tinting machines consistently produce a slightly different strength of colour each time. 3) Raw materials used in the manufacture of bases vary every time the product is made. These are just three reasons why, historically, the paint industry has always experienced batch to batch variation on ready mixed and tinted paint based products. If you have any questions don’t hesitate to contact CFG Coatings Ltd for professional advice. Over the last 20 years the market has moved from ready mixed to predominately tinted paints. Whilst this gives our Distributors, system providers and end users greater advantages, it also introduces the obstacles associated with colour variation. These colour variations effect a wide range of industry where colours are used. SMFS 2013 8 Copyright © CFG Coatings Limited 2013 Appendix B TM Product and Material Warranty To the purchaser named hereunder; CFG Coatings Ltd, warrants that the product and materials for the purchaser’s property are guaranteed for a period of 8 years against peeling, flaking or deterioration due to faulty formulation or manufacture. Provided always that; E L The Supercoat™ product and material has been applied in a tradesman like manner and in full accordance with the Supercoat™ Coating Systems specifications. The coated substrate is fit for purpose to bear the coating and able to withstand the additional shear forces exerted by the coating where appropriate, that it is stable, in that it has not sustained any deterioration or damage prior to the system application and meets all statutory requirements and building code standards. P M The purchaser has made payment in full for the Supercoat™ Coating System and its application. The Supercoat™ Coating Applicator Workmanship Warranty is approved by the Distributor or system provider and has been signed by the Supercoat™ Coating Applicator on completion of the job. CFG Coatings Ltd shall not be liable under this warranty for any damages or claims against failure of the Supercoat™ Coating System caused by; A S Cracking, lifting, peeling or flaking of previous coating, hydrostatic pressure, settling or movement of the substrate, corrosion, ingress of moisture or other contaminants, presence of undetected moisture at the time of application, maltreatment, excessive wear and tear or any other factors outside the control of the supplier/manufacturer. Subject to all statutory rights the purchaser may have, CFG Coatings Ltd will not be liable for any incidental or consequential loss resulting from any defect of the Supercoat™ Coating Systems. The purchaser shall give written notice of any claims pursuant to the warranty within fourteen (14) days of any defect coming to the notice of the purchaser. Where a coating is deemed defective CFG Coatings Ltd shall make available all the Supercoat™ coating materials required to reinstate the Coating System free of charge. This is the full extent of any “warranty” offered and supersedes any and all other, whether expressed, implied or perceived by any other person and or party. Supercoat™ Coating System This building has been coated with the following Supercoat™ Coating System products. Name of purchaser Site address where the Supercoat™ Coating System has been applied Street/Road/Ave Town/City Dated this day of 2012 To be Issued and Signed by; The Manager CFG Coatings Ltd Copyright © CFG Coatings Limited 2013 9 SMFS 2013 Applicator Producer Statement TM To the purchaser named hereunder; I ....................................................…….........………………….........…………………….................…………… (personal name) of ..............................................……………………………………………….........……………................…………… (company) hereby known as the Supercoat™ Coating Applicator, warrant that all the Supercoat™ Coatings applied to the substrate of the purchaser’s building have been applied in a tradesman like manner and in full accordance with Supercoat™ Coating System specifications. The Supercoat™ Coating System is warranted for a period of 8 years against peeling, flaking, cracking or deterioration due to faulty workmanship or defective application. E L Provided always that; The coated substrate is fit for purpose to bear the coating and able to withstand the additional shear forces exerted by the coating where appropriate, that it is stable, in that it has not sustained any deterioration or damage prior to the system application and meets all statutory requirements and building code standards. P M The purchaser has made payment in full for the Supercoat™ Coating System and its application. The Supercoat™ Coating Applicator shall not be liable under this warranty for any damages or claims against failure of the Supercoat™ Coating System caused by; Cracking, lifting, peeling or flaking of previous coating, hydrostatic pressure, settling or movement of the substrate, corrosion, ingress of moisture or other contaminants, presence of undetected moisture at the time of application, maltreatment, excessive wear and tear or any other factors outside the control of the supplier/manufacturer. A S Subject to all statutory rights the purchaser may have, the Supercoat™ Coatings Applicator will not be liable for any incidental or consequential loss resulting from any defect of the Supercoat™ Coating System. The purchaser shall give written notice of any claims pursuant to the warranty within fourteen (14) days of any defect coming to the notice of the purchaser. Where the coating application is deemed to be defective the Supercoat™ Coatings Applicator shall make available all the labour and replacement coating materials and sundry items required to reinstate the Supercoat™ Coating System free of cost to the owner. This is the full extent of any “warranty” offered and supersedes any and all other, whether expressed, implied or perceived by any other person and or party. Supercoat™ Coating System This building has been coated with the following Supercoat™ Coating System products. Name of Purchaser Site address where the Supercoat™ Coatings System has been applied Street/Road/Ave Town/City Dated this day of 2012 Signed by The Supercoat™ Coating Applicator ____________________________________ SMFS 2013 10 Copyright © CFG Coatings Limited 2013 MAXRaft Foundation System (MFS) Surface Sealer MA XRaf tF o undat i onSy s t em ( MF S)Su r f ac eSe al er Technical Sheet T ec hni c al DData at aSh eet Product Description Supercoat™ Surface Sealer is a fast drying, low viscosity, high penetration sealer used in the MAXRaft Foundation System (MFS) to seal the Expanded Polystyrene (EPS) or Extruded Polystyrene (XPS) prior to application of the Supercoat™ MFS Membrane. Specifications MSDS Appearance Vehicle Type Pigmentation Solvent Finish Touch dry time Recoat time (minimum) Wet film thickness Solids Content Viscosity Specific Gravity Usual number of coats Toxicity Thinning & cleaning Coverage Pail type & size 900 - Version 1.0 Milky Light Blue Styrene Acrylic None Water Clear Gloss 25 minutes at 20°C 2 hours at 20°C 150 microns 26% 50 - 60 KU 1.03 - 1.4 1 No added Chromites or Lead Water 6m²/L Plastic 4L, 8L & 20L Please Note Do not apply at temperatures below 10°C or if it is likely to drop below 10°C during drying/curing time. Softens at temperatures over 70°C. Safe to use on surfaces that collect drinking water. Manufacturer CFG Coatings Ltd PO Box 2398 Dunedin, New Zealand. Phone (03) 456 4222 [email protected] The information contained herein is correct to the best of our knowledge. Due to product improvement and supply, these specifications may be subject to minor changes. Supercoat Surface SealerTDS091113V1.4 Copyright © CFG Coatings Limited 2013 11 SMFS 2013 MAXRaft Foundation System (MFS) Membrane MAXRaf tF oundat i onSy s t em ( MF S)Memb r ane T ec hni c al D at aSh eet Technical Data Sheet Product Description Supercoat™ MFS Membrane is a liquid applied elastomeric waterproofing membrane for use in sealing MAXRaft Foundations. This membrane is particularly useful where substrates are subjected to weather or dampness. Available as Plain, Keycoat and Texture (containing aggregate). This product is mesh reinforced. Specifications MSDS Appearance Vehicle Type Pigmentation Solvent Finish Colour Touch dry time Recoat time (minimum) 3 coat wet film thickness 1 coat wet film thickness Solids Content Viscosity Specific Gravity Usual number of coats Toxicity Thinning & cleaning 3 coat system coverage 1 coat coverage Pail type & size 003 - Version 1.0 Grey (white optional) Pure Acrylic Ceramic Oxides Water Flat Varies 30 minutes at 20°C 2 hours at 20°C 1300 - 1500 microns (3 coat meshed system) 433 - 500 microns (1 coat system) 46% 115 - 120KU 1.03 - 1.4 2 - 4 (depending on required use) No added Chromites or Lead Water 0.75m²/L depending on substrate profile and applicator 2.25m²/L depending on substrate profile and applicator Plastic 4L, 8L & 20L Please Note Do not apply at temperatures below 10°C or if it is likely to drop below 10°C during drying/curing time. Softens at temperatures over 70°C. Safe to use on surfaces that collect drinking water. Manufacturer CFG Coatings Ltd PO Box 2398, Dunedin, New Zealand. Phone (03) 456 4222 [email protected] The information contained herein is correct to the best of our knowledge. Due to product improvement and supply, these specifications may be subject to minor changes. Supercoat Tanking MembraneTDS091113V1.6 SMFS 2013 12 Copyright © CFG Coatings Limited 2013 MAXRaf tF oundat i onSys t em ( MF S) T ext ur e MAXRaft Foundation System (MFS) Texture T ec hni c al D at aS heet Technical Data Sheet Product Description Supercoat™ MFS Texture is an elastomeric textured waterproofing membrane for use in the MAXRaft Foundation System (MFS). The Supercoat™ MFS Texture is Hopper applied using a standard Hopper gun with an 8mm tip applied at very low pressure. The Supercoat™ MFS Texture is the final coat applied over the Supercoat™ MFS Membrane to the exposed MAXRaft Foundation. Specifications MSDS Appearance Vehicle Type Pigmentation Solvent Finish Colour Touch dry time 1 coat wet film thickness Solids Content Viscosity Specific Gravity Usual number of coats Toxicity Thinning & cleaning 1 coat coverage Pail type & size 600 - Version 1.0 Grey (white optional) Pure Acrylic Ceramic Oxides Water Flat British Standard 5252, Colour 00A09 2 hours at 20°C 1000 – 1500 microns (1 coat system) 46% 115 - 120KU 1.03 - 1.4 1 No added Chromites or Lead Water 0.9m²/L depending on substrate profile and applicator Plastic 4L, 8L & 20L Please Note Do not apply at temperatures below 10°C or if it is likely to drop below 10°C during drying/curing time. Softens at temperatures over 70°C. Safe to use on surfaces that collect drinking water. Manufacturer CFG Coatings Ltd PO Box 2398, Dunedin, New Zealand. Phone (03) 456 4222 [email protected] The information contained herein is correct to the best of our knowledge. Due to product improvement and supply, these specifications may be subject to minor changes. Supercoat Tanking MembraneTDS091113V1.6 Copyright © CFG Coatings Limited 2013 13 SMFS 2013 Elastoshield Elastoshield -Technical TechnicalData Data Sheet Sheet Product Description A specially formulated breathable external elastomeric coating for use on most building envelopes. A high viscosity, pure acrylic, incorporating fillers, extenders and fungicides for increased durability. Designed for great adhesion and corrosion resistance with a strong elastomeric membrane providing maximum weather durability under extreme conditions. For coating suitable external surfaces requiring an elastomeric membrane topcoat with excellent micro fissure crack spanning capabilities. Specifications MSDS Appearance Vehicle Type Solvent Finish Colour Touch dry time Wet film thickness Solids Content Viscosity Specific Gravity Usual number of coats Toxicity Thinning & cleaning Coverage Pail type & size 019 - Version 1.1 White to Mid Cream 100% Acrylic Water Flat Fully tintable 1-3 hours at 20C (should not be applied below 10°C) 300 microns per coat 40.6 - 47.6% 115 - 120KU 1.03 - 1.4 2 (depending on substrate and colour density) No added Chromites or Lead Water 3.5m²/L via airless spray depending on substrate profile and applicator Plastic 20L Please Note Do not apply at temperatures below 10C or if it is likely to drop below 10C during drying/curing time. Softens at temperatures over 70C. Safe to use on surfaces that collect drinking water. Manufacturer CFG Coatings Ltd PO Box 2398, Dunedin, New Zealand. Phone (03) 456 4222 [email protected] The information contained herein is correct to the best of our knowledge. Due to product improvement and supply, these specifications may be subject to minor changes. Supercoat_ElastoshieldTDS091113V1.5 SMFS 2013 14 Copyright © CFG Coatings Limited 2013 Copyright © CFG Coatings Limited 2013 15 SMFS 2013 SMFS 2013 16 Copyright © CFG Coatings Limited 2013 Technical Support Disclaimer MAXRaft provides Techincal Assistance across New Zealand for the MAXRaft Foundation system. Colour Variations between Batches & Tints CFG Coatings take no responsibility for any colour variations between different batches of tinted paint based products. Please ensure that you always order enough paint to complete the entire project. Refer to Appendix A of this manual for further information. Visit www.maxraft.co.nz for your nearest distributor or system provider who will offer free estimating services and/or technical support to project architects, engineers, builders and owners. Guarantee North Island Technical Support CFG Coatings Ltd guarantees its Supercoat™ Coating Systems to be free of defect in materials and manufacture. This guarantee excludes all other guarantees and liability for damage or loss in connection with defects in CFG Coatings Ltd’s product, other than those imposed by legislation. Jeremy Lonsdale [email protected] 021 669 773 Health & Safety South Island Technical Support Information on any known health risks of our products and how to handle them safely is shown on their package and/or the documentation accompanying them. Additional information is listed in the Material Safety Data Sheets available on our website www. supercoat.co.nz. Fraser Mackenzie [email protected] 021 444 969 For further information on the MAXRaft Foundation System Phone 0800 MAXRAFT or visit www.maxraft.co.nz CFG COATINGS 67 Reid Rd, P.O. Box 2398 Dunedin, New Zealand. Phone: +64 3 455 1502 Fax: +64 3 456 3587 www.supercoat.co.nz CFG CONCRETE For your nearest distributor of Supercoat™ Products visit our website www.supercoat.co.nz The information presented herein is supplied in good faith and to the best of our knowledge was accurate at the time of preparation. No responsibility can be accepted by CFG Coatings Ltd or its staff for errors or omissions. The provision of this information should not be construed as a recommendation to use any of our products in violation of any patent rights or in breach of any statute or regulation. Users are advised to make their own determination of the suitability of this information in relation to their particular purposes and specific circumstances. Since the information contained in this document may be applied in conditions beyond our control, no responsibility can be accepted by us for any loss or damage caused by any person acting, or refraining from action as a result of this information. The systems detailed in this design manual are only to be used with Supercoat™ Coating Systems, distributed by CFG Coatings Ltd. This literature is not permitted to be used for other types of Coating Systems. Copyright © CFG Coatings Limited 2013 17 SMFS 2013