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ConstructionChemicals
The following section includes details of selected Ramset™ Construction Chemicals typically of interest to specifiers.The name Ramset™ is synonymous with Quality, and the Ramset™ Construction Chemicals product range is no exception. Ramset™
Construction Chemical products are made to exacting quality standards to ensure reliability and consistency.Ramset™ Construction Chemicals are tested to Australian Standards such as AS1530.4 fire rating to ensure compliance with the BCA.The products selected for this section are grouts for structural underpinning and sealants for fire and acoustic rated partitions and facades
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35.1 ESTIMATING CHARTLineal Metres per 960 g (600m ml) Sachet (Approx)
Construction Chemicals
35.2-3 OverviewConstruction Chemicals
Depth (mm) 6 8 10 12 15 20 25 506 16.6 -- -- -- -- -- -- --8 x 9.4 -- -- -- -- -- --10 x x 6.0 5.0 4.0 3.0 - -
12.5 x x x x x x 1.9 --25 x x x x x x x 0.5
Lineal Metres per 450 g (300m ml) Cartridge (Approx)
Coverage based on nominal dimensions"--" Shallow joint. Risk of sealant tearing. Make joint deeper."x" Joint depth > width. Risk of sealant tearing. Adjust depth with backing rod.Refer above for correct joint design details.
General DetailsMovement of joints in concrete structures is caused by:
The factors that cause joints to open are the most significantwhen optimising joint design for sealants.Because joints move, sealants must be elastic and flexibleto avoid splitting, tearing and loss of adhesion.A sealant’s flexibility is defined by its strain capacity,expressed as a percentage change in nominal joint width.
Joint ConfigurationThe shape of the sealant within a joint influences its abilityto stretch with movement.Correct Width to Depth Ratio
Joint Width Joint Depth 6mm to 10mm Equal to joint Width10mm to 20mm 10mm20mm to 50mm Equal to 1/2 joint Width
Configuring Joints in Concrete Structures for Optimum Sealant Performance
Correct Joint Configuration
Ch f d C t
Joint Nominal Joint Width (mm)Depth (mm) 6 8 10 12 15 20 25 50
6 8.3 -- -- -- -- -- -- --8 x 4.7 -- -- -- -- -- --10 x x 3.0 2.5 2.0 1.5 -- --
12.5 x x x x x x 1.0 --25 x x x x x x x 0.3
35.2 JOINT CONFIGURATION & DESIGN
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Incorrect Joint Configuration
Joint DesignFollowing is a simple, conservative method for calculating minimum joint width. For more accurate and rigorous treatment,consult the references listed below.
Minimum Joint Width, Lmin = 100 / Sealant Strain Capacity x L…(1L = Anticipated joint movementL = Lt + Lcs………………………….(2
Lt = Change in Joint Width due to Temperature Change (mm)Lcs = Change in Joint Width due to Concrete Shrinkage (mm)
Lt = L x c.temp x T…………………….(3L = Joint Spacing (mm)
c.temp = Coefficient of Concrete Thermal Expansion (mm/mm°C)T = Change in Temperature (°C)
Lcs = L x cs……………………………..(4L = Joint Spacing (mm)
cs = Concrete Shrinkage Strain = 850 x 10-6 mm (Conservative. Refer AS3600 Clause 6.1.7 for accurate values)In this simple method, effects that cause joints to close are ignored, as they do not impart tensile strain on the sealant. Forexample concrete creep and temperature increase cause joints to close resulting in compression of the sealant.
Worked Example:Concrete Panel Width = L = 4m, Thickness = 150mm, Installation Temperature = 30°C, Minimum Temperature = 5°C.Sealant = Ramset™ HiSeal™, Strain Capacity = ± 25%, c.temp.temp = 12 x 10-6 mm/mm°C, cs = 850 x 10-6 mm
Lt = 4 x 1000 x 12 x 10-6 x (30 – 5°C) = 1.2 mmLcs = 4 x 1000 x 850 x 10-6 = 3.4 mm
Lmin = 100 / 25 x (1.2 + 3.4) = 18.4 mm
ReferencesAS3600 – 2001, Concrete Structures Standards AustraliaPrecast Concrete Handbook National Precast Concrete Association Australia 2002Warner et al 1998 Concrete Structures, Addison Wesley Longman Australia
Ramset™ does not give any representation, guarantee or warranty, express or implied that the information is or will be complete or accurate or that it has been or will be independently verified. To the extent permitted by statute, Ramset™ its servants and itsagents will not be liable (whether in negligence or other tort, by contract or under statute)in respect of any loss or damage (including consequential loss or damage) arising by any reason of or in connection with the provision of the information or by purported relianceon it.
35.2 JOINT CONFIGURATION & DESIGN (cont)
Joint Width Joint Depth 6mm to 10mm Equal to joint Width10mm to 20mm 10mm20mm to 50mm Equal to 1/2 joint Width
Sealant Descriptionp Strain Capacityp yHiSeal™ 1-Part Polyurethane Construction Sealant ± 25%
FyreBrake™ 1-Part Polyurethane Fire Rated Sealant ± 25%
Roof Seal 1-Part Neutral Cure Silicone Roofing Sealant ± 25%
Joint Seal 1-Part Neutral Cure Silicone Construction Sealant ± 25%
Glass Seal 1-Part Acetic Cure Silicone Glazing Sealant ± 25%
Water Seal 1-Part Acetic Cure Silicone Mould Resistant Sealant ± 25%
BlazeBrake™ 1-Part Fire and Acoustic Rated Acrylic Sealant ± 15%
DynaSeal™ 1-Part Urethane-Acrylic Construction Sealant ± 20%
Gap Seal 1-Part Acrylic Painters Sealant ± 6%
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Consistency Volume of Weight of Yield of Pot Life @ Compressive Tensile FlexuralEpoxy Fillers FG Mixture 20°C Strength @ 7 Strength @ Strength @
Grout (Litres) (Kg) (Litres) (Minutes) days (MPa) 7 days (MPa) 7 days (MPa)Fluid 1 0.6 1.2 40-45 110 17 32Pourable 1 2.3 1.9 40-50 100 15 29Trowellable 1 2.9 2.1 60-70 90 12 26Dry Pack 1 3.8 2.4 65-80 85 11 26
A: Grey thixotropic liquidAppearance Part Part B: Amber liquid
Grey when mixed togetherViscosity Flowable, pourable
Flammability Non flammableSolid content by weight 100%
Tensile strength 30 MPa approx.Compressive strength 110MPa approx.
Flexural strength 25 MPa approx.Tensile bond strength 10 MPa approx.Modulus of elasticity 4.5 x 103 MPaService temperature -10°C to +65°C
Heat distortion temp 80°C approx.Hardness > 80 Shore DPot life 45 – 50 mins @ 25°C
Tack free time 1.5 – 2.5 hours @ 25°CMix ratio 5:1 (part A:B) by volume
Min. Application temp. 5°CMax. Application temp. 35°C
Density 1.53 kg/LitreWater absorption* <0.2% (10 days
Full cure 7 days at 25°C
Construction Chemicals
36.1-2 Epoxy GroutConstruction Chemicals
ProductRamset Epoxy Grout is a tough epoxy resin based grout foruse in pourable form or for mixing with graded sand filler toproduce a trowellable consistency.Epoxy Grout is 100% solids epoxy with negligible shrinkage.
Benefits, Advantages and Features High flow properties – good bonding and penetration Bonds to dry and damp concrete Pre-measured kits to avoid measuring errors High tensile and compressive strength 100% solids epoxy – solvent free and negligible shrinkage Cures at temperatures down to 5°C High mechanical strength Resistant to vibration and dynamic loads Add graded sand to change consistency
36.1 GENERAL INFORMATION
Unfilled Epoxy GroutTypical properties after 7 days cure at 25°C and 50% relative humidity
*Tested to ASTM D570
36.2 TYPICAL PROPERTIES
Epoxy Grout Mixed with Ramset Fillers FG
For safety directions precautions and general preparation please refer to the technical data sheet available on the Ramset website
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Epoxy Grout will achieve about 80% of its final cure strength in 24 hours and will achieve full strength in 7 days.Remove formwork and apply full torque to bolts after 24 hours.
Installing Threaded Rod and Reinforcing Bar into Solid Concrete with Ramset Epoxy GroutRecommended Epoxy Grout Hold Down Bolt, Threaded Rod and Reinforcing Bar Installation Guide
More information on Anchoring Technology go to pages 24-43.
Installing Ferrules into Solid Concrete with Ramset Epoxy GroutTo create a post installed internally threaded fixing, Ramset have developed a method of installing ferrules into solid concrete with Epoxy Grout instead of the
traditional cast in method.
For more information on Ferrules contact your local Ramset Engineer.
Working Load Limits in Tension of Ferrules installed in Solid Concrete with Ramset Epoxy Grout
are limited by concrete cone capacity. Check tensile capacity of bolts to determine if fixing load capacity is limited by steel
steel shear capacity.
contact a Ramset engineer for further advice
Parameter Minimum MaximumDrilled Hole Diameter Threaded Rod, dh Rod / Bar diameter (d b) + 2 mm 2 x dbDrilled Hole Diameter Reinforcing Bar, dh db + 5 mm 2 x dbEffective Hole Depth, h 8 x dbCritical Edge Distance, ec 3 x hCritical Anchor Spacing, ac 6 x hDepth of Concrete Substrate, bm 1.25 x h
Ferrule Size, db xL (mm)
Part Number Drilled HoleDiameter, dh (mm)
Hole Depth, h(mm)
Edge Distance,ec, (mm)
Anchor Spacing, ac(mm)
SubstrateThickness, bm
(mm)M12 x 95 FE12095(GH) + 28 100 135 270 115M16 x 95 FE16095(GH) + 35 100 135 270 115M20 x 95 FE20095(GH) + 40 100 135 270 115
+ Available in zinc galvanised or hot dipped galvanised (GH) carbon steel
Ferrule Size, db x L(mm)
Tension, Na (kN)*Concrete Compressive Strength, f’c (MPa)
20 MPa 32 MPa 40 MPaM12 x 95 15.9 20.1 22.5M16 x 95 18.4 23.2 26.0M20 x 95 20.6 26.0 29.1
* Working Load Limit (WLL) = Lower Characteristic Ultimate Concrete Tensile Load Capacity (Nuc) / 3
36.3 CURING
Pack Size Order Number1 Litre EPGRL14 Litres EPGRL4
16 Litres EPGRL16
36.5 DESCRIPTION AND PART NUMBERS
36.4 ANCHOR INSTALLATION WITH EPOXY GROUT
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Construction Chemicals
37.1 Premier Grout MPConstruction Chemicals
ProductHIGH STRENGTH PREMIER GROUT MP will not shrink makingit ideal for filling holes and voids in concrete for installing and repairing posts, bolts, pipe penetrations or structural underpinning.Premier Grout MP is a Class A, non shrink cement grout that complies with AS MP20, Part 3 (1977). The product consists of a speciality blend of cement, graded aggregate and otherchemically reactive agents. Premier Grout MP does not contain any ferrous material or Calcium Chloride.Premier Grout MP is supplied in 20kg Bags as a ready to usedry powder. The addition of different amounts of clean water will produce a range of non-shrink grouts for placement atthicknesses of 10mm to 150mm in a single application.
Benefits, Advantages and Features High Strength Non-shrink- Good dimensional stability- Complete void filling
Versatile - Can be dry packed, rammed, trowelled, poured and pumped over short distances
Economical, low in-place cost Ready to use, pre mixed, requires only the addition of water. Non-staining – chloride and iron free Lower water/cement ratio- Reduced drying shrinkage- Increased hardness and durability- Reduces permeability
37.1 GENERAL INFORMATION
37.2 TYPICAL PROPERTIES
Litres of water per 20kg bag
* Refers to the water content used to carry out performance testing as indicated in the tables below.
Consistency Dry Pack Trowellable FlowableRange 2.0 2.5 – 3.0 3.5-4.0*Test Levels 2.0 3.0 3.8
Setting Times - Vicat setting times at 20°C
Test Methods:
Dry Pack Trowellable FlowableInitial Set 1.5 hours 1.5 hours 1.5 hoursFinal Set 4.0 hours 4.0 hours 4.0 hours
- Start (plastic state) 30 minutes 30 minutesTime forExpansion - Finish (plastic state) 2.0 – 2.5 hours 2.0 – 2.5 hoursUnrestrained Expansion - >2% >1.5%Bleeding 0% 0% 0%
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37.2-4 Premier Grout MPConstruction Chemicals
37.2 TYPICAL PROPERTIES (Cont)Compressive Strength - Tested in accordance with AS1012.9, AS2073 at 20°C
Age Dry Pack Trowellable Flowable1 day 40 25 153 days 60 45 257 days 65 55 4028 days 70 70 50
Flexural Strength - Tested in accordance with ASTM C348-86 at 20°C
Age Trowellable1 day 8.5MPa7 days 11.0MPa
Yield - Approximate yields obtained if mixed in accordance with recommended procedures with accuratelymeasured water content.
Dry Pack Trowellable FlowableLitres per 20kg bag 10.3 11.0 11.7Fresh Wet Density ~kg/m3 1,950 1,800 1,750Bags required per cubic metre 96 90 87
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37.4 DESCRIPTION AND PART NUMBERSPack Size: 20kg paper bagOrder Number: RPGMP
37.3 CURINGPrevent moisture loss of hardened grout by applying water to the surface or covering exposed grout with wet Hessian, plastic sheeting or Ramset Concrebond or other curing compound. Keep grout thoroughly moist for a minimum of 48 hours to prevent drying shrinkage and cracking. If required remove formwork after 24 hours and protect exposed grout from moisture loss as described above.High wind conditions will affect the drying surface of grout; take precautions to protect the material from prevailing weather.
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NotesConstruction Chemicals
Construction Chemicals
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