sika products
TRANSCRIPT
Sika®-1 Waterproofing SystemWaterproofing Above and Below Groundfor both New and Refurbishment Works
Solutions with Sika® Systems
▲ Simple 'No Sump No Pump’ Technology▲ 90 year Track Record▲ Environmentally Friendly▲ Designed for the Life of the Structure
Cons
truct
ion
Uniclass EPICL6813 F83
CI/SfBY (L34)
NBSSPECIFICATION
The Components of Sika®-1 Water
Sika®-1 Mortar TechnologyDense impervious mortar is produced by minimising capillaries and using pore blocking techniques.
With rising groundwater in many areas, coupled with the ever increasing commercial need to optimise land usage by creating and re-creating habitable basement areas, there is a need for effective and durable waterproofing in both new and refurbishment works.
Similarly, with ever stricter controls on water quality, many existing structures, for the retention of potable water or for the protection of ground water from effluents, will need upgrading.
Applied internally or externally, the cementitious Sika®-1 Waterproofing
System has provided the answers for over 90 years. Using neither sumps or pumps the Sika®-1 Waterproofing System forms an integral part of the structure to which it is applied, and is designed to last the lifetime of that structure.
▲ Keeping Water Out ▲ Basements▲ Underground Car Parks▲ Metro Stations and Subways▲ Utility Vaults▲ Marine Structures▲ Tunnels
▲ Keeping Water In▲ Reservoirs▲ Water Tanks▲ Waste Water Treatment Plants▲ Secondary Containment Bunds▲ Swimming Pools▲ Sewers and Pipelines
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In
The Sika®-1 Waterproofing System can be designed to“keep water in” or to “keep water out”.
2
proofing System
PenetrationsPipe entries, service ducts etc must be sealed incorporating SikaSwell® hydrophillic profiles and Sikaflex® Sealants
Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out
Jointing TechnologyConstruction joints and movement joints must be sealed using the SikaDur®-Combiflex® System
The Sika®-1 Waterproofing Systemconsists of a specialist liquid admixture and pre-bagged quality controlled mortars.
Sika®-1 mortars consist of kiln dried pre-batched precision graded aggregates andcements, in 3 easily identifiable grades withsimple colour striping to ensure site qualitycontrol.
Sika®-1 admixture is a colloidal silicate liquid,diluted and incorporated into the mortar mixproducing a complete waterproofing system.
Durability
“Under normal conditions of use, the Sika® -1 Structural WaterproofingSystem will provide an effective barrier to thetransmission of liquid water for the life of thebuilding to which it is applied”.
As quoted in British Board of Agrément Certificate. Number00/3761 Section 15.
3 coats ofSika -1
WaterproofingSystem
SikaDur -CombiflexJointing System
at floor/walljunction
3
Sika®-1 Waterproofing System
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In
1. All materials must be stored in clean dry conditions
2. Suitably qualified and experiencedcontractors should be used.
3. All surfaces must be thoroughlymechanically prepared.
7. Immediately prior to installation ofSika®-1 Waterproofing System,saturate the surface with clean water.
8. The first wall coat of Sika®-1Spritz Mortar is "cast" vigorouslyonto the wall at 6mm thickness.
9. The 2nd and 3rd wall coats of Sika®-1 Render and FinishingMortar are trowel applied to aminimum 6mm per coat.
14. The 2nd and 3rd coats of Sika®-1Screed Mortar are applied to thefloor by trowel and lapped onto wallfinishes.
13. A Sika®-1 Bonding CoatMortar is brush applied as a slurryto the prepared floors.
15. All service entries must be filled withSika®-1 Waterproofing Systemand sealed using high performancesealants Sikaflex®-11FC+,SikaSwell® or SikaDur®-Combiflex® System.
Note: Full installation guide and detailing sheets for Sika®-1 Waterproofing System are available on request
4
Application Guide
Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out
4. All joints should be protected bySikaDur®-Combiflex® Systemincorporated within the render.
5. Sika®-1 Waterproofing admixtureshould be diluted 1:10 with freshclean water to make up a gaugingsolution.
6. Sika®-1 pre batched Mortars mustbe mixed in forced action mixers usingSika®-1 gauging solution.
10.Keying between trowelled mortars isachieved by application of splattercoats of Sika®-1 Spritz Mortar.
11.Dry joints in wall finishes should belapped by a minimum of 100mm.Similarly wall finishes should belapped onto floors.
12. If no SikaDur®-Combiflex®
System joint is used at floor/wallinterface, a Sika®-1 RenderMortar corner fillet must be included.
16. Fixings must be secured usingSikaDur®-31, Sika Powerfix®
resin adhesives, or Sikaflex®-11FC+ polyurethane adhesivesealants.Do Not Drill into system
17. Final plaster finishes suitable fordecoration can be produced withSikaMur® Finish.
18. For additional demands such asmechanical and chemical resistance, or crack bridging etc; use compatibleSikaGard® or Sikafloor® coatings.
5
The Requirements for Waterproofing Basements
(BS 8102 - 1990). Code of Practice for Protectionof Structures Against Water from the Ground
Typical Structure &RequirementsBasic utility. Basement Car Parks.Plant rooms (excluding electrical equipment).
BS 8102:Grade 1: Slight seepage and damp patches are tolerable.
11
2
Grade
Grade
Sika® Solutions
- Sika®-1 Waterproofing System- SikaDur®-Combiflex® System
Residential and Commercial BasementsWorkshops, plant rooms and retail storage where a drier environment is required.
BS 8102:Grade 2: No water penetration but moisture vapour tolerable.
- Sika®-1 Waterproofing System- SikaDur®-Combiflex® System
Ventilated residential and working areas including offices, restaurantsand leisure facilities.
BS 8102:Grade 3: A dry environment isrequired and water penetration isintolerable.
- Sika®-1 Waterproofing System- SikaDur®-Combiflex® System
Use for archives, storage of sensitive material, i.e. computer rooms.
BS 8102:Grade 4: A totally dry environment.Vapour impermeable.
3Grade
Grade
4
Additional performance requirements
▲ Hygenic and easy to clean▲ Approved for contact with
drinking water▲ Crack bridging
▲ Chemically resistant
▲ De-icing salt resistant
▲ Waste water resistant
Sika® Solutions
- Sika®-1 Waterproofing System andjoint sealing systems as Grade 3and 4 above.Plus:
- Sika® EpoCem® Systems- SikaTop® cementitious render
dependent on the specific requirements.- SikaGard® coatings
- Sika®-1 Waterproofing System- SikaDur®-Combiflex® System- Sika® EpoCem® Systems- SikaDur® Liquid Damp-Proof
Membrane- SikaGard® Coatings
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In6
Where total vapour impermeability is demanded in addition to structural waterproofingas part of a Grade 4 system under BS 8102, this can be achieved by using a Sika®
Vapour Barrier System.
Sika® Vapour Barrier Systems comprise SikaGard®-720 EpoCem® for walls andSikafloor®-81 EpoCem® for floors sealed with solvent free SikaGard® andSikafloor® epoxy resin coatings.
SikaGard® and Sikafloor® EpoCem® provide a temporary moisture and vapourbarrier allowing the application of the appropriate SikaGard® / Sikafloor® solventfree epoxy resin coating to produce a permanent and moisture vapour resistant finish.
Similarly, this system can be used on new concrete structures where residual moisturelevels are too high for the installation of finishes.
Alternatively, SikaDur® Liquid Damp-Proof Membrane can be installedwhere there is no current anticipated water pressure to help achieve a Grade 4installation under BS 8102 – please contact Sika for full technical advice.
Excess moisturevapour absorbedby free cement in
Sikafloor®-81 EpoCem
SikaGard®/SikaDur®
Sikafloor® coating
®
▲ Impermeable Moisture Barriers
▲ Solvent Free
▲ Fast Track Construction
▲ Unique Sika® Epocem® Technology
Sika® Vapour Barrier Systems
Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out 7
Deptford Town HallLondon
Problems▲ Now part of Goldsmiths College, the Old Town Hall at
Deptford has a basement constructed from brickworkwhich provided an ideal area for conversion into anational archive for the storage and study of historicfabrics.
▲ As with many 19th Century basements, over the years,the original waterproofing had become ineffective withevidence of damp and water ingress causing severedeterioration to the building fabric.
Requirements▲ Complete internal waterproofing system.
▲ Proven ‘last the lifetime of the building’ system to protect valuable artefacts.
▲ Totally controlled environment to Grade 4 use inaccordance with BS 8102.
▲ Smooth plaster finish ready to accept decoration.
Sika® Solutions▲ All exposed brickwork repaired, re-pointed and bush
hammered to provide a rough surface.
▲ Existing concrete floor mechanically cleaned.
▲ SikaDur®-Combiflex System to all potentialmovement joints.
▲ Sika®-1 three layer waterproofing system to floors andwalls.
▲ 2 coats of SikaDur® Liquid Damp ProofMembrane to provide vapour barrier.
▲ Finished surface provided by SikaMur® Dry andSikaMur® Finish renovating plasters.
▲ All materials installed to provide Grade 4 of BS 8102
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In8
Sika®-1 Waterproofing System Case Studies
Wellington Arch War Memorial LondonBuilt in 1928 to commemorate the Battle of Waterloo
Refurbishment Project completed 2000
Problem▲ Previously used for storage by Park Rangers from
the nearby Hyde Park the memorial had been leftunoccupied for years allowing water penetrationinto the basement and subsequent deterioration ofthe internal building fabric.
Requirements▲ As part of a full scale renovation for the millennium
by English Heritage, the leaking basement was to beconverted to a clean, dry visitor centre.
▲ Provide a permanently dry underground structurefor commercial use, including offices and toilets. In accordance with Grade 3 BS 8102.
▲ To ensure water tight connections between new suspended floor slabs and existing walls
▲ Maintain the historic character of this listedstructure.
Sika® Solutions▲ Full mechanical preparation of all barrel
vaulted basements
▲ Sika®-1 three layer waterproofing system to floor and walls
▲ Installation of SikaDur® Combiflex® Systemat wall to floor connections.
▲ Sikaflex®-11FC+ fast curing one partpolyurethane elastic sealant adhesive for fixing skirtings and architraves.
▲ All materials installed to provide Grade 3 of BS 8102.
Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out 9
Sika®-1 Waterproofing System Case Studies
Sika®-1 Waterproofing System Case Studies
The Vaults Trinity Street CambridgeRefurbishment Project completed 2000
Problem▲ Availability of quality commercial properties in
this University City are at a premium and optimum use of all floor space is crucial. This often involves using existing basements for a wide variety of uses.
▲ The original solid brick masonry walls had no form of external waterproofing, relying solely on the interlocking brickwork.
Requirements▲ To convert a damp, dreary brick vaulted basement
into a light airy Café Bar
▲ Complete internal waterproof system
▲ To accept ceramic floor tiles
▲ Suitable for internal decorative finish
▲ Last the lifetime of the building
▲ Provide Grade 3 use in accordance with BS 8102.
Sika® Solutions▲ All existing lime wash coatings mechanically
removed and existing brickwork mortar joints raked out and re-pointed.
▲ Exposed brickwork bush hammered to provide a rough textured surface.
▲ Sika®-1 three layer waterproofing system to floor and walls, suitable to accept final finishes.
▲ Completed systems provided waterproofing in accordanceGrade 3 of BS 8102.
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In10
Sika® Damp-Proofing Slurry▲ Pre-bagged polymer modified cement
mortar slurry
▲ Simple, just add water, technology
▲ Brush, trowel or spray application
▲ Two layer application to provide permanent damp-proof finish
▲ Acts as a waterproof lining for ponds, tanks, pools etc.
Sika® Inertol 49W Thick(Sika® Liquid Asphaltic Compound)
▲ One pack phenol-free coating complying with BS3416 Type II
▲ Waterproof treatment to foundation walls, andgeneral concrete / steel structures above and below ground
▲ Provides a DPM for ground floors
SikaMur® Ventilating Plaster System▲ Internal and external re-plastering of masonry walls
▲ Prevents migration of soluble salts following flooddamage or DPC injection
▲ Limestone based - ideal for Heritage works
▲ Fine finish plaster to produce a smooth surface
for decoration
Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out 11
Other Sika Damp-Proofing Solutions
Additional Sika® Technologies and Solutions
Sika® WaterstoppingSystems
Range of quick setting liquid additives for leaksealing and rapid plugging.
SikaBond®
Permanently elasticpolyurethane bondingsystems for solid wood and parquet flooring.
SikaTack® PanelSystemElastic bonding of façadecladding. Suitable for mostpressure ventilated curtainwalling. No visible mechanicalfixings and suitable foraluminium or timberframework. Elastic bondingallows for load transmissionand avoids stress fatigue atscrew fixings
Sika® Membran SystemHighly elastic vapour barriersystem for use in glasscurtain walling or infillwindows.Polyurethane elastic adhesivesallow re-positioning ofmembrane.Internal and external gradesfor insulated cavities.
Sikaflex®
Range of one componentpolyurethane basedconstruction joint sealantswith classifications to ISO11600 selection criteria
Sikafloor®
Range of high performance flooring systems for the mostdemanding industrial andcommercial installations
Cer
tified Quality System
ISO
9001/ EN 29001
Cer
tifie
d Management System
ISO 14001
Environmental
Protection
Quality
Production
Sika LimitedWatchmead, Welwyn Garden City,
Herts, AL7 1BQ Fax: 01707 329129
Telephone: 01707 394444e-mail: [email protected]
Cons
truct
ion
The information, and, in particular, the recommendations relating to the application and end-use of Sika products, are given in goodfaith based on Sika’s current knowledge and experience of the products when properly stored, handled and applied under normalconditions. In practice, the differences in materials, substrates and actual site conditions are such that no warranty in respect ofmerchantability or of fitness for a particular purpose, nor any liability arising out of any legal relationship whatsoever, can be inferredeither from this information, or from any written recommendations, or from any other advice offered. The proprietary rights of thirdparties must be observed. All orders are accepted subject to our current terms of sale and delivery. Users should always refer tothe most recent issue of the Technical Data Sheet for the product concerned, copies of which will be supplied on request.
Sika Ireland LimitedUnit 3 Ballymun Industrial Estate,
Dublin 11, IrelandFax: (01) 8620707
Telephone: (01) 8620709e-mail: [email protected] W
P.11
.02.
5K
NBSSPECIFICATION
NBSSPECIFICATION
NBSSPECIFICATION
Technology and Conceptsfor Watertight Concrete Construction
Solutions with Sika® Systems
33
The Components of Watertight Concret
The Concrete TechnologyDense impermeable concrete is essential.Watertight Concrete is produced by minimizingcapillary volume and permeability.
In future even greater controlson water quality and increasingregulations for the protectionof ground water, will requirethe construction of many morewatertight concrete structures.These requirements will affectall industries.In the water industry, forinstance this can be for bothfresh water supply and wastewater treatment facilities. All of this is in addition to therapidly increasing need forresidential and commercialbuildings to optimize landusage, with habitable deepbasements. Many newdevelopments are also inareas with rising groundwaterlevels such as inner cities,where water is no longerabstracted by local industry.
▲ Keeping Water In▲ Reservoirs and
Water Tanks▲ Waste Water
Treatment Plants▲ Dams▲ Secondary Containment Bunds▲ Swimming Pools▲ Sewers and Pipelines
▲ Keeping Water Out ▲ Basements▲ Parking Garages▲ Underground Stations and Subways▲ Utility Vaults▲ Marine Structures▲ Tunnels
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In ▲
The JointinConstruction and msealed.
A watertight concrete structure can be designed to“keep water in” – or – to “keep water out” – or – both.
4
e Construction
The PenetrationsPipe entries, utility services, etc. always have topenetrate the watertight structure and these points must also be securely sealed.
The Additional ProtectionThere are often additional demands such asmechanical resistance, chemical resistance,crack bridging, etc. which must beaccommodated by compatible additionaltreatments.
▲ Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out
g Technologymovement joints must be securely
55
The Requirements for Watertight Conc
In The Design Office:Specification by Usage (To BS 8102)
Typical Structure &RequirementsBasic utility.Underground Parking Garages. Plant rooms (excluding electrical equipment).
BS 8102:Grade 1: Slight seepage and damp patches are tolerable.
1
2
Grade
Grade
Sika® Solutions
Watertight concrete system:Water reducing admixture
- Sikament®
Capillary blocking system:- Sika®-1
Joint sealing system:- SikaSwell® Systems or- Traditional Waterbars
Residential and CommercialBasementsWorkshops, plant rooms and retail storage where a drier environment is required.
BS 8102:Grade 2: No water penetration but moisture vapour tolerable.
Watertight concrete system:High range water reducing admixtures
- Sikament®
Capillary blocking system:- Sika®-1
Joint sealing system:- SikaSwell® Systems- Sikadur®-Combiflex®
- Sika® Injectoflex-System
Ventilated residential and working areas including offices, restaurantsand leisure facilities.
BS 8102:Grade 3: A dry environment isrequired and water penetration isintolerable.
Watertight concrete system:High range water reducing admixture
- Sikament®
Capillary blocking system:- Sika®-1
Joint sealing system:- Sikadur®-Combiflex®
- SikaSwell® Systems-- Sika® Injectoflex-System
Use for archives, store houses of sensitive material, computer rooms.
BS 8102:Grade 4: A totally dry environment.Vapour impermeable.
3Grade
Grade
4
Additional performance requirements
▲ Hygenic and easy to clean▲ Approved for contact with
drinking water▲ Crack bridging▲ Chemically resistant▲ De-icing salt resistant▲ Waste water resistant
Sika® Solutions
- Sika® Watertight concrete and jointsealing systems as Grade 3 and 4above. Plus:
- EpoCem® systems, Sikagard®
coatings or SikaTop® cementitiousrenderings as the additional protectivelayers depending on the specificrequirements.
Watertight concrete system:High range water reducing admixture
- Sikament®
Capillary blocking system:- Sika®-1
Joint sealing system:- Sikadur®-Combiflex®
- SikaSwell® Systems®
- Sika® Injectoflex-SystemCoating system:
- EpoCem® and Sikagard®
as internal vapour-proof and/or protective coatings.
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In ▲
66
rete Construction
▲ Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out
On The Construction Site:Good Concreting Practice
▲ The Formwork▲ In watertight construction the design and
fixing of steel reinforcement is particularlyimportant to absolutely minimise potentialproblems such as:-
▲ Crack behavior due to insufficient steel reinforcement.
▲ Insufficient concrete cover, which can lead to
increased plastic shrinkage during construction and
an accelerated rate of corrosion damage in service.
▲ Obstruction of jointing systems by congested
reinforcement or by changing the designed position
and/or correct installation of the joint.
▲ Congestion – leading to inadequate concrete
compaction producing honeycombing or voids.
▲ The Steel Reinforcement
Curing of concrete reduces the porosityand pore size in the concrete surface layerof 20 to 50mm, and produces the necessarynon continuous pore system. Curing is alsoimportant in reducing the risk of surfacecrazing and plastic shrinkage cracking.For watertight concrete complete andcorrect curing is essential, e.g. by coveringimmediately with damp hessian and plasticsheeting and by keeping formwork inplace for extended periods. Also note:-
▲ Liquid applied curing membranes are notnormally the most effective for watertightconstruction.
▲ Curing must always be carried out for theabsolute minimum time as generallyrecommended by BS 8110 and protected fromevaporation for at least 3 days in all cases,more when exposed to aggressive conditions.
▲ Temperature fluctuations must be minimized.
▲The Curing Minimum Curing Time(Full 24 Hour Days)
at 5-10ºC at 20ºC at 30ºC
-maintain protectionfor minimum 3 days
5 4 3
7 3 3
Ambient Conditions
GoodRH>80%Protected from Sun & Wind
AverageIntermediate RH>50-80%Partially Protected from Sun & Wind
PoorRH<50%Not Protected from Sun & Wind
Watertight Concrete Curing Times(Adapted from BS 8110: Portland and Sulphate Resisting Cement.)
Formwork joints shall be sufficiently tight to prevent leakage of liquid. Formwork shall impart a smooth finish to the resulting concrete surface:-
▲ To fulfil this requirement use Mould Release Agents
like Separol®.
▲ Loosening, striking and removal of formwork should
be done without shock or vibration.
▲ Minimum recommended striking times must be
adhered to.
▲ Extended waiting periods can be beneficial to curing.
▲ Typical Mix DesignMinimum Cementitious Content :- 350 kg/m3
Maximum Water / Cement Ratio:- 0.45Admixtures : Sika®-1 7 Litres/m3
Sikament®-10 @ 0.8 -1.2% by weight of Concrete
77
The Technology of Watertight Concrete
Reduction of Concrete Permeability with Sikament®
Crack-free concrete can be said to be “watertight” if the volume of water penetrating it is lowerthan the minimum vaporisable volume of water on the opposite side.
Water Absorption under Pressure (i.e According to DIN-Stand.1048(mod.)/ENV 206)
▲ Water absorption in g/m2 x h▲ Measurement: Max. water
penetration in mm after 24 hours with a water pressure of 5 bar.
Test of Water Permeability through ConcreteW
ater
Red
uctio
n %
25
30
20
15
10
5
00.0 0.4 0.6 0.8 1.0 1.2 1.4
Dosage in % by wgt of cement
Effect of Sikament®Dosage on Water Reduction
1.60.2
0.2 0.3 0.4 0.5 0.6 0.7 0.80
Water:Cement Ratio
Effect of Water Cement Ratio on Permeability
Co
eff
icie
nt
of
Perm
eab
ility
-10
m/s
100
120
140
80
60
40
20
Reference Concrete
Concrete withSikament + Sika -1
wat
er p
enet
ratio
n m
m
70
60
50
40
30
20
10
0
® ®
Dep
th o
f Pen
etra
tion
mm
35
40
45
50
30
20
10
15
25
05
10 4 7 28Time in days at 10 bar
60
Effect of Sikament® and Sika®-1on Watertightness
No Flow
Concrete- with Sikament and Sika 1
Reference Concrete
Water Penetration
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In ▲
N/m
m2
35
707580
404550556065
30
20
1015
25
05
70 14 28Age in days
Effect of Sikament®
on Strength Gain
Sikament concrete
Control concrete
Note: The ISAT - Initial SurfaceAbsorption Test is not applicable with the Sika® system for watertightconcrete, as watertightness increases under pressure followinglimited initial surface absorption.
88
Sika® incorporates Sika®-1 containing complexcolloidal silicates with extremely high reactivity. Thesefine particles improve crystallization of the cementhydration products, resulting in further blocking of the pores and therefore formation of a dense cementmatrix. These pore blocking materials also line theinside of capillary pores forming a barrier, whichstrongly reduces the ability of water to penetrate.
If water does penetrate under pressure, swelling action of the silicate hydrates formed in the matrixtakes place. This then effectively blocks the pores – even at 10 bar or 100 metre head of water pressure.
Sika® Watertight Concrete therefore uses the dual technologies of Sika®-1 andSikament® synchronised to produce theoptimum performance.
Reduction of Concrete Permeability with Sika®-1Integral Blocking of Capillary Pores by using a Poreblocking Waterproofer - Sika®-1
▲ Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out
▲ Standard control concrete provides more capillarieswhich can lead to failure of the concrete sample as thisincreased capillary structure provides a migratory pathfor water particularly when under pressure.
▲ Sika® Watertight concrete contains fewer capillariesreducing the potential migratory route for water. Shouldwater attempt to pass through, the colloidal silicate Sika®-1 swells and blocks the path. The pore blocker isdistributed throughout the concrete matrix. This dual effect ensures a watertight concrete is achieved.
Concrete Sample (Control)
Concrete Sample (Sika® Watertight)
Production
WithoutSika® Watertight System
WithSika® Watertight System
99
Principle 2Internal Surface Applied
The Different Principles and Systemsfor Achieving Watertight Joints
Principle 1External Surface Applied
2. Sikadur®-Combiflex® System
Expansion or Movement Joint
Sikadur®-Combiflex® System
Expansion orMovement Joint
Construction or Daywork Joint
Construction or Daywork Joint
1. Traditional PVC Waterstop®
Water infiltration is stopped everywhere on the external surface of the structure.Ideal for use where:▲ The reinforcement system does not allow integral
waterproofing▲ Direct water pressure cannot cause seal damage
(e.g. by abrasion)▲ Corrosive water outside the structure has
to be precluded (e.g. sulphate water)
Water infiltration is stopped on the inside of the structure.Ideal for use where:▲ Connecting to existing building▲ Water retaining structures (e.g. water tanks)▲ Repair work is necessary without external access▲ Sealing leaks
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In ▲
Two Systems are Available
Suitable for bothConstructionand ExpansionJoints.
Suitable Gradesfor Constructionand ExpansionJoints.
Suitable for bothConstruction andExpansionJoints.
1010
Principle 3 Integral Cast in Situ
System 2: Integral Re-Injectable and Hydrophillic Hose
- Sika® Injectoflex System
System 1: Traditional PVC Waterstop- Integral Waterbar
System 3: Gun Applied Hydrophillic Sealant- SikaSwell®-S
System 4: Preformed Hydrophillic Strips- SikaSwell®-P
Expansion or Movement Joint
Construction or Daywork Joint
Water is stopped inside of thestructure.Ideal for use where:▲ External waterproofing is undesirable for
aesthetic reasons▲ Subsequent application of the seal is not
possible for time or technical reasons▲ The seal has to be protected
from abrasion
▲ Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out
Four Systems are Available
Suitable Grades forConstruction andExpansion Joints
Suitable forConstruction Joints
Suitable forConstruction Joints
Suitable forConstruction Joints
The Technology of Watertight Jointing
Integral appliedTraditional Waterstop fixed integrallyin the concrete.
For construction joints
Advantages▲ Ribbed flanges for anchoring
and sealing.▲ Increased distance for water
penetration.▲ No risk due to insufficient surface
preparation.▲ Application independent of the
weather.
Limitations▲ Precise location and fixing is
necessary.▲ Complicated formwork and
concreting work is required.▲ Leaks are difficult to locate and
to repair.▲ Connections between new
and existing structures are notpossible.
Sealing of Expansion and Construction Jointswith Traditional WaterstopsFlexible PVC waterstop sections for the sealing of construction and movement joints.
External surface appliedApplied with the external face on theblinding concrete or form work. For construction joints
For movement joints
For movement joints
How it worksIncreasing the length of the path for water penetration.
Sealing of Expansion- and Construction Joints aswell as Cracks with Sikadur®-Combiflex® SystemHigh performance joint sealing system consisting of Sika® Hypalon sealing strip and Sikadur®
epoxy adhesive.
Advantages
▲ Adaptable to the constructionprogram.
▲ Easy to adjust to complicatedconstruction details.
▲ Simultaneous additionalcrack sealing possible.
▲ Damage or leaks can be repaired externally or internally.
▲ Easy to control the applicationbecause it is visible.
▲ Easy to repair damage.
Limitations
▲ Application more difficult underextreme conditions (cold, rain).
▲ Additional mechanical protectionmay be required from backfilling.
Available Systems
A range of different widths and thicknesses are available.
▲ Combiflex® strip thickness of 1mmFor low mechanical demand.
▲ Combiflex® strip thickness of 2mmFor higher mechanical demand.
▲ Combiflex® strip widthsStandard 15 and 20cm, wider on request.
▲ Sikadur®-Combiflex® adhesiveHigh performance epoxy adhesive.
Function
Increasing the path of water penetration and fully bonded tothe concrete preventing wateringress.
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In ▲1111
1212
Systems
Sealing of Construction Joints withSika® Injectoflex System
Sika® Injectoflex Hoses have three hydrophillic surfaces, which swell to seal the joint. In addition the system can be injected and re-injected in case of future movement/settlement etc.
Advantages▲ Accurate waterstopping by 2 methods.▲ Easy to install. ▲ Adaptable to any form of structure and program.▲ No additional fixing of formwork or steel
reinforcement is required.▲ The major advantage of Sika® Injectoflex is that
this system can be injected or reinjected at anytime in the future to seal the joint - due tomovement, damage, excessive loading etc.
Limitations▲ Not suitable for movement joints
FunctionThe sealing process occurs in two ways.
Method 1Swelling caused by water exposure. Sika® Injectoflex has hydrophillic (water absorbing)swelling profiles on each of its 3 sides. Penetratingwater “activates” the three exterior surfaces of theSika® Injectoflex Hose, which swell to seal the joint.
Method 2If necessary, in the second method, the system can be injected with Sika InjectoCem® (micro cement) or with Sika® Injection® (resin), which again fillsand seals the joint.
Rubber valves
Injection portsHydrophillic Swelling strips
Afterwater exposure
Before water exposure
In case of future leakage the hose can simply be reinjected.
▲ Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out
SikaSwell®-S can also be used for fixing of Sika®
Injectoflex® or SikaSwell® profiles.
Advantages▲ Easy, simple application▲ No additional fixing is required▲ No jointing is required▲ Can be easily adapted to very irregular surfaces
Limitations▲ Not suitable for expansion joints▲ Dependent on weather conditions (moisture sensitive
in application)▲ Although SikaSwell®-S has been tested up to 3.5 bar,
it is not normally recommended for joints in structureswith requirements greater than Grade 1 to BS 8102
▲ Not suitable for rapidly rising water as immediate sealingis not possible due to the time required for SikaSwell®-Sto expand.
SikaSwell®-S Sealants
SikaSwell® S is a gun applied water swellingsealant for construction joints and penetrations.
The Technology of Watertight JointingSystems (continued)
SikaSwell®-P Profiles
Sealing Profiles which swell in contact with water to seal construction joints .
Advantages▲ Swells in contact with water▲ Permanently water resistant, no leaching▲ Elastic▲ Easy, simple application▲ With protective coating to avoid premature swelling
Limitations
▲ Not suitable for expansion joints▲ Cannot be injected▲ Not suitable for rapidly rising ground water as
immediate sealing is not possible due to the timerequired for the profile to swell.
▲ Although SikaSwell®-P has been tested to 3.5 bar,it is not normally recommended for joints instructures with requirements greater than Grade 1 toBS 8102.
Sealing of Construction Joints with SikaSwell® Sealants and Profiles
Before water exposure After water exposure
FunctionAfter contact with water the exterior surfaces of the profiles swell. The resultant pressure increasesthe path of water penetration.
Before water exposure After water exposure
FunctionSikaSwell®-S is a gun applied swelling profilewhich expands when it is exposed to water. The resultant pressure increases the path for waterpenetration, and effectively seals the joint.
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In ▲1313
SikaSwell®-P
SikaSwell®-S
Design of Penetrations andTies to Ensure Watertightness
The PenetrationsWith any watertight construction, continuity of the sealing system is essential for success.When pipe entries, utility services and conduits are placed in or through a structure, thewatertightness of the structure is at risk unless securely sealed.
A further solution for pipe entries, utility services etc. thatcan be applied after the concrete work is the well provenSikadur®-Combiflex® System.
Pipe EntriesSika® has developed simple and innovativesystems for these applications using hydrophillicSikaSwell® Sealants and Profiles.
SikaSwell®-S orSikaSwell®-P
Sikadur®-Combiflex®
Formwork – Ties
In watertight construction the formwork ties have to be securely sealed.
Sikadur®-31 Epoxy mortar is the ideal solution.
Note: When complex or multiple ties exist the complete Sikadur®-Combiflex® Systemcan be recommended if more practical on site.
Plug
Sikadur®-31
▲ Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out 14
Infill modifiedconcrete orSika® Grout
SikaSwell®-S
SikaSwell®-P
A Selection of Case Studies
Watertightundergroundparking and utilityservices for luxuryapartmentsBS 8102Grades 1 and 2
RequirementDevelopment of luxury apartments with deep basement for utility servicesand quality car parking in an area with a high water table.
Sika® SolutionSika® Watertight Concrete with Sika®-1 and Sikament® for basementwalls and floor slab construction. Construction joints and penetrationssealed with Sikadur®-31 adhesive and SikaSwell® profiles.
Watertightsphericalsewagetreatmenttank ofprecast highdurabilityconcrete.
Project25 metre circumference Sphereactor,Anglian Water Innovation, Cambridge.
RequirementSpherical Precast Concrete Tankfor the innovative ‘Kaldness’Sewage Treatment Process.Highquality watertight and durableprecast concrete sections to becompletely sealed internally andprotected externally fromaggressive gases.
Sika® SolutionSikament® in the precast concretewith Sikadur-Combiflex® surfaceapplied internal jointing system.Sikagard® 550W® highperformance, crack bridgingprotective coating.
UnitedKingdom
UnitedKingdom
ProjectBrook House, Park Lane, London.
▲ Keeping Water In ▲ Keeping Water Out ▲ Keeping Water In ▲1515
16
Sika Solution150 m run of 7 m high basement wall to becast in Sika Watertight Concrete with a1.5 m thick concrete raft and floor slab.Above ground exposed concrete protectedagainst carbonation and chloride ingresswith Sikagard 680S from new.
Requirements8 storey extension to Guys Hospital with one storey completely below groundlevel and 1.5m below the rising water table. Completely watertight facilitieswere essential for the sensitive work of the hospital - some designated to BS8102 Grade 4 requiring vapour-tight construction for a totally dry environment
Sika SolutionSika watertight concrete and Sikaflex sealants used throughout . Sikadur andSikagard coatings onto the new concrete to create the important totally dryareas.
Watertightdeephabitableofficebasement toBS 8102Grade 3
ProjectNew Office Building, 25 Victoria Street,London.
Vapourtighttotally dryundergroundhospitalbasement toBS 8102Grade 4
UnitedKingdom
UnitedKingdom
Requirement8 storey office and retail building with a fully habitable deep basement on anunusually shaped site subject to continually high water pressure from theground water.
ProjectPhilip Harris House, Guys Hospital,London.
Sika Solution150 m run of 7 m high basementwall to be cast in Sika® WatertightConcrete with Sika®-1 andSikament® in a 1.5 m thick concreteraft and floor slab. Above groundexposed concrete protected againstcarbonation and chloride ingresswith Sikagard®-680S.
Requirements8 storey extension to Guys Hospital with one storey completely belowground level and 1.5m below the rising water table. Completely watertightfacilities were essential for the sensitive work of the hospital - somedesignated to BS 8102 Grade 4 requiring vapour-tight construction for a totally dry environment.
Sika SolutionSika® Watertight concrete with Sika®-1, Sikament® and Sikaflex®
sealants used throughout. Sikadur® and Sikagard® coatings were appliedonto the new concrete to create the important totally dry areas.
Watertight deep habitableoffice basementto BS 8102Grade 3
ProjectNew Office Building, 25 Victoria Street, London.
Vapourtighttotally dryundergroundhospitalbasement toBS 8102Grade 4
UnitedKingdom
UnitedKingdom
RequirementMulti storey office and retail building with a fully habitable deep basement on an unusually shaped site subject to continually high water pressure from the ground water.
ProjectPhilip Harris House, Guys Hospital, London.
▲ Keeping Water Out ▲ Keeping Water In ▲ Keeping Water Out
Additional Specialist and Designer Concretes from Sika®:-
Corrosion Resistant Concrete
Achieved by using Sika’s unique migratorycorrosion inhibitor-Sika® FerroGard®
Foam Concrete
Foaming concrete systems, ideal for void fillingor trench reinstatement - Sikaporo®
Underwater Concrete
Designed to resist washout and provide highstrength concrete - Sika® UCS
Pumpable Concrete
Made easy with the liquid concretestabiliser - Sikapump® and Sikamix®
Chemically Resistant and High Strength Concrete
Utilising Sika’s power pack with silica fume - Sikacrete®
High Early Strength Concrete
Utilising Sika’s RapidTechnology
Self Compacting Concrete
Vibration free concrete for Precast and Readymix applications - using
Sika®Viscocrete® technology
Accelerated Shotcrete
Accelerators and rebound reducers for shotcrete including the new alkali free accelerator - Sigunite® 49AF
Technology and Concepts for Watertight Concrete Construction
The information and, in particular, the recommendations relating to the application and end-use of Sika products, are given in good faith based on Sika’s current knowledge andexperience of the products when properly stored, handled and applied under normal conditions. In practice, the differences in materials, substrates and actual site conditions are suchthat no warranty in respect of merchantability or of fitness for a particular purpose, nor any liability arising out of any legal relationship whatsoever, can be inferred either from thisinformation, or from any written recommendations, or from any other advice offered. The proprietary rights of third parties must be observed. All orders are accepted subject to ourcurrent terms of sale and delivery. Users should always refer to the most recent issue of the Technical Data Sheet for the product concerned, copies of which will be supplied on request.
Sika LimitedWatchmead, Welwyn Garden City,
Herts, AL7 1BQ Fax: 01707 329129
Telephone: 01707 394444e-mail: [email protected]
Sika Ireland LimitedUnit 3 Ballymun Industrial Estate,
Dublin 11, IrelandFax: (01) 8620707
Telephone: (01) 8620709e-mail: [email protected]
Cer
tifie
d Management System
ISO 14001
Environmental
Protection
Cer
tified Quality System
ISO
9001/ EN 29001
Quality
Production
WP.
9.01
.5K