Sikafloor®-263 SL
Sikafloor®-263 SL is a two part, multipurpose binder based on epoxy resin. Suitable for use in hot and climatic conditions.
- Highly fillable,
- Good chemical and mechanical resistance,
- Easy application,
- Liquid proof,
- Gloss finish,
- Slip resistant surface possible.
Usage
Sikafloor®-263 SL is used as:- Self-smoothing and broadcast systems for concrete and cement screeds with normal up to medium heavy wear e.g. storage and assembly halls, maintenance workshops, garages, loading ramps etc.
- The broadcast system is recommended for multi-storey and underground car parks, maintenance hangars and for wet process areas, e.g. beverage and food industry
Advantages
- Highly fillable,
- Good chemical and mechanical resistance,
- Easy application,
- Liquid proof,
- Gloss finish,
- Slip resistant surface possible.
Packaging
Part A | 15.8 kg containers |
Part B | 4.2 kg containers |
Part A+B | 20 kg ready to mix units |
Colour
Resin - part A: | coloured, liquid |
Hardener - part B | transparent, liquid |
RAL 1017, 6010, 7032, 7035, 7037, 7045
Other colors on request.
Under direct sun light there may be some discoloration & colour variation; this has no influence on the function and performance of the coating.
Product Details
SUSTAINABILITY
Conformity with LEED v2009 IEQc 4.2: Low-Emitting Materials - Paints and Coatings
CERTIFICATES AND TEST REPORTS
- Particle emission certificate Sikafloor®-263 SL CSM Statement of Qualification – ISO 14644-1, class 5– Report No. SI 0904-480 and GMP class A, Report No. SI 1008-533.
- Outgassing emission certificate Sikafloor®-263 SL CSM Statement of Qualification – ISO 14644-8, class 6,5 - Report No. SI 0904-480.
- Good biological Resistance in accordance with ISO 846, CSM Report No. 1008-533
- Fire classification in accordance with EN 13501-1, Report-No. 2007-B-0181/14, MPA Dresden, Germany, February 2007.
- Synthetic resin screed material according to EN 13813:2002.
- Coating for surface protection of concrete according to EN 1504-2:2004.
- Wear resistance, bond, compressive and flexural stregth tested according to EN 13892:2003, certified by INCD URBAN-INCERC
Composition
Epoxy
Shelf life
24 months from date of production
Storage conditions
The product must be stored in original, unopened and undamaged sealed packaging in dry conditions at temperatures between +5°C and +30°C.
Density
1.52-1.62
Solid content by mass
~100 %
Solid content by volume
~100 %
Shore D Hardness
~76 (7 days / +23 °C) | (DIN 53 505) |
Abrasion resistance
~8.......... AR0.5 (AR≤50μm) Test conditions: temperature of 23.3°C and relative humidity of 48.4% | SR EN 13892-4:2003 |
Compressive strength
~44.6 N/mm² Test conditions: temperature of 25.3°C and relative humidity of 51% (Sikafloor®-263 SL mixed with quartz sand (0.1-0.4) mm) | SR EN 13892-2:2003 |
Flexural-strength
~26.9 N/mm² Test conditions: temperature of 25.3°C and relative humidity of 51% (Sikafloor®-263 SL mixed with quartz sand (0.1-0.4) mm) | SR EN 13892-2:2003 |
Tensile adhesion strength
~3.3 N/mm² (failure in concrete).......... Class B2.0 Test conditions: temperature of 25°C and relative humidity of 51% | SR EN 13813:2003 |
Temperature resistance
Exposure* | Dry heat |
Permanent | +50 °C |
Short-term max. 7 d | +80 °C |
Short-term max. 12 h | +100 °C |
Short-term moist/wet heat* up to +80°C where exposure is only occasional (steam cleaning etc.).
*No simultaneous chemical and mechanical exposure and only in combination with Sikafloor® systems as a broadcast system with approx. 3 - 4 mm thickness.
Application
Mixing ratio
Part A : part B = 79 : 21 (by weight)
Ambient air temperature
+10 °C min. / +30 °C max.
Relative air humidity
80 % r.h. max.
Dew point
Beware of condensation!
The substrate and uncured floor must be at least 3 °C above dew point to reduce the risk of condensation or blooming on the floor finish.
Note: Low temperatures and high humidity conditions increase the probability of blooming.
Substrate temperature
+10 °C min. / +30 °C max.
Substrate moisture content
< 4 % pbw moisture content.
Test method: Sika®-Tramex meter, CM-measurement or Oven-dry-method.
No rising moisture according to ASTM (Polyethylene-sheet).
Pot Life
Temperature | Time |
+10 °C | ~ 60 minutes |
+20 °C | ~ 30 minutes |
+30 °C | ~ 15 minutes |
Curing time
Before overcoating Sikafloor®-263 SL allow:
Substrate temperature | Minimum | Maximum |
+10 °C | 30 hours | 3 days |
+20 °C | 24 hours | 2 days |
+30 °C | 16 hours | 1 day |
Times are approximate and will be affected by changing ambient conditions particularly temperature and relative humidity.
Applied product ready for use
Temperature | Foot traffic | Light traffic | Full cure |
+10°C | ~ 72 hours | ~ 6 days | ~ 10 days |
+20°C | ~ 24 hours | ~ 4 days | ~ 7 days |
+30°C | ~ 18 hours | ~ 2 days | ~ 5 days |
Note: Times are approximate and will be affected by changing ambient conditions.
Consumption
Coating System | Product | Consumption |
Priming | Sikafloor®-161 | 1–2 × 0.35–0.55 kg/m² |
Levelling (optional) | Sikafloor®-161 levelling mortar | Refer PDS of Sikafloor®-161 |
Self-smoothing wearing course (Film thickness ~1.0mm) | 1 pbw Sikafloor®-263 SL + 0.4 pbw Sikadur®-504 | 1.5 kg/m² mixture (1.0 kg/m² binder + 0.5 kg/m² filler) |
Self-smoothing wearing course (Film thickness ~1.5mm–3.0mm) | 1 pbw Sikafloor®-263 SL + 1 pbw Sikadur®-504 | 1.9 kg/m² mixture per mm layer thickness (0.95 kg/m² binder + 0.95 kg/m² filler) |
Self-smoothing wearing course (Film thickness ~5.0mm) | 1 pbw Sikafloor®-263 SL + 1.8 pbw Sikadur®-506 | 10.0 kg/m² mixture (3.6 kg/m² binder + 6.4 kg/m² Sikadur®-506) |
Broadcast system (Film thickness ~4.0mm) | 1 pbw Sikafloor®-263 SL + 1.2 pbw Sikadur®-504 | 2.0 kg/m² binder + 2.4 kg/m² filler |
+ broadcasting Sikadur®-507 | ~ 6.0 kg/m² | |
+ seal coat Sikafloor®-264 | ~ 0.3–0.7 kg/m² |
Note: These figures are theoretical and do not allow for any additional material required due to surface porosity, surface profile, variations in level or wastage etc.
MIXING
Prior to mixing, stir part A mechanically. When all of part B has been added to part A, mix continuously for 3 minutes until a uniform mix has been achieved. When parts A and B have been mixed, add the quartz sand and if required the Extender T and mix for a further 2 minutes until a uniform mix has been achieved. To ensure thorough mixing pour materials into another container and mix again to achieve a consistent mix. Over mixing must be avoided to minimise air entrainment.
Mixing Tools
Sikafloor®-263 SL must be thoroughly mixed using a low speed electric stirrer (300 - 400 rpm) or other suitable equipment. For the preparation of mortars use a forced action mixer of rotating pan, paddle or trough type. Free fall mixers should not be used.
APPLICATION
Prior to application, confirm substrate moisture content, relative air humidity and dew point. If > 4 % pbw moisture content, Sikafloor® EpoCem® may be applied as a T.M.B. (temporary moisture barrier) system.
Primer:
Make sure that a continuous, pore free coat covers the substrate. If necessary, apply two priming coats. Apply Sikafloor®-156/-161/-160 by brush, roller or squeegee.
Preferred application is by using a squeegee and then backrolling crosswise.
Levelling:
Rough surfaces need to be levelled first. Therefore use e.g. Sikafloor®-156/-161/-160 levelling mortar (see PDS).
Wearing course smooth:
Sikafloor®-263 SL is poured, spread evenly by means of a serrated trowel.
After spreading the material evenly, turn the serrated trowel and smooth the surface in order to achieve an aesthetically higher grade of finish.
Roll immediately in two directions with a spiked roller to ensure even thickness.
Broadcast system:
Sikafloor®-263 SL is poured, spread evenly by means of a serrated trowel.
Then, level and remove any entrapped air with a spiked roller and after about 15 minutes (at +20 °C) but before 30 minutes (at +20 °C), broadcast with quartz sand, at first lightly and then to excess.
Seal coat:
Sikafloor®-264 as seal coat can be applied by short piled roller (crosswise).
CLEANING OF EQUIPMENT
Clean all tools and application equipment with Thinner C immediately after use. Hardened and/or cured material can only be removed mechanically.