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Rak-43.3312 Repair Methods of Structures II

Rak-43.3312 Repair Methods of Structures II. Planning of Condition Survey and Repair Measures Group 19. Sanjay Sreekala Burak Erkan Ghaffar Khan. 12.02.2014. Petri Mutanen Kari Parila Kim Warma. Group Members. Agenda. Introduction Condition Survey Methods Condition of the Case

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Rak-43.3312 Repair Methods of Structures II

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  1. Rak-43.3312 Repair Methods of Structures II Planning of Condition Survey and Repair Measures Group 19 Sanjay Sreekala Burak Erkan Ghaffar Khan 12.02.2014 Petri Mutanen Kari Parila Kim Warma Group Members

  2. Agenda Introduction Condition Survey Methods Condition of the Case Further Research Needed Proposed Principled Repair Methods and Estimated Remaining Service Life Discussion Conclusion

  3. I. IntroductionGeneral Location: Töölö, Helsinki Residential building • 7 storeys • 52 rental apartments Sheltered location and light traffic Technical documents not available • No exact data of the condition • No previous condition surveys • More theoretic point of view HUT research team visit in 2003-2004 • list of anticipated deterioration mechanisms

  4. I. IntroductionFaçade properties Rough cast made on brickwork Light brown color Two facades • Main façade facing south-west • Courtyard façade facing north-east Balconies on six storeys • Concrete slab with precast concrete railings Major façade renovation made in 1997 • External rendering with an insulation layer

  5. II. Condition Survey Methods Visual evaluation and assessment • Frost damage • Brick spalling • Peeling of external rendering • Cracking of concrete • Pipe corrosion

  6. II. Condition Survey Methods Formation of organic moss • Mechanical damage External wall insulation rendering Visual assessment data • Considerable moss growth on façade • Cracking and contamination in balconies

  7. II. Condition Survey Methods Frost deterioration of external rendering Joint degradation and pipe corrosion Evidence of carbonation and structural steel corrosion in the past Crack development in footing broken tiles at the building entrance

  8. II. Condition Survey Methods Overall performance of the building satisfactory Structural integrity not affected Minor repairs needed to ensure full efficiency

  9. III. Condition of the Case More than 50 years old Condition is relatively good Better than in many younger buildings No special conservation status Major repairs possible The current condition can be easily maintained The condition can be improved by new repairs

  10. III. Condition of the Case Small signs of deterioration visible in several parts of the facade None of them is overwhelmingly severe But they will become worse is nothing is done Before the last renovation new insulation was needed. Also the rendering needed repair Now the mortar is in satisfactory condition

  11. III. Condition of the Case There are many minor and some major cracks Evidence of moisture, especially near he windows Mainly aesthetic problem, but in some spots more severe, mold? Contamination is generally light Footing has some cracks, level is light Mechanical damage

  12. III. Condition of the Case Floor tiles cracked Peeling off has started, average level Degradation of joints, not always visible Balconies are in worst condition, even after last renovation Moisture and joints are clearly deteriorated Balcony slabs are the biggest concern The Souts-West facade is more damaged

  13. III. Condition of the Case Older data revealed structural deterioration: • Carbonation • Reinforcement steel corrosion • Frost damage • Some parts of the structure do not need attention, e.g. the bricks More infromation should be gathered before the next repair

  14. IV. Further Research Needed Investigating the previous condition surveys • Research done according to visual inspection, provided Excel sheet and theorotical knowledge No visual dimensional defects • Possible bowing of rendering in higher elavations Terrestial laser scanning Existing defects observed during visual inspection • Frost Damage, Peeling of ext. Rendering, Cracking of Concrete and Moist Thin Section Analysis Carbonation and Chloride levels

  15. IV. Further Research Needed Tensile Strenght Testing Bonding Condition of Facade • Nothing seen durin the visual inspection Hammering Technique Asbestos Analysis • Since no backgroung information available, it is still a question • Although last renovation done 17 years ago. It Shall be checked in order to be on safe side

  16. V. Proposed Principled Repair Methods and Estimated Remaining Service Life Applying new coating Elastic expansion joint

  17. V. Proposed Principled Repair Methods and Estimated Remaining Service Life Down pipes and nearby structures Base plate

  18. V. Proposed Principled Repair Methods and Estimated Remaining Service Life Mortar patching for footing and applying new coating Replacement or surface treatment of wooden material

  19. V. Proposed Principled Repair Methods and Estimated Remaining Service Life Option A • Low-cost repair method • Insecurity with the long-term efficiency • Relatively cheap and quickly done • Service life from 10 to 15 years.

  20. V. Proposed Principled Repair Methods and Estimated Remaining Service Life Material tests Removing deterioration factor Removing deteriorated mortar parts and applying mortar patching Refining old coating and appyling new coating.

  21. V. Proposed Principled Repair Methods and Estimated Remaining Service Life Option B • High costs • Long-term efficiency reliable. • Working and environment safety plans are needed. • Service life up to 30 years.

  22. V. Proposed Principled Repair Methods and Estimated Remaining Service Life Removing deterioration factor Demolition of old surface rendering Cleaning of the visible surface Strengthening of the under layer New surface rendering Coating of the rendering

  23. VI. Discussion Overall building in Satisfactory Condition. • Aesthetic Damages (frost damage, brick spalling, peeling of external rendering, cracking of concrete, pipe corrosion, mould, mechanical damages, discoloration etc) • Footing has cracks • Degradation of joints (needs attention) • Possible Carbonation and Steel Corrosion (previous survey)

  24. VI. Discussion No need for demolishing Building can survive without repairs for the time being (No desirable) Further research / survey needs to be conducted

  25. VII. Conclusions New Condition Survey should be conducted- This will determine future action Minor repairs needed Repairs done in 1997 needs to be checked Some critical areas needs detailed testing and possible counter measures

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