jeans express ltd. ralex industries lax lingerie...
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Jeans Express Ltd.Ralex IndustriesLax Lingerie Ltd
49/A, CDAs, Fauzdarhat, Heavy I/A, Sagarika Road, Pahartali(22.3588E, 91.7746N)
17 May 2014
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2
Observations
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Columns appear to be stressed to levels that require immediate review
Observations
4Observations
Testing confirmed Stone aggregate in ground floor columns.
• Columns indicated in red appear to be stressed to a degree that requires immediate review.
• Calculations indicate that other columns are also stressed in excess of design limits.
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Concrete water tank located on roof
Toilet Build up
• Raised toilet floors to gents toilets over 3 floors (300-400mm on top of concrete slab), and a concrete water tank located at roof level, contribute to columns being stressed to levels that require immediate review
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Cracking to top of floor slabs
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Diagonal cracking was observed on the top of the floor slab around perimeter columns where the floor finish had been removed.
Cracking visible in floor slab
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Design check required due to discrepancies between ‘as-built’ drawings and building
structure
Observations
9
Observations
Main Factory Building - Typical Floor Plan
Column orientation is incorrect
Stair position incorrect
Stair Ground to 1st floor only
Column orientation is changed
10
Observations
Cantilever observed
Main Factory Building - Typical Floor Plan
CantileverCantilever
Cantilever incorrectly indicated on drawings
11
Observations
“As-built” drawing – Additional bay indicated not constructed
No
t C
on
stru
cted
• Water tank indicated over stair core on drawings.
• Water tank is actually located on roof slab.
Permit Drawing
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Design check required for plinth loading in toilet areas to confirm flat slab load
capacity
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Toilet Build up
• Raised toilet floors to gents toilets over 3 floors.
• 300-400mm on top of concrete slab will exert load greater than that in the general factory area.
Design check required for plinth loading in toilet areas to confirm flat slab load capacity
14
Load management of storage loads
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Observations
Factory Building – 1st Floor Denim Rolls Factory Building – 2nd Floor
No Floor load management system in place
Factory Building – 2nd Floor Denim Stock
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Cracking at expansion joint
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No expansion joint formed in slab. Attempted crack repairs observed
Cracking observed in the exterior masonry panel that bridges expansion joint
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Priority Actions
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Problems Observed
1. Columns appear to be stressed to levels that require immediate review
2. Cracking to finishes on top of floor slabs3. Design check required due to discrepancies between ‘as-
built’ drawings and building structure – location of stairs, location and size of cantilevers, number of bays etc.
4. Design check required for plinth loading in toilet areas to confirm flat slab load capacity
5. Load management of storage loads6. Cracking at expansion joint
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Item No. Observation Recommended Action Plan Recommended Timeline
1Columns appear to be
stressed to levels that require immediate review
Reduce loading in area shown on drawing above to 1.5kPa at 2nd, 3rd and 4th floors, and to Zero at 1st, 5th and 6th floors.
Immediate - Now
2Columns appear to be
stressed to levels that require immediate review
In all other areas, limit load to 2kN/m2 at all levels. Immediate - Now
3Columns appear to be
stressed to levels that require immediate review
Empty water tank on roof. If this water tank is a fire water tank, ensure measures are taken to provide adequate water supply in the event of a fire.
Immediate - Now
4Columns appear to be
stressed to levels that require immediate review
Factory Engineer to review design, loads and columns stresses in area identified above.
Immediate - Now
5Columns appear to be
stressed to levels that require immediate review
Verify insitu concrete strengths (using min. 4 no. 100mm dia. cores) and existing reinforcement for all columns.
Immediate - Now
6Columns appear to be
stressed to levels that require immediate review
A Detail Engineering Assessment of Factory to be commenced, see attached Scope.
Immediate - Now
7Columns appear to be
stressed to levels that require immediate review
Produce and actively manage a loading plan for all floor plates within the factory giving consideration to floor capacity and column capacity. This should include a safe level to which any water tanks can be filled.
6-weeks
8Columns appear to be
stressed to levels that require immediate review
Detail Engineering Assessment to be completed 6-weeks
9Columns appear to be
stressed to levels that require immediate review
Continue to implement load management plan. 6-months
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This Schedule develops a minimum level of information, Analysis and testing expected as part of a Detail Engineering Assessment.The Building(s) have been visually assessed and it is deemed necessary that a detailed engineering assessment be carried out by a competent Engineering Team employed by the factory Owner. This Request should be read in conjunction with the BUET developed Tripartite Guideline document for Assessment of Structural Integrity of Existing RMG Factory Buildings in Bangladesh (Tripartite Document), the latest version of this document should be referenced. T his document also gives guidance on required competency of Engineering Team.
We expect that the following will be carried out:1. Development of Full Engineering As-Built Drawings showing Structure, loading, elements, dimensions , levels, foundations and framing on Plan,
Section and Elevational drawings .2. The Engineering team are to carry out supporting calculations with a model based design check to assess the safety and serviceability of the building
against loading as set out in BNBC-2006, Lower rate provisions can be applied in accordance with the Tripartite Guidelines following international engineering practice, justification for these lower rate provisions must be made.
3. A geotechnical Report describing ground conditions and commenting on foundation systems used/proposed.4. A report on Engineering tests carried out to justify material strengths and reinforcement content in all key elements studied.5. Detailed load plans shall be prepared for each level showing current and potential future loading with all key equipment items shown with associated
loads.6. The Engineering team will prepare an assessment report that covers the following:
• As-Built drawings including• Plans at each level calling up and dimensioning all structural components • Cross sectional drawings showing structural beams, slabs, floor to floor heights, roof build-ups and Basic design information of the
structure• Highlight any variation between As-built compared to the designed structure• Results of testing for strength and materials• Results of geotechnical assessment and testing/investigation• Details of loading, inputs and results of computer modelling• Commentary on adequacy/inadequacy of elements of the structure• Schedule of any required retrofitting required for safety or performance of Structure
Any proposals for Retrofitting to follow guidance developed in the Tripartite Document
Detail Engineering Assessment
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Item No. Observation Recommended Action Plan Recommended Timeline
10Cracking to finishes on top of
floor slabsSections of floor finish to be removed to investigate if cracks penetrate the building structure.
6-weeks
11Cracking to finishes on top of
floor slabsBuilding Engineer to carry out design check on floor slab to confirm that these cracks are non-structural.(refer to Item 1)
6-months
12Cracking to finishes on top of
floor slabsBuilding Engineer to monitor location of cracks and ensure that, where required, remedial works are carried out.
6-months
13
Design check required due to discrepancies
between ‘as built’ drawings and building structure
As part of Detail Engineering Assessment, Building Engineer to commence re-survey of as-built structure and update drawings including a verification of the location of stairs, column orientation and cantilevers.
Immediate - Now
14
Design check required due to discrepancies
between ‘as built’ drawings and building structure
Complete as-built survey and commence calculations for verification of flat slab structure.
6-weeks
15
Design check required due to discrepancies
between ‘as built’ drawings and building structure
Produce and actively manage a loading plan for all floors within the Building, giving consideration to floor capacity and column capacity. (Refer to Item 1)
6-weeks
16
Design check required due to discrepancies
between ‘as built’ drawings and building structure
Building Engineer to survey as constructed building and update drawings as required.
6-months
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Item No. Observation Recommended Action Plan Recommended Timeline
17
Design check required for plinth loading in toilet areas
to confirm flat slab load capacity
Extent of plinth loading within toilet areas to be surveyed and capacity of floor slab to be assessed as part of Detail Engineering Assessment (Refer to Item 1)
6-weeks
18Localised areas of high
loading
Produce and actively manage a loading plan for all floor plates within the Main Building giving consideration to floor capacity and column capacity.(Refer to Item 1 – Detail Engineering Assessment)
6-weeks
19Localised areas of high
loadingContinue to implement load management plan 6-months
20 Cracking at Expansion JointIntroduce permanent expansion joint by saw-cutting masonry panels and fill joint with an a flexible joint sealant.
6-months