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7/28/2019 Flat Slab Stahlton
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Flat Slab
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Contents
2www.stahlton.co.nz
Flat Slab is ideal for short span floors which are
subjected to uniformly distributed loads, and is used
extensively in residential buildings as well as incertain areas of commercial buildings. Flat Slab can
also be used for cantilever balconies as permanent
formwork. Flat Slab is manufactured using a wet
pour process, poured onto a long heated steel bed.
This manufacturing process allows the product to be
poured to any achievable design length and shape,
making Flat Slab versatile and flexible to use on
building sites.
Introduction & Contents
Architects
General1.0 Acoustic Rating1.1 Durability1.2 Thermal Rating1.3 Fire Rating
Consulting Engineers2.0 Loadings2.1 End Seating2.2 Topping2.3 Design Weight Including Topping Concrete
Contractors3.0 Temporary Propping
3.1 Camber3.2 Handling & Storage3.3 Penetrations & Fixings
Specifications4.0 Drawing Call-up4.1 Written Specification Clauses
Specifications4.1 Written Specification Clauses
Key Plan
Flat Slab Sections 1 & 2
Flat Slab Sections 3 & 4
Flat Slab Sections 5 & 6Flat Slab Sections 7 & 8
Flat Slab Section 9
Fixings to Flat Slab
Camber Allowances, Support & Handling
75 & 100 Flat Slab
125 & 150 Flat Slab
Load Span Graph 75 Flat Slab
Load Span Graph 100 Flat Slab
Load Span Graph 125 Flat Slab
Load Span Graph 150 Flat Slab
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
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General
Stahlton Engineered Concrete supplies Flat Slab to any location inNew Zealand. Four standard depths of Flat Slab are available including
75mm, 100mm, 125mm and 150mm deep by 1200mm wide in
dimension. In some areas we can supply 2400mm wide units, please
check with your local plant to see if this option is available in your
region.
1.0 Acoustic Rating
The Stahlton Engineered Concrete Flat Slab, with a minimum 75mm
depth of topping, will provide a Standard Transmission Class (STC)
rating of 55dB.
1.1 Durability
Stahlton Flat Slab slabs meet exposure classifications A1, A2, B1 & B2
as per table 3.6 in NZS 3101:Part 1:2006 for a 50 year life.
1.2 Thermal Rating
Estimated thermal ratings (R) for Stahlton Flat Slab with 75mm deeptopping are:
75mm 0.10m2 oC/W
100mm 0.12m2 oC/W
125mm 0.14m2 oC/W
150mm 0.16m2 oC/W
These values are a guide only; if fur ther information is required please
contact the Stahlton Engineered Concrete Technical Department .
1.3 Fire RatingAll Stahlton Flat Slab floors with a minimum of 75mm of on site topping
have a 60 minute Fire Resistance Rating (FRR). Refer NZS 3101:Part1:2006
table 4.3 & 4.4 for one-way slabs. Increased FRR can be achieved in
some circumstances; please contact the Stahlton Technical Department
if you wish to discuss further. Any penetrations through the Stahlton Flat
Slab floors must also be fire rated, see page13. Advice should be sought
from the fire protection suppliers regarding suitability of their tested
products with the Flat Slab floor systems.
3
Architects
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Consulting Engineers
4www.stahlton.co.nz
2.0 Loadings
Generally common loadings used on residential, office and apartmentbuildings are suitable for Stahlton Engineered Concrete Flat Slab
flooring systems. The Load Span graphs (pages 18-21) assume that
there is maximum strand, the flooring may be temporarily propped,
the floor is simply supported and that loads are uniformly distributed.
Load factors of 1.2G and 1.5Q as per AS/NZS 1170.1 have been allowed
for in the design analysis. Simply compare your factored superimposed
dead and live loads with the allowable shown on the graph i.e. if your
project has G=0.5kPa & Q=3.0kPa, factor accordingly 1.2x0.5 + 1 .5x3.0 =
5.1kPa. Compare this figure with that shown on the y-axis of the load
span graph. Please note high dead loads may induce higher creep
values than expected and advice should be sought from the Stahlton
Engineered Concrete Technical Team for unusual cases.
Flat Slab floors can sustain point loads and line loads. However
significant loadings should be checked by one of the Stahlton
Engineers at the preliminary design stage.
2.1 End Seating
All Stahlton Flat Slab flooring requires a minimum of 75mm or span/180,
whichever is greater, seating onto walls or beams. 15mm of construction
tolerance needs to be added to both of these figures if sitting on an
unarmoured concrete beam. If seating onto a steel beam or armoured
edge concrete beam, 60mm of seating plus 15mm of tolerance is
required. Stahlton Engineered Concrete recommends the use of low
friction bearing strips for Flat Slab. Please refer to NZS 3101 cl 18.7.4B.
Note solid slabs refers to Flat Slab units used in residential applications
and less seating is acceptable if only residential loadings are used.
2.2 Topping
The topping concrete strength should be specified as a minimum of25MPa as per NZS 3101:2006 cl 5.2.1 . The minimum topping depth for
Stahlton Flat Slab at midspan is 75mm. Additional topping depth will
usually be required feathered out to the ends of the units to allow
for an even finished floor level. Floor reinforcement and saddle bars
should be designed and shown on the Consulting Engineers drawings.
Steps in the topping can be formed using suitable density polystyrene,
however the extra topping thickness needs to be accounted for as a
gravity load and allowed for in the design.
Care should be taken when pouring topping not to mound up the
concrete in one place as this can produce large point loads. The
mounding of in situ concrete should not exceed the constructionloadings the units are designed to sustain.
2.3 Design Weight Including Topping Concrete
The following figures are based on the average cross-section for each
product.
Topping Depth of 75mm (1.8kPa) has been allowed
Depth (mm) Design Weight (kPa)
75 3.7
100 4.3
125 5.0
150 5.6
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3.0 Temporary Propping
Temporary propping may be required for Stahlton Flat Slab to increasebottom fibre stress capacity or to even out camber variations in the
flooring soffit .
The natural variations in precamber expected in prestressed members
can be minimized by the use of propping. Under standard uniformly
distributed loadings temporary propping would be expected for spans
exceeding 2.5m, 4m, 5m and 6m for 75mm 100mm, 125mm, and 150mm
deep Stahlton Flat Slab units respectively. A suitably qualified Engineer
will need to be consulted for the design of the propping system.
3.1 Camber
Stahlton Flat Slab units will arrive at site with some positive camber
(hog). This is unavoidable due to the nature of prestressing. The
amount of hog will depend on a number of factors including, amount
of prestress, how long the units have been exposed to the sun and
length of unit to name but a few variables. As a rule of thumb allow
2-3mm of hog for every 1m of span. Generally half of the hog of the
Flat Slab unit will come down after the topping concrete is poured and
any propping is removed. Half of the remaining hog will eventually
come out over time due to creep and shrinkage.
3.2 Handling & StorageStahlton Flat Slab is designed to be lifted at the ends. Specifically
designed lifting chains and hooks or lifting clutches can be used to lift
the units. The Flat Slab unit will arrive on site with provision for hooks
or lifting clutches. These anchoring points should be used without
substitution. All lifting gear should be checked for any wear or damage
regularly as concrete elements can be abrasive.
Stahlton Flat Slab units if stored on site need to be dunnaged near the
lifting points. The dunnage blocks need to be aligned on top of each
other so as not to induce large point loads on the units below.
If props are indicated on the shop drawings, the Flat Slab units will
need dunnaging at these propping locations as well. Care needs to
be taken as to the suitability of the ground the units are stored onand should be checked by a suitably qualified Engineer.
Handling weights for Stahlton Flat Slab are:
1.2m wide 2.4m wide
Depth (mm) kg/m kg/m
75 232 464
100 309 618
125 386 772
150 463 926
3.3 Penetrations & Fixings
Stahlton Flat Slab units can have penetrations core drilled through the
unit in specific locations (see sheet 14). No more than one penetration
per 750mm of span or width of the unit is permitted, as too many
holes will reduce the load capacity of the Flat Slab unit . The area of
concrete around the strand must be avoided altogether. If a strand is
cut onsite, temporary prop either side of the penetration immediately,
then contact Stahlton Engineered Concrete as a design check will
need to be done to ascertain whether the unit is still structurally
sound.
Advice should be sort from the fixing manufacturer as to the
suitability and load carrying capacity of their products in Stahlton
Engineered Concrete Flat Slab.
Units can be designed with additional prestressing tendons to allow
for cutting of occasional tendons, however this needs to be thought
about at the start of the project and built into the design before the
units are cast, bearing in mind that extra strand could induce more
hog in the slab.
5
Contractors
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Specifications
6
4.0 Drawing Call-Up:
To specify the Stahlton Flat Slab system on your drawings we suggestyou use the following designation;
Stahlton depth Flat Slab with 75mm topping
For example if the project is to be made from 100mm deep Stahlton
Flat Slab with a 75mm deep topping; then the specification would read:
Stahlton 100 Flat Slab with 75mm topping
If Stahlton 75mm deep Flat Slab with 90mm topping is desired then;
Stahlton 75 Flat Slab with 90mm topping
4.1 Written Specification Clauses:Stahlton Flat Slab products in general comply with the following
standards:
NZS 3101:2006 Concrete Structures Standard Part 1 & 2
NZS 3109:1997 Concrete Construction
AS/NZS 4671:2001 Steel Reinforcing Materials
BS 5896:1980 Specification for High Tensile Steel Wire and Standard for
the Prestressing of Concrete
Design(i) The design of Stahlton Flat Slab shall be in accordance with the
requirements and recommendations of NZS 3101:2006 Concrete Structures
Standard Part 1 & 2 and or any recognized international Standard or par t
thereof, for example BS 8110:2007 The Structural Use of Concrete.
(ii) The prestress strand pattern in the Stahlton Flat Slab shall be designed
to sustain the loadings shown on the Consulting Engineers drawings and
allowance will be made for self weight of the unit and topping concrete.
(iii) The Stahlton Flat Slab shall be designed for exposure classification
A1/A2/B1/B2 as per table 3.6 in NZS 3101:2006.
(iv)The Stahlton Flat Slab unit shall have a FRR (Fire Resisting Rating) of60/60/60. Penetrations through the flooring system shall be reinstated to
the required FRR by an approved fire protection system.
(v) Stahlton Flat Slab shall be designed to have a maximum crack width
of 0.3mm under full live load conditions.
(vi) The acoustic STC (Sound Transmission Class) and IIC rating of the floor
system shall meet or exceed 55dB as tested at a registered institution or a
field test of 50dB measured in on-site conditions. These ratings apply to
the finished floor system, including any carpeting and suspended ceiling
systems.
(vii) The Stahlton Flat Slab units shall have a minimum of 75mm end
seating or L/180, whichever is greater, as per clause 18.7.4 in NZS 3101:2006
plus tolerance of 15mm if seated on an unarmoured concrete beam.
Materials
(i) Concrete shall be specifically mixed depending on environmentalconditions and should have a 28 day cylinder strength of 45MPa as a
minimum.
(ii) All concrete shall show signs of thorough compaction otherwise
rejected if repair cannot be undertaken to bring the unit back to the
original specification.
(iii) An air entraining agent complying with BS EN 934-2-2001 may be
included in the concrete mix to improve workability.
(iv)The strand reinforcement used in Stahlton Flat Slab shall be 9.6mm,
11.3mm, 12. 7mm or 12.9mm diameter complying with the requirements of
AS/NZS 4671:2001
(v) Prestressing strand shall be clean and free from deleterious
substances. Superficial rust is acceptable, however strand with corrosion
that has caused surface pitting shall be rejected for the main longitudinal
reinforcement of the unit .
Manufacture
(i) Materials, execution of stressing prestress strand and workmanship
of the Stahlton Flat Slab units shall conform with Stahlton Engineered
Concrete ISO 9001 Quality Assurance Operating Procedures
(ii) Stahlton Flat Slab units shall be nominally 1200mm wide (or 24000mmdepending on manufacturing plant) and made from the nominal depth;
75mm, 100mm, 125mm or 150mm
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Specifications
(iii) The top surface of the Stahlton Flat Slab unit shall have a nominal
roughness of 5mm or more as stipulated in NZS3101:2006 clause 18.5.4.1(a)
(iv) The tolerance for length of the Stahlton Flat Slab units shall be in
accordance with NZS 3109 (usually +/- 10mm).
Handling, Protection & Placing Units
(i) The Stahlton Flat Slab units shall to be designed to sustain all lifting
stresses.
(ii) The Stahlton Flat Slab shall be lif ted only at the lif ting position as
nominated by the manufacturer.
(iii) Stahlton Flat Slab units shall be handled using certified lifting hooks
or clutches. Chain angles must not exceed 30 degrees to the vertical and
must be checked regularly for wear and tear.
(iv) Dunnage used for storing the Stahlton Flat Slab units needs to be of
suitable quality and placed on good ground at the correct points in f rom
the end of the units.
(v) Where units are stacked one above the other, bearing dunnage shall
be positioned in vertical lines.
(vi) The Stahlton Flat Slab shall be handled and placed according to
references contained in the Occupational Safety & Health approved code
of practice entitled Safe Handling, Transportation and Erection of Precast
Concrete
(vii) The units shall not be damaged in any way including chips and
cracks during the erection and placing phase. Any damage should be
bought to the at tention of the supervising Engineer immediately.
Temporary Propping
(i) Design of temporary propping, back propping, bracing systems and
ground conditions to support prop loads shall be carried out by a suitably
qualified Engineer.
(ii) Propping shall not be removed until the topping concrete has reached
at least 75% of the 28 day strength.
(iii) It is the Contractors responsibility to ensure the propping system used
on site meets the criteria as detailed in the aforementioned design and
any additional requirements shown on the Stahlton Engineered Concrete
drawings.
(iv) All proposed systems with supporting calculations shall be submitted
to the Specifying Engineer prior to erection on site for approval.
Topping Concrete
(i) The top surface of the Stahlton Flat Slab units shall be clean and f ree
of all dust, oil or any deleterious substances which may adversely affect
the wet topping bond to the Stahlton Flat Slab units.
(ii) Prewet precast concrete surfaces prior to placing the topping concrete.
(iii) Free water shall be broomed away before the topping is applied.
(iv) Topping reinforcement shall be laid and supported to the Specifying
Engineers requirements and shall be supported to prevent displacement
during concreting.
(v) Topping concrete shall have a minimum aggregate size of ____
(normally 13mm) and a 28 day strength of ____ (minimum of 25MPa) and
be well compacted with mechanical vibrators.
(vi) Topping concrete shall be poured to a true surface so that the
specified thickness of ____ (minimum of 75mm) is achieved at the centre
of the span.
(vii) In-situ concrete shall be cured by the application of an approved
curing membrane or by being kept continuously wet for not less than
seven days.
Fixings & Penetrations
(i) Fixing to the Stahlton Flat Slab units shall be in accordance with the
approved details only and shall not impair or reduce the strength of the
unit in any way.
(ii) Documentation of tested fixings proposed for the project shall be
submitted to the Specifying Engineer prior to installation.
(iii) Penetrations, setdowns or chases to the Stahlton Flat Slab unit or
topping concrete shall be in accordance with the details agreed by the
Specifying Engineer and Stahlton Engineered Concrete prior to any work
being undertaken on site.
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Key Plan Scale: NTS
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Section 2 Scale: NTS
Section 1 Scale: NTS
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Section 4 Scale: NTS
Section 3 Scale: NTS
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Section 6 Scale: NTS
Section 5 Scale: NTS
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Section 8 Scale: NTS
Section 7 Scale: NTS
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Section 9 Scale: NTS
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Fixings to Flat Slab Scale: NTS
Fixings to Flat Slab Scale: NTS
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Handling Scale: NTS
Support Scale: NTS
Camber (hog) Allowances Scale: NTS
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100 Flat Slab Scale: NTS
75 Flat Slab Scale: NTS
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150 Flat Slab Scale: NTS
125 Flat Slab Scale: NTS
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18
36
30
24
18
12 6 0
3
Span,m
1Prop
Load
Span
Graph
75
Stahlton
FlatSlab
FactoredDesignLoad,kPaC
ompare
fa
ctored
designload
w
iththisaxis
Project
Name:
Level/Grid:
ProjectNumber:
Date:
0800STAHLTON
|w
ww.s
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o.n
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Superimposed
Loads
G:1.2x________
________
=_______
kPa
Q:1.5x________
________
=_______
kPa
FactoredDesig
nLoad=_______
kPa
No
tes:
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urt
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4.
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5.5
7/28/2019 Flat Slab Stahlton
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19
30
25
20
15
10 5 0
3.5
4
Span,m
LoadS
pan
Graph
100S
tahlton
FlatSlab
FactoredDesignLoad,kPaC
ompare
fa
ctored
designload
w
iththisaxis
Project
Name:
Level/Grid:
ProjectNumber:
Date:
0800STAHLTON
|w
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tahlton.c
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Superimposed
Loads
G:1.2x________
________
=_______
kPa
Q:1.5x________
________
=_______
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FactoredDesig
nLoad=_______
kPa
No
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4.
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.5
7
NoProp
1Prop
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20
30
25
20
15
10 5 0
4
4.5
Span,m
LoadS
pan
Graph
125
Stahlton
FlatSlab
FactoredDesignLoad,kPaC
ompare
fa
ctored
designload
w
iththisaxis
Project
Name:
Level/Grid:
ProjectNumber:
Date:
0800STAHLTON
|w
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tahlton.c
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Superimposed
Loads
G:1.2x________
________
=_______
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Q:1.5x________
________
=_______
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No
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4.
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7
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NoProp
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21
30
25
20
15
10 5 0
5
5.5
Span,m
LoadS
pan
Graph
150S
tahlton
FlatSlab
FactoredDesignLoad,kPaC
ompare
fa
ctored
designload
w
iththisaxis
Project
Name:
Level/Grid:
ProjectNumber:
Date:
0800STAHLTON
|w
ww.s
tahlton.c
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z
Superimposed
Loads
G:1.2x________
________
=_______
kPa
Q:1.5x________
________
=_______
kPa
FactoredDesig
nLoad=_______
kPa
No
tes:
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tion.
2.
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tions.
3.
IG>
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,or
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ormax
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imu
ml
oa
ds,
pleasecon
tac
t
Stahlton
todiscuss
urt
her.
4.
Se
lwe
ightan
d7
5mm
topp
ing
have
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allowe
dor.
5.
Spec
ife
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ings
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6
6.5
7
7.5
8
NoProp
1Prop
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0800 STAHLTON | www.stahlton.co.nz
A Division of Fulton Hogan Limited