the good shepherd foundation unit - st anne's building ... · design bending moment; m = max(abs(m...
TRANSCRIPT
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The Good Shepherd Foundation Unit - St Anne's Building
Structural Report
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Tunstall Smith King Limited
29 Stoney Street
Nottingham, NG1 1LP
T: 0115 922 9863
W: tskconsulting.co.uk
Registered in England and Wales
Registered Number: 9640811
Registered Office: 129a Middleton Boulevard,
Wollaton Park, Nottingham, NG8 1FW
Company Directors:
Garry Tunstall BEng (Hons) CEng MIStructE
Peter Smith BEng (Hons) CEng MIStructE
Stephen King BEng (Hons) CEng MIStructE
The Good Shepherd Catholic Academy
Structural Calculations
Job number. 220062 Status: C1
Revision: C1 Date: May 20
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Project: 220086
Structural Calculations i Tunstall Smith King Limited
Document Control
Revision C1 Date 21/05/20 Prepared By JS Checked By GT
Remarks: Building Control Submission
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Project: 220086
Structural Calculations ii Tunstall Smith King Limited
Contents
1.0 Introduction Page 1
2.0 Proposed Works Page 1
3.0 Design Codes and Software Page 1
4.0 Calculations Page 2
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Project: 220086
Structural Calculations 1 Tunstall Smith King Limited
1.0 Introduction Tunstall Smith King have been appointed to carry out the structural design requirements to enable the removal of a load bearing wall at the Good Shepherd Catholic Academy School in Woodthorpe, Nottingham. The site address is: The existing school is a traditional single storey masonry building with the pitched roof comprising timber trusses battens and tiles.
2.0 Proposed Works
It is proposed that the school is altered internally to provide a layout that better fulfils the schools needs. This includes the removal of both non-loadbearing and loadbearing walls with the addition of new partitions to create the desired layout.
3.0 Design Codes and Software Design Codes BS 5950: Part 1: 2000 Structural use of steelwork. Part 1: Code of practice for rolled sections and
welded sections BS 6399: Part 1: 1996 BS 6399: Part 3: 1988
Loading for buildings. Part 1: Code of practice for dead & imposed loads. Loadings for buildings. Part 3: Code of practice for imposed roof loads.
BS 8110: Part 1: 1997 Structural use of concrete. Part 1: Code of practice for design and construction.
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Project: 220086
Structural Calculations 2 Tunstall Smith King Limited
4.0 Calculations
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2No. 203x133x25 UB'S BOLTEDTOGETEHR WITH TUBULAR SPACERSAND M12 BOLTS @ 450 CENTRES
TO REDUCE THE NUMBEROF PROPS REQUIRED,PROP ONE SIDE OF THEROOF FIRST AND INSTALLTHE CORRESPONDINGBEAM, REMOVE PROPSONCE BEAM IN PLACE ANDREPEAT TO THE OTHERSIDE OF THE ROOF.
PROVIDE NEW JOISTHANGER TO FIX TRUSS TOADJACENT GIRDER PRIORTO REMOVING MASONRYWALL
ROOF TRUSS APPEARS TOBE PACKED TIGHTLY TOWALL PROPOSED TO BEREMOVED.
EXIS
TING
GIR
DER
TRUS
S
SPAN OFEXISTING ROOFTRUSSES
SECTION THROUGH RETAINING WALL
revision
drawndatescale (s)
projectsketch title
P1
JSMay / 20201:50 @ A3
Ground floor plan showing structure over The Good Shepherd Catholic Academy
rev date by chk descriptionP1 20/05/20 JS GT Preliminary
drawing status
Preliminaryproject no.
220062
This drawing is to be read in conjunction with all relevant architects,engineers and specialist drawings and specifications.
Do not scale from this drawing.
drawing no.
S/1000
PROVIDE MASONRYPADSTONE - 225 LONG X225 DEEP (3No. COURSES)WITH 150mm BEARINGFROM BEAM
PROVIDE MASONRYPADSTONE - 225 LONG X225 DEEP (3No. COURSES)WITH 150mm BEARINGFROM BEAM
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220062
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TSK Consulting
37 Wollaton Road
Beeston
NG9 2NG
Project
The Good Shepherd Catholic Academy
Job no.
220062
Calcs for
Beam Design
Start page no./Revision
1
Calcs by
JS
Calcs date
20/05/2020
Checked by Checked date Approved by Approved date
STEEL BEAM ANALYSIS & DESIGN (BS5950)
In accordance with BS5950-1:2000 incorporating Corrigendum No.1
TEDDS calculation version 3.0.07
Load Envelope - Combination 1
0.0
12.645
mm 3800
1A B
Bending Moment Envelope
0.0
22.823
kNm
mm 3800
1A B
22.8
Shear Force Envelope
0.0
24.025
-24.025
kN
mm 3800
1A B
24.0
-24.0
Support conditions
Support A Vertically restrained
Rotationally free
Support B Vertically restrained
Rotationally free
Applied loading
Beam loads Dead self weight of beam × 1 Dead full UDL 4.5 kN/m
Imposed full UDL 3.75 kN/m
Load combinations
Load combination 1 Support A Dead × 1.40
Imposed × 1.60
Dead × 1.40
Imposed × 1.60
Support B Dead × 1.40
Imposed × 1.60
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TSK Consulting
37 Wollaton Road
Beeston
NG9 2NG
Project
The Good Shepherd Catholic Academy
Job no.
220062
Calcs for
Beam Design
Start page no./Revision
2
Calcs by
JS
Calcs date
20/05/2020
Checked by Checked date Approved by Approved date
Analysis results
Maximum moment; Mmax = 22.8 kNm; Mmin = 0 kNm
Maximum shear; Vmax = 24 kN; Vmin = -24 kN
Deflection; δmax = 4.8 mm; δmin = 0 mmMaximum reaction at support A; RA_max = 24 kN; RA_min = 24 kN
Unfactored dead load reaction at support A; RA_Dead = 9 kN
Unfactored imposed load reaction at support A; RA_Imposed = 7.1 kN
Maximum reaction at support B; RB_max = 24 kN; RB_min = 24 kN
Unfactored dead load reaction at support B; RB_Dead = 9 kN
Unfactored imposed load reaction at support B; RB_Imposed = 7.1 kN
Section details
Section type; UKB 203x133x25 (Tata Steel Advance)
Steel grade; S275
From table 9: Design strength py
Thickness of element; max(T, t) = 7.8 mm
Design strength; py = 275 N/mm2
Modulus of elasticity; E = 205000 N/mm2
133.2
5.7
20
3.2
7.8
7.8
Lateral restraint
Span 1 has lateral restraint at supports only
Effective length factors
Effective length factor in major axis; Kx = 1.00
Effective length factor in minor axis; Ky = 1.00
Effective length factor for lateral-torsional buckling; KLT.A = 1.20; + 2 × D
KLT.B = 1.20; + 2 × D
Classification of cross sections - Section 3.5
ε = √[275 N/mm2 / py] = 1.00
Internal compression parts - Table 11
Depth of section; d = 172.4 mm
d / t = 30.2 × ε
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TSK Consulting
37 Wollaton Road
Beeston
NG9 2NG
Project
The Good Shepherd Catholic Academy
Job no.
220062
Calcs for
Beam Design
Start page no./Revision
3
Calcs by
JS
Calcs date
20/05/2020
Checked by Checked date Approved by Approved date
Outstand flanges - Table 11
Width of section; b = B / 2 = 66.6 mm
b / T = 8.5 × ε λL0 - Allowance should be made for lateral-torsional buckling
Bending strength - Section 4.3.6.5
Robertson constant; αLT = 7.0
Perry factor; ηLT = max(αLT × (λLT - λL0) / 1000, 0) = 0.509
Euler stress; pE = π2 × E / λLT2 = 176.4 N/mm2
φLT = (py + (ηLT + 1) × pE) / 2 = 270.7 N/mm2
Bending strength - Annex B.2.1; pb = pE × py / (φLT + (φLT2 - pE × py)0.5) = 113.4 N/mm2
Equivalent uniform moment factor - Section 4.3.6.6
Moment at quarter point of segment; M2 = 17.1 kNm
Moment at centre-line of segment; M3 = 22.8 kNm
Moment at three quarter point of segment; M4 = 17.1 kNm
Maximum moment in segment; Mabs = 22.8 kNm
Maximum moment governing buckling resistance; MLT = Mabs = 22.8 kNm
Equivalent uniform moment factor for lateral-torsional buckling;
mLT = max(0.2 + (0.15 × M2 + 0.5 × M3 + 0.15 × M4) / Mabs, 0.44) = 0.925
Buckling resistance moment - Section 4.3.6.4
Buckling resistance moment; Mb = pb × Sxx = 29.2 kNmMb / mLT = 31.6 kNm
PASS - Buckling resistance moment exceeds design bending moment
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TSK Consulting
37 Wollaton Road
Beeston
NG9 2NG
Project
The Good Shepherd Catholic Academy
Job no.
220062
Calcs for
Beam Design
Start page no./Revision
4
Calcs by
JS
Calcs date
20/05/2020
Checked by Checked date Approved by Approved date
Check vertical deflection - Section 2.5.2
Consider deflection due to dead and imposed loads
Limiting deflection;; δlim = min(15 mm, Ls1 / 360) = 10.556 mm
Maximum deflection span 1; δ = max(abs(δmax), abs(δmin)) = 4.808 mmPASS - Maximum deflection does not exceed deflection limit
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TSK Consulting
37 Wollaton Road
Beeston
NG9 2NG
Project
The Good Shepherd Catholic Academy
Job no.
220062
Calcs for
Masonry Bearing Design
Start page no./Revision
1
Calcs by
JS
Calcs date
20/05/2020
Checked by Checked date Approved by Approved date
MASONRY BEARING DESIGN TO BS5628-1:2005
TEDDS calculation version 1.0.06
Masonry details
Masonry type; Aggregate concrete blocks (25% or less formed voids)
Compressive strength of unit; punit = 3.6 N/mm2
Mortar designation; iii
Least horizontal dimension of masonry units; lunit = 100 mm
Height of masonry units; hunit = 215 mm
Category of masonry units; Category II
Category of construction control ; Normal
Partial safety factor for material strength; γm = 3.5Thickness of load bearing leaf; t = 100 mm
Effective thickness of masonry wall; tef = 133 mm
Height of masonry wall; h = 2500 mm
Effective height of masonry wall; hef = 2500 mm
B
Beam to span in plane of wall
Spreader
hs
t
lb
ls
Bearing details
Beam spanning in plane of wall
Width of bearing; B = 100 mm
Length of bearing; lb = 150 mm
Compressive strength from Table 2 BS5628:Part 1 - aggregate concrete blocks (25% or less formed voids)
Mortar designation; Mortar = "iii"
Block compressive strength; punit = 3.6 N/mm2
Characteristic compressive strength (Table 2c); fkc = 1.70 N/mm2
Characteristic compressive strength (Table 2d); fkd = 3.50 N/mm2
Height of solid block; hunit = 215.0 mm ;
Least horizontal dimension; lunit = 100.0 mm
Block ratio; ratio = hunit / lunit = 2.2
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TSK Consulting
37 Wollaton Road
Beeston
NG9 2NG
Project
The Good Shepherd Catholic Academy
Job no.
220062
Calcs for
Masonry Bearing Design
Start page no./Revision
2
Calcs by
JS
Calcs date
20/05/2020
Checked by Checked date Approved by Approved date
Ratio between 0.6 and 4.5 - OK
Characteristic compressive strength; fk = 3.50 N/mm2
Loading details
Characteristic concentrated dead load; Gk = 9 kN
Characteristic concentrated imposed load; Qk = 7 kN
Design concentrated load; F = (Gk × 1.4) + (Qk × 1.6) = 23.8 kNCharacteristic distributed dead load; gk = 4.5 kN/m
Characteristic distributed imposed load; qk = 3.8 kN/m
Design distributed load; f = (gk × 1.4) + (qk × 1.6) = 12.3 kN/m
Masonry bearing type
Bearing type; Type 2
Bearing safety factor; γbear = 1.50
Check design bearing without a spreader
Design bearing stress; fca = F / (B × lb) + f / t = 1.710 N/mm2
Allowable bearing stress; fcp = γbear × fk / γm = 1.500 N/mm2
FAIL - Design bearing stress exceeds allowable bearing stress, use a spreader
Spreader details
Length of spreader; ls = 225 mm
Depth of spreader; hs = 215 mm
Edge distance; sedge = max(0 mm, xedge – (ls - B) / 2) = 0 mm
Spreader bearing type
Bearing type; Type 3
Bearing safety factor; γbear = 2.00
Check design bearing with a spreader
Loading acts eccentrically - stress distribution similar to semi-infinite beam on elastic foundation
Modulus of elasticity of masonry wall; Ew = 700 × fk = 2.5 kN/mm2
Modulus of elasticity of spreader beam; Eb = 30 kN/mm2
Modulus of wall; k = Ew / h = 1.0 N/mm3
Moment of inertia of spreader beam; Ib = t × hs3 / 12 = 82.8×106 mm4
Constant; γ = (t × k / (4 × Eb × Ib))1/4 = 1.77×10-3 mm-1
Classification of spreader; γ × ls = 0.40Short
WARNING! - γ × ls
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WET AREA
VERANDAH
RECEPTION CLASS
TOILETS
STAFF / Baby Change
STORE
KITCHEN / UTIL
COAL STORE
CLASSROOM
BOILERS
CUP'D
QUIET ROOM
RESOURCE
STORE
MEETING
ROOM /
SEN
LIBRARY
FE- CUP'D
MALE
CLOAKS
PRACTICAL AREA
CLASSROOMCLASSROOM
MALE
CLASSROOM
QUIET AREA
QUIET AREA
ST ANNE'S BLOCK
CLASSROOM
Decorations & Flooring
Key
Walls to be removed
New partitions
Decorations
Flooring
Doors (2nr in total)
WET AREA
VERANDAH
RECEPTION CLASS
TOILETS
STAFF / Baby Change
STORE
KITCHEN / UTIL
COAL STORE
CLASSROOM
BOILERS
CUP'D
QUIET ROOM
RESOURCE
STORE
MEETING
ROOM /
SEN
LIBRARY
FE- CUP'D
MALE
CLOAKS
PRACTICAL AREA
CLASSROOMCLASSROOM
MALE
CLASSROOM
QUIET AREA
QUIET AREA
ST ANNE'S BLOCK
CLASSROOM
Door and partition to be removed.
Walls and ceiling are to repaired.
Floor is to be jointed / thershold strip installed.
Existing wash station to be removed and disposed
External door set to be removed and back filled
in accordance to specification.
Existing partition to be removed, including fixtures and
fixings, door is to be removed and back filled in accordance
with the specification, ceiling to be repaired
(pattress and painted)
Existing walls to be removed, allow for works identified
within structural engineers reports.
All existing fixtures and fixings are to be removed carefully
and disposed.
Proposals & General Notes
New privacy screen, including cubicles, WC, WHB,
all in accordance with specification
Mechanical & Electrical alterations will be required,
this to be contractor design for this element.
Requirements have been stipulated within the
Schedule of Work.
Storeroom
P r e l i m i n a r yF o r A p p r o v a l
T e n d e r I s s u eC o n s t r u c t i o n I s s u e
P l a n n i n g I s s u e B u i l d i n g R e g . I s s u e
A s B u i l t
© copyright
D r a w i n g I s s u e N o t e s :
R e v I s s u e D a t e R e v i s i o n N o t e s :
R e v i s i o n
P r o p e r t y R e f
D r a w i n g N o .
D r a w i n g T i t l e
D a t e
S c a l e
D r a w n
P r o j e c t
C h e c k e d
G e n e r a l N o t e s
F u r n i t u r e L a y o u t I s s u e
The Good Shepherd, St Anne's Building Alterations
The Good Shepherd, St Anne's
Proposed Works,
2213-502-1201
29/04/2020
A3 @ 1:200
JE
HR
A **/**/**** XXXXXXXXXXXXXXXXXXXX
Copyright of this drawing belongs to Make Consulting and its
subsidiary and associated companies and no part thereof may be
reproduced or utilised in any way whatsoever without the prior written
consent of Make Consulting.
DO NOT SCALE
Figured dimensions shall be taken in preference to scaled
dimensions and any discrepancies or errors are to be referred to the
Designer. Contractors, sub-contractors and suppliers must verify all
dimensions on site before commencing work or making any
fabrication drawings.
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2No. 203x133x25 UB'S BOLTEDTOGETEHR WITH TUBULAR SPACERSAND M12 BOLTS @ 450 CENTRES
TO REDUCE THE NUMBEROF PROPS REQUIRED,PROP ONE SIDE OF THEROOF FIRST AND INSTALLTHE CORRESPONDINGBEAM, REMOVE PROPSONCE BEAM IN PLACE ANDREPEAT TO THE OTHERSIDE OF THE ROOF.
PROVIDE NEW JOISTHANGER TO FIX TRUSS TOADJACENT GIRDER PRIORTO REMOVING MASONRYWALL
ROOF TRUSS APPEARS TOBE PACKED TIGHTLY TOWALL PROPOSED TO BEREMOVED.
EXIS
TING
GIR
DER
TRUS
S
SPAN OFEXISTING ROOFTRUSSES
SECTION THROUGH RETAINING WALL
revision
drawndatescale (s)
projectsketch title
P1
JSMay / 20201:50 @ A3
Ground floor plan showing structure over The Good Shepherd Catholic Academy
rev date by chk descriptionP1 20/05/20 JS GT Preliminary
drawing status
Preliminaryproject no.
220062
This drawing is to be read in conjunction with all relevant architects,engineers and specialist drawings and specifications.
Do not scale from this drawing.
drawing no.
S/1000
PROVIDE MASONRYPADSTONE - 225 LONG X225 DEEP (3No. COURSES)WITH 150mm BEARINGFROM BEAM
PROVIDE MASONRYPADSTONE - 225 LONG X225 DEEP (3No. COURSES)WITH 150mm BEARINGFROM BEAM
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Covers (Word)220062 Calculation Package The Good Shepherd School.pdfGood Shepherd St Annes b.pdfSheets and ViewsA3 LANDSCAPE
220062 The Good Shepherd Structural Works.pdfCovers (Word).pdf