Certificación de los materiales de torres
Megashor
INGENIERA GLOBAL, SERVICIO REGIONAL, PRESENCIA LOCAL
Certificate of Conformity
Megashor and Accessories
We certify that components of the Megashor system have been designed and tested in accordance with the relevant European and British Standards. We certify that the allowable working loads indicated in the Megashor Technical Data Sheets comply with statutory regulations and are fit for the purposes and loading indicated therein. Certified By Ian Nigel Fryer B.Eng. C.Eng. MICE. Chief Engineer RMD Kwikform
Issue A Further info: +44 (0) 1922 743743 Sheet 1 of 1
21/06/04 The information contained within these Certificates remain the property of RMD Kwikform and is not to be altered or reproduced without permission.
RMD Kwikform reserves the right to change any specification without giving prior notice
RMD Kwikform Iberica
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R•M•DKWIKFORM
ENGINEERING
Spec: Euro. 5/2002 Issue D Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.PUBLICATION No. 65
Sheet: 1
1.1.3. Megashor Mark 2. Shafts
450
900
900
900
900
900
450
5400mm 2700mm
900mm
450
450
Code Description Weight
05452* 5400mm Megashor Shaft 316.0 kg05453* 2700mm Megashor Shaft 160.0 kg05454* 1800mm Megashor Shaft 112.0 kg05455* 900mm Megashor Shaft 65.0 kg05456* 450mm Megashor Shaft 45.0 kg05458* 270mm Megashor Shaft 35.0 kg05459* 90mm Megashor Shaft 25.0 kg
225
225
1800mm
450mm
270mm
90mm
* Mark 1 and Mark 2 Shafts have the same code numbers.If Mark 2 Shafts are required please specify MegashorMark 2 when ordering.
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R•M•DKWIKFORM
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Spec: Euro. 1/2002 Issue B Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 6
1.1.4. Megashor Mark 2. Punchings
110
340180
200 x 226 x 8mm Thick Plate
15mmThickPlate
280
286110
9191
45
100 100
284
22 dia.
300
200
6mmThickPlate
Typical Section. Detail on End Plate.
340
21mm dia holes max.plain 20mm diafastener bearing load50kN per hole.
190
270
180
205
7575
95
55
55
55
55
55mmdia.
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Spec: Euro. 1/2002 Issue B Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 7
21mm dia holes max.plain 20mm diafastener bearing load40kN per hole.
18mm dia holes max.plain 16mm diafastener bearing load32kN per hole.
1.1.5. Megashor Section Properties
A combination of mathematical analysis in accordance with BS5950 pt 5 and load testing have yielded thesection properties below.
Area 58.45 cm2
I xx 5981 cm4
I yy 4289 cm4
r xx 10.14 cmr yy 8.56 cmZ xx 443 cm3
Z yy 306 cm3
EI xx 12560 kNm2
EI yy 5085 kNm2
M max x 102 kNmM max y 68 kNmShear max XX 450 kNMean compressive yield stress 370 N/mm2
Self weight 0.542 kN/m runMax Joint bending moment X-X axis 66 kNmMax Joint bending moment Y-Y axis 52 kNmAxial Shortening 8.14 x10-4 mm/m/kN
All values are unfactored allowable loads.
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R•M•DKWIKFORM
ENGINEERING
Spec: Euro. 1/2002 Issue B Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 8
1.1.6.1. Vertical Megashor Axial AWL XX Axis
1000
900
800
700
600
500
400
300
200
100
00 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Effective Length/m
Allo
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ompr
essi
ve W
orki
ng L
oad/
kN
e = 25mm
e = 38mm
e = 50mm
e = 10m
m
X
X
Y Y
e
e
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R•M•DKWIKFORM
ENGINEERING
Spec: Euro. 1/2002 Issue B Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 10
1.1.6.2. Vertical Megashor Axial AWL YY Axis
1000
900
800
700
600
500
400
300
200
100
00 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Effective Length/m
Allo
wab
le C
ompr
essi
ve W
orki
ng L
oad/
kN
e = 25mm
e = 38mm
e = 50mm
e = 10m
mY
Y
X X
e
e
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R•M•DKWIKFORM
ENGINEERING
Spec: Euro. 1/2002 Issue B Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 11
1.1.6.4. Horizontal Megashor Axial AWL YY Axis(Web horizontal plane)
1000
900
800
700
600
500
400
300
200
100
00 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
Effective Length/m
Allo
wab
le C
ompr
essi
ve W
orki
ng L
oad/
kN
e = 25mm
e = 38mm
e = 50mm
e = 10m
m
YY
X
X e e
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R•M•DKWIKFORM
ENGINEERING
Spec: Euro. 1/2002 Issue B Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 13
1.1.7. Megashor Joints Allowable Axial loads in Tension
6 M20 x 60 gr. 8.8 bolts and nutscode 01750
1000 kN
Note: When 4 M20 x 60 gr. 8.8 bolts are used in the corner holes AWL = 330 kN.
Stiffened Joint – Mk 2 shafts only.
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Spec: Euro. 1/2002 Issue B Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 14
1000 kN
Plain Joint – Mk 1 or Mk 2 shafts.
1000 kN
1000 kN
500 kN
500 kN
500 kN
500 kN
See later 1.5.9. for connection details.
Instructions for safe use ofMegashor JackEnsure equal length of threadabove and below collar asfollows:1. Fully close Jack.2. Turn collar to extend Jackmaking sure that the top of Jackdoes not rotate relative to bottom.
1.4.1. Megashor Screw Jack (Code 05451) weight = 49 kg
Range 410-620mm 200140
200
140
300
300
All holes26mm dia.
Jacks in tension -AWL = 200kN
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Spec: Euro. 1/2002 Issue B Further info: ☎ +44 (0)1922 743743
MEGASHOR1 0 0 0 k N S U P P O R T S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 27
�!
1000
900
800
700
600
500
400
300
200
100
0
Wor
king
Loa
d Li
mit
/ kN
410 450 500 550 600 620Jack Height / mm
SideLoad
e
e = 0mm, Side Load = 0 kN
e = 10mm, Side Load = 0 kN
e = 10mm, Side Load = 10 kN
e = 10mm, Side Load = 20 kNe = 10mm, Side Load = 30 kNe = 10mm, Side Load = 40 kNe = 10mm, Side Load = 50 kN
Load Capacities of Jack with Solid Spindles.
18
VIGAS SÚPER SLIM
INGENIERA GLOBAL, SERVICIO REGIONAL, PRESENCIA LOCAL
Certificate of Conformity
Superslim and Slimshor
Issue A Further info: +44 (0) 1922 743743 Sheet 1 of 1
01/10/03The information contained within these Certificates remain the property of RMD Kwikform and is not to be altered or reproduced without permission.
RMD Kwikform reserves the right to change any specification without giving prior notice
We certify that components of the Superslim and Slimshor systemhave been designed and tested in accordance with the relevantBritish Standards.We certify that the allowable working loads indicated in theSuperslim Technical Data Sheets Issue C dated May 2002 complywith statutory regulations and are fit for the purposes and loadingindicated therein.
Certified By
Ian Nigel FryerB.Eng. C.Eng. MICE.Chief Engineer RMD Kwikform
Certificate of ConformitySuperslim Joints
Issue B Further info: +44(0) 1922 743743 Sheet 1 of 110/08/05 The information contained within these certificate remain the property of RMD Kwikform and is not to be altered or reproduced without permission.
RMD Kwikform reserves the right to change any specification without giving prior notice.
Allowable Working Loads• The allowable working load in tension at the Superslim joints when bolted with 4 No.
M16x40 grade 8.8 set pins and nuts is 100kN, and the allowable bending moment is12kNm.
• When the Soldier is in bending at the joint only two of the bolts are fully loaded. Theremaining two bolts can take an allowable shear of 32kN per bolt or 64kN per joint.
• The joints and members are tested to validate the allowable working loads withmembers positioned in the worst tolerance cases where applicable.
• Representative load testing has been carried to establish allowable working loadsusing hire stock equipment to enable all imperfections and tolerances to be taken intoaccount. As the bending moment increases at the joint the internal forces are resistedby the bolts in tension at the tension face and by compression between the end platesat the other face. All bearing surfaces, including the bolt threads, undergo settlementand the bolts extend elastically. The joints on the soldiers under working loads mayhence open slightly at the tension face. This however is not detrimental to the jointperformance.
Tolerances at Joints• The flatness of the end plate of the Superslim Beam is square within 1 mm of the true
face, in either direction.
Required AssemblyTo achieve the allowable working load given above joints assembled on site shouldcomply with the following requirements:• The 4 bolts should be put in loose and then tightened in accordance with Eurocode 3
EN1993-1-1 section 7.5.6 making sure the soldiers are aligned with each other at thejoint by eye. This method will pull the end plates together adequately and replicate thevalidation tests.
• In accordance with the manufacturing tolerances check that a 1mm gauge cannot beinserted into the joint at any point around the joint perimeter
Certified ByIan Nigel FryerB.Eng. C.Eng. MICE.Chief Engineer RMD Kwikform
European Technical OfficeBrickyard Road, Aldridge, Walsall, WS9 8BW, UK.
Telephone: +44 (0)1922 743743Facsimile: +44 (0)1922 743400E-mail: [email protected]: www.rmdkwikform.com
RMD Kwikform
TechnicalData Sheets
European Specification
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R•M•DKWIKFORM
ENGINEERING
Spec: Euro. 5/2002 Issue C Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.PUBLICATION No. 8
Sheet: 1
1.1.1. Super Slim Soldier Shafts
360mm 360mm O/E
540mm 720mm
1800mm
2700mm
3600mm
Code Description Weight
02336 3600mm Super Slim Soldier 71.1 kg02327 2700mm Super Slim Soldier 56.6 kg02320 1800mm Super Slim Soldier 38.5 kg02309 900mm Super Slim Soldier 20.8 kg05408 Slimshor Int. Section 720mm 17.8 kg05407 Slimshor Int. Section 540mm 12.5 kg05416 Slimshor Int. Section 360mm 8.5 kg05417 Super Slim 360mm Open Ended 8.2 kg05406 Slimshor Int. Section 90mm 6.5 kg02343 Super Slim Soldier End Plate 10mm 2.8 kg
10mm
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Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 4
90mm
900mm
Note! The positions of stiffener plates in hire fleet soldiersmay vary. Soldiers shown are post 1994 version.
1.1.2. Punchings and Geometry
Detail on End Plate10mm thick
Post 1994 version
106 176
65
225125
225
24100 DiaPorthole
6546
18 Dia
27 Dia
Typical Section
137
180
180
120
60 90
180
180
100mm dia porthole maxbearing in hole pair 65 kN
21mm dia max bearing inhole pair
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Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 5
Detail on End Plate8mm thickPre 1994 version
106 176
125
225
18 Dia
27 Dia
45 kN with M20 x 90 grade 4.6 bolt code 0174754 kN with M20 x 100 grade 8.8 bolt code 01785or M20 High Yield Pin code 05432
180Channels 3.5mm thick
Note The arrangement of holes in the end plates of hire fleet soldiers vary.If using soldiers bolted to Megashor please specify ‘7 hole end plate soldiers’.
Area: Gross 26.06 cm2
Area: Nett 19.64 cm2
I xx 1916 cm4
I yy 658 cm4
r xx 9.69 cmr yy 5.70 cmZ xx 161 cm3
Z yy 61 cm3
EI xx 4020 kNm2
EI yy 300 kNm2
GAxx 17350 kNM max x 40 kNmM max y 6.24 kNmMean compressive yield stress 370 N/mm2
Self weight 0.195 kN/m run
1.1.3. Section Properties
Soldier characteristics
X X
Y
Y
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Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 6
1.1.4. Beams with Compression Flanges RestrainedThe Super Slim Soldier is a lightweight member and it is not generally appropriate to use the principles ofBS449 or BS5950 for beam analysis. The performance envelope below has been derived from testresults. Research work undertaken using RMD Kwikform soldiers has shown that the performance isaffected by both shear stiffness and the bending stiffness of the member. Analysis of the beam fordeflection in this way is complex. For deflection calculation by simplistic analysis, a reduced EI value of3200 kNm2 gives good correlation with the more rigorous analysis. When used as a beam it is importantthat the soldier is restrained laterally at load points and supports. On a shutter, this lateral restraint isprovided by the backing members and face contact materials acting as a diaphragm. When used as anisolated beam it is normal to provide lateral restraint using scaffold tubes coupled to the flanges of thesoldier. When lateral restraint is not provided refer to 1.1.5 for Allowable Working Loads. When bending onthe weak axis, the soldier should be treated as two individual channel members, each with a moment ofresistance of 3.12 kNm. Individual loads act on the single section and transfer the forces through thestiffeners to the other channel.
50
40
30
20
10
00 20 40 60 80 100 120 140 160
Tie load (kN)
Allo
wab
le B
endi
ng M
omen
t kNm
Performance curve when notusing Hi-load Waler plates
The working bending moment at joints in the soldiers is 12 kNm unless Joint Stiffeners (Code 02308) areused, in which case a working moment of 20 kNm is permissible. See 1.2.43.
Factors of safety for RMD KwikformSoldier designs using this loadenvelope are not less than 1.8(Derived from testing)
Use Hi-loadWaler plate
Work Load Envelope
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Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 7
A 65 kN AWL may be used as indicated by arrow A. If two Hi-Load waler plates are used at the connection with a spacingwasher 150 x 150 x 12 thick (Code 01864) then a 160 AWL may be used.
Soldier to Soldier Bearing A
1.1.5. Beams with Compression Flanges Unrestrained
40
35
30
25
20
15
10
5
00 1 2 3 4 5 6 7
Effective Length of Compression Flange in metres
Allo
wab
le B
endi
ng M
omen
t kN
The failure mode for long spanning beams without compression flange restraint tends to be by rollingover and buckling sideways of the compression flanges, a phenomenon known as lateral torsionalbuckling. During the design of standard steel sections reference is made to BS 449 table 3 and thepermissible bending stress is derated from the maximum for the material to ensure that failure of thisnature does not occur.Super Slim Soldiers are also susceptible to this kind of failure. The complex section is made up of twinchannels welded together in a manner that makes them act in a partially composite manner. The D/Tvalues also fall outside the BS 449 table. For these reasons a mathematical study has been combinedwith load testing to produce the graph below.
Effective Length of Compression Flange
BS 5975 Annex L.3 may be used to determine the effective length of the compression flanges.e.g. an individual Super Slim soldier cantilevers 0.9m past a Rapidshor U head. Determine themaximum point load that may be carried on the top flange at the unrestrained tip.
From BS 5975 table L3 the soldier is continuous with lateral restraint only. The effective length of thecompression flange (in this case the lower flange) is 7.5 * 0.9m = 6.75m.
From graph above maximum allowable bending moment at 6.75m effective length = 8.0 kNm. Hencemaximum point load at tip = 8.0 kNm / 0.9m = 8.89 kN.
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Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 8
1.1.6. Vertical Struts - Buckling About the Y AxisThe Super Slim Soldier, when used as a strut, has different loading characteristics about its two axes dueto its assymetric shape. The arrangement of the strut when erected may also dictate the method ofbracing to obtain the required capacity. The lateral stability of the struts in each direction requiresconsideration, and graphs of safe load capacity against effective strut length are given below. Theeffective length of a strut is defined in BS 449 section C, and BS 5975 table 33. When using the rockinghead the load is axial in one plane, but dependant upon site accuracy for the degree of eccentricity in theother plane; it is recommended that 25mm is the minimum eccentricity allowed. In the following graphsthe permissible loads are given allowing for eccentricity due to assembly tolerance and a load eccentricityof 25mm and 38mm. For vertical shoring applications the Effective Strut Length against AllowableWorking Load is given. For horizontal shoring applications the overall length of the horizontal shore againstthe Allowable Working Load is given.A load restriction of 100 kN is placed on the soldier when the load is to be released through the Slimshorjack, Where the load is not to be released through jacks, the maximum allowable load can be increased to150 kN.
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Spec: Euro. 10/2003 Issue E Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 9
150
140
130
120
110
100
90
80
70
60
50
40
30
20
10
00 1 2 3 4 5 6 7 8 9 10 11 12
Effective Length / m
Allo
wab
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ompr
essi
ve W
orki
ng L
oad
/ kN
e = 38mm
e = 25m
m
e = 10m
m
100 kN max for jack release
X
Y
Y
X
e
e
1.1.7. Vertical Struts – Buckling About the X Axis
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Spec: Euro. 10/2003 Issue E Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 10
150
140
130
120
110
100
90
80
70
60
50
40
30
20
10
03 4 5 6 7 8 9 10 11 12 13 14 15
Effective Length / m
Allo
wab
le C
ompr
essi
ve W
orki
ng L
oad
/ kN
e = 38m
m
e = 25m
m
e = 10m
m
100 kN max for jack release
Y
X
X
Y
e
e
1.1.8. Horizontal Shores – Buckling About the Y Axis
When shores have intermediate vertical restraints buckling about the x axis may be the limiting factorrefer to graph 1.1.7.
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SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 11
The notes relating to vertical members in compression also apply to the horizontal members incompression. An additional allowance for the self weight of the horizontal shore has been included inthis instance.
150
140
130
120
110
100
90
80
70
60
50
40
30
20
10
00 1 2 3 4 5 6 7 8 9 10 11 12
Effective Length / m
Allo
wab
le C
ompr
essi
ve W
orki
ng L
oad
/ kN
e = 38mm
e = 25m
m
e = 10m
m
100 kN max for jack release
X
YY
Xee
1.1.9. Horizontal Shores – Buckling About the X Axis
This graph assumes that the strut is effectively restrained against buckling in the y axis by adequateintermediate lateral restraint. Checks for buckling in the y axis may be made by reference to 1.1.6.
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Spec: Euro. 10/2003 Issue E Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 12
150
140
130
120
110
100
90
80
70
60
50
40
30
20
10
00 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
Effective Length / m
Allo
wab
le C
ompr
essi
ve W
orki
ng L
oad
/ kN
e = 38m
m
e = 25m
m
e = 10m
m
Y
XX
Yee
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R•M•DKWIKFORM
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Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 13
1.1.10. Bolted Joints
Plain Joint4 No. M16 x 40 set pin grade 8.8with nut (Codes 01807 and 01832)
100 kN 100 kN
150 kN 150 kN
4 No. Joint Stiffeners (Code 02308) with 4 No. M16 x 110 grade 8.8 bolts and nuts(Codes 01811 and 01832)Stiffened Joint
Combined Stresses
Allowable Tensile Load = 100 kNAllowable Bending Moment = 12 kNm
Allowable Tensile Load = 150 kNAllowable Bending Moment = 20 kNm
Actual Tensile Load
Allowable Tensile Load
Actual Bending Moment
Allowable Bending Moment+ < 1
1.2.9. Components: Slimshor Tube Clamp (Code 05405)
Code Description Weight
05405 Slimshor Tube Clamp 1.50 kg
‘A’ Allowable Working Load = 6.25 kN in slip‘B’ Allowable Working Load = 4.00 kN in slip
148
60
1.2.10. Components: Half Coupler (Code 05241)
Code Description Weight
05241 Half Coupler 0.40 kg01816 M16 x 40 HT CSK Set Pin ZP 0.07 kg01832 M16 Hexagon Nut Plated 0.03 kg
Allowable Working Load per coupler 6.25 kN slipalong tube 10 kN direct tension
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R•M•DKWIKFORM
ENGINEERING
Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 18
A
BNote: Clamp is a swivel fitting.
Used to connect scaffold tube to Soldiers at any angle.
For use in pairs to connect handrail posts to the end plates of Soldiers.
M16 x 40 HTCSK Set Pinand M16 Nut
1.2.28. Components: Tilt Plate (Code 02302)
Code Description Weight
02302 Super Slim Tilt Plate 5.00 kg01834 M24 Nut 0.03 kg01759 M24 x 110 GD 8.8 H.T. Bolt & Nut 0.55 kg
77
87
62
150
300
12
75
75
12
110
11030
26 dia. hole
26 dia. slot 80 long
4 No. 18 dia. holes
50 50
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R•M•DKWIKFORM
ENGINEERING
Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 29
Allowable Working Load ± 100 kN
1.2.29. Components: Prop Brace Pin (Code 01818)Used to connect Push Pull Props and twin 60 x 8 flat braces through the same fastener.
24
7727 27
Twin 60 x 8flat braces
Twin 60 x 8flat braces
Load
LoadM20 nut
M20 nut
Allowable Working Load in prop ± 100 kN, in flat braces 80 kN per pair tension only.
Enables a Push Pull Prop to be connected to a plane surface at any angle.
1.2.31. Prop Tube End Link (Code 05418)Used to connect Push Pull Props to Megashor shafts.
90
358
Allowable working load ± 100 kN
Heavy dutypush pull prop
100kN
M20 x 130 gr 8.8 boltand nut (Code 01786and 01833)
M24 x 110 gr 8.8 boltand nut (Code 01759and 01834)
Megashor 22 dia.
60 dia.tube
26 dia.
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ENGINEERING
Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 30
1.2.30. Components: Adjustable Prop Jack
Code Description Weight
02300 S/Slim Adj. Prop Jack (L.H. Thread) 12.41 kg02301 S/Slim Adj. Prop Jack (R.H. Thread) 12.41 kg
Allowable Working Load ± 100 kN
225
51 O/D
25 dia.
310
176
8
50
405 min.to 635 max.
4 No. 18 dia.holes
90
30
Used in pairs to provide length adjustment to Push Pull Props.
1.2.44. Components: Nuts, Bolts and Set Pins
Code Description Weight
01807 M16 x 40mm H.T Set Pin 0.08 kg01811 M16 x 110 8.8 Bolt plated 0.20 kg01816 M16 x 40 H.T CSK Set Pin ZP 0.07 kg01832 M16 Hex Nut 0.03 kg01833 M20 Hex Nut 0.06 kg01834 M24 Hex Nut 0.08 kg01747 M20 x 90 Bolt with Nut 0.36 kg01759 M24 x 110 H.T Bolt 0.55 kg05432 M20 High Yield Pin 0.40 kg02307 S/Slim Pivot Tube Clip 0.03 kg
M16 x 40mm H.T. Set PinFor general use to connect the end plates ofSoldiers and accessories
M16 x 40 HT CSK Set Pin ZPFor use with Half Couplers and Anchor Plates
Hex Nuts Grade 8.8
M16 x 110 8.8 Bolt PlatedFor use with Joint Stiffeners andWaling Clamp Plates
11040
40 O/A
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ENGINEERING
Spec: Euro. 10/2001 Issue A Further info: ☎ +44 (0)1922 743743
SUPER SLIMS O L D I E R S Y S T E M
© The information contained within these data sheets remains the property ofRMD Kwikform and is not to be altered or reproduced without written permission.RMD Kwikform reserves the right to change any specification without giving prior notice.COMPONENTS
Sheet: 39
135
170
Super Slim Pivot Tube Clip
M20 x 90mm Bolt with NutFor use with Lifting Plate, Plumbing Footand Turnbuckle
90
M20 High Yield Pin and Super Slim Pivot Tube ClipUsed instead of a bolt for connection to the 21mmdia. holes in a Super Slim or Megashor.AWL in double shear 54 kN in Super Slim, 100 kN inMegashor
M24 x 110mm Bolt For use with Tilt Plates and Push Pull Props
M16 M20 M24
110
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