steel compliance from the consulting engineer's perspective
TRANSCRIPT
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Steel Compliance –The Consulting Engineers’ Perspective
Mark SheldonTechnical Director
October 2015
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The Compliance of Steelwork in Buildings from the Design Engineer’s viewpoint
What does a consulting engineer do
What doesn’t a consulting engineer do
3 Case Studies
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Offices: 87Countries: 28Employees: 7,000+
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Mark Sheldon – Technical Director, Structural Engineer
• Melbourne Park - Project Director for Margaret Court Arena • Project Director for Simonds Stadium (35,000 seats) – stages 1,2,3 & 4• Cebu Seaside Arena (Concept design for 10,000 seat arena in the
Philippines)• Melbourne Park – Technical Advisor role for National Tennis Centre• Structural Design Leader for Perth Arena (14,000 seats)• MCG Redevelopment (101,000 seats) Design Team Leader• Etihad Stadium (54,000 seats) Structural Design Team Leader• Roof Structure Design Team Leader for 10,000 seat Hisense Arena (incl
retractable roof)• Design Team Leader for concept of 34,000 seat TEDA Soccer Stadium,
Tianjin• Eden Park redevelopment (NZ) concepts and peer review• Team Leader for Delhi 2010 Commonwealth Games Siri Fort and Yamuna
Sports Complexes• MSAC Design Team Leader (Approx 300m x 80m sports indoor complex)• Peer Reviewer for Wembley National Stadium, UK• Designer for 44,000 seat Great Southern Stand, MCG• Specialist input on dynamics - Kuala Lumpur Convention Centre
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Analysis• Spacegass
What Does a Structural Engineer do ?
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Analysis• Spacegass• ETABS
What Does a Structural Engineer do ?
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Analysis• Spacegass• ETABS• Rhino/Grasshopper
What Does a Structural Engineer do ?
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Analysis• Spacegass• ETABS• Rhino/Grasshopper• Strand 7
What Does a Structural Engineer do ?
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Analysis• Spacegass• ETABS• Rhino/G’hopper• Strand 7• Dynamo• RAPT• RAM Concept• Robot• GSA• etc
What Does a Structural Engineer do ?
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What Does a Structural Engineer do ?
Design and Detailing• Determine stresses in members• Select reo size or steel section
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AS4100 states that members and connections shall be proportioned so that:
∗
Where:S* is the design action effectØ is the capacity factorRu is the nominal section or member capacity
Limit state design philosophy
What Does a Structural Engineer do ?
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Capacity factor () accounts for: Variations in material properties
Section and member dimensional tolerances
Fabrication and construction tolerances
Structural modelling inaccuracies
Ductility and reliability requirements
Load factors account for variability of load effects
What Does a Structural Engineer do ?
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Pro
babi
lity
Pro
babi
lity
Pro
babi
lity
Design load effect = Nominal (characteristic) load effect x load factor
Nominal load effect Design load effect
Load effect
Capacity
Design capacity = Nominal (characteristic) capacity x capacity factor
Design capacity Nominal (characteristic) capacity
Probability of failure (shaded area) ~ 0.001
95th
Per
cent
ile
5th
Per
cent
ile
What Does a Structural Engineer do ?
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What Does a Structural Engineer do ?
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What Does a Structural Engineer do ?
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Analysis• Spacegass• ETABS• Rhino/Grasshopper• Strand 7• Dynamo• RAPT• RAM Concept• Robot• GSA• etc• Revit
What Does a Structural Engineer do ?
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2D documentation and detailing
What Does a Structural Engineer do ?
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What Doesn’t a Structural Engineer do ?
Metallurgy
Chemistry
Forensics
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Procurement of Construction Products
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Procurement of Construction Products
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AS4100 ≤ 0.9
ErectionAS 4100
WeldingAS 1554
FabricationAS 4100
TestingAS 1391AS 1554AS 3678
Material supplyAS 1163 – Hollow SectionsAS 3678 – Plate AS 3679 – Open Sections
Australian Standards for steel design have been calibrated for Australian manufactured steels using a suite of Australian Standards. The designer assumes that the material being used on site meets these standards.
What Doesn’t a Structural Engineer do ?
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What Doesn’t a Structural Engineer do ?
The fine print: -
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What Doesn’t a Structural Engineer do ?
The fine print: -
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What Doesn’t a Structural Engineer do ?
The fine print: -
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What Doesn’t a Structural Engineer do ?
The fine print: -
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What Doesn’t a Structural Engineer do ?
The fine print: -
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What Doesn’t a Structural Engineer do ?
The fine print: -
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What Doesn’t a Structural Engineer do ?
The fine print: -
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What Doesn’t a Structural Engineer do ?
The fine print: -
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Project details Australian steel specified
The problem Large hollow sections sourced from offshore Mill certificates provided in Chinese, but incomplete Chemical limit exceeded (apparently)
The outcome NATA certified testing performed in Australia Metallurgist consulted Chemical composition compliant (typo on sheets) Mechanical properties compliant
Steelwork accepted
Project A – Large Building Structure
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Project details Australian steel specified
The problem Non-compliant steel plate identified after site erection completed Plate sourced from overseas had yield strength less than specified Lack of traceability – could not establish which connections were affected
The outcome NATA certified testing performed in Australia Actual yield strength determined Weldability was deemed to be acceptable Risk based assessment – connections involving affected plate were not utilised 100% Plate accepted (slight increase risk of failure)
Project B – Large Building Structure
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Project details ~$2 billion port expansion project 20,000t marine steelwork / 10,000t structural steelwork Steel procured and fabricated in China
The problem Potential steel non-compliance Preliminary design completed to Australian Standards
The outcome Gap analysis between Australian and Chinese standards Compliance testing performed in Australia Design capacity adjustment
Project C – Port expansion
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Pros Potential cost savings ~$50m:
o Local fabrication ~ $5,000-$7,000/to Chinese fabrication ~ $2,000/to Fabrication only (excludes transport)
Potential schedule gains due to increased production rates
Project C – Port expansion
Cons Procurement issues: currency
variation, greater transport and logistic considerations and costs
Quality concerns and subsequent increased QA requirements
Increased schedule risk due to additional QA and/or rejected material
Increased technical/ design considerations
Increased steel tonnage due to member substitution after preliminary design (~8% total)
Pros and cons of using foreign steel
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Project C – Port expansion
Chemical composition
Mechanical properties
Dimensional tolerances
Manufacturing process
Material Supply
AS/NZS 1163 Structural steel hollow sectionsAS/NZS 1594 Hot‐rolled steel flat productsAS/NZS 3678 Structural steel – hot rolled plates…AS/NZS 3679 Structural Steel:
Part 1 – Hot‐rolled bars and sectionsPart 2 ‐ Welded sections
Australian Standards
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Following the gap analysis, supply tolerances remained non-compliant (including angle leg thickness, depth of section).
Options considered: Relax tolerances to Chinese limits and reduce capacity factor; or Reject all steel that does not comply
Reduction in capacity factors chosen as preferred method to mitigate procurement issues and schedule delays, and maintain similar probability of failure.
Project C – Port expansion
Dealing with non-compliance
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Capacities found for:
− Smallest geometry permissible by Australian Standards
− Smallest geometry permissible by Chinese Standards
% decrease in capacity calculated
Used as % decrease in Capacity Factor
Assessment undertaken for various sections and lengths
Project C – Port expansion
Reduction of capacity factors
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Project C – Port expansion
Steel section Capacity factor ()RHS / SHS 0.85
TFC 0.88EA / UA 0.80
CHS 0.81All other sections 0.90
New capacity reduction factors
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Project C – Port expansionP
roba
bilit
y
Design load effect
Load effect and capacity
Design capacity (Australian steel)
Probability of failure (Australian steel)
Probability of failure (Chinese steel)
Design capacity (Chinese steel)
Probability of load effect and capacity
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What Does this all mean ?Non-compliant steelwork can cause real problems such as: Material rejection and rework Project delays Redesign Increased risk of structural failure Insurance claims and litigation
Design documents state that materials must comply with Australian Standards, and the onus is on the Supplier/Contractor to satisfy this requirement.
The design engineer won’t spend hours checking the validity and traceability of the certificates. Structural engineers are not metallurgists.
Third-party certification by a reputable organisation is a wise investment