Download - ASME Edmonton Jan 2016
ASME Edmonton
CodeCAD Inc.Jim Wilcox, P.Eng.
January 12, 2016
“Issues to keep in mind for Stress Analysis”
Software sales, support & training
Intergraph (COADE) CAESAR II, PV Elite, CADWorx, TANK, GT STRUDL
Paulin Research Group FE/Pipe, NozzlePro, FEA Tools
Applied Flow Technology Fathom, Arrow, Impulse
About CodeCAD Inc.
Overview Pipe stress software has limitations
Beam theory has limits to its applicability
Accuracy of pipe stress analysis depends on the accuracy of the model
Accurate input
Boundary conditions
System stiffness properties – components, restraints
Current piping codes are based on 1950’s technology Errors in B31 piping codes for over 30 years.
Additional research required.
Research done, improvements to the codes are happening now.
Beam Theory Simply applying beam equations
No buckling
No changes in component stiffness
No local stress considerations
[K]{d}={F}
Stiffness properties matter
Beam Theory
Beam Theory
Accuracy Accurate input
Boundary conditions
System stiffness properties
Accuracy
3000 BC – Mesopotamia: Baked clay pipe for water distribution– China: Bamboo pipes carry water or gas– Egypt: copper sheets hammered into cylinders used
as water pipes1652 – First US water works in Boston1738 – Bernoulli publishes “Hydrodynamica”1808 – First steam boat, 150 psi steam, 4 mph1817 – Philadelphia city council recommends safety valves on
ship boilers1830 – Franklin Institute investigates steam boiler explosions1865 – Steamship Sultana explodes, killing 1800 returning
prisoners of war1903 – Metallographic analysis of stages of fatigue failure1905 – Explosion in a Massachusetts shoe factory kills 581908 – Massachusetts enacts first boiler construction law
History of Piping Codes
1911 – First ASME committee for boilers and vessels1915 – Power Piping Society 1st national code for piping1926 – First meeting of “Project B31” committee1942 – ASME B31 “American Standard Code for power piping”1955 – B31 code splits into separate books1955 – Markl’s thermal expansion formula introduced in B31.11957 – First computerized analysis of piping systems1959 – First publication of B31.31987 – WRC 329 recommends changes: B31.1, B31.3 &
ASME III Class 2 & 3 piping2004 – B31.3 implements Appendix P, f > 1 . 02010 – B31.3 specifies Sustained stress calculation2012 – B31.3 revises Expansion stress calculation2015 – ASME publishes STP-PT 073 / “More Applicable Data”
History of Piping Codes
History of SIFs
Markl fatigue testing:
History of SIFs
Current B31.3 SIFs
History of SIFs and “k” Factors
Late 1940’s: A.R.C. Markl of Tube Turns leads the effort to develop geometry-based multipliers for component flexibility and stress.
1981: R.W. Schneider (formerly of Bonney Forge) notifies ASME of the non-conservative SIF for reduced outlet tees.
1987: In response to Schneider’s conclusions, E.C. Rodabaugh authors WRC Bulletin 329 (Dec. 1987) – “Accuracy of Stress Intensification Factors for Branch Connections”. (Rodabaugh worked with Markl on the original tests in the late 1940’s.)
2007: A.W. Paulin starts an ASME project to realign stress intensification factors between the Code Books (ASME ST-LLC 07-02 and ASME STP-PT 073).
2012: Paulin updates B31J to accommodate ASME Scope change to include k-factors, and sustained stress indices, along with the most currently applicable data for SIFs in piping systems.
Current Piping Codes Still Use Old Conclusions
In an Effort to Permit Improvement …
The Codes permit “more applicable data” to be used so that Engineers can address: Inaccuracies in the Codes and Standards Assumptions made by the Codes and Standards More recent works and studies
WRC 329 Identifies Several Problems with Existing Codes
– p.28 “The Mob tests indicate that there is a peak somewhere around 0.75.” [d/D=0.75]
In an Effort to Permit Improvement …
This note (below) from B31.3 Appendix D alerts the user to possible non-conservative results when using Code rules.
WRC 329 Identifies Several Problems with Existing Codes
p. 22 “For run moments on branch connections with small r/R, both intuition and Ref. 26 data indicate that the B31.3 relationship ii = 0.75io + 0.25 is at best, reversed in relative magnitude of iir and ior, … and in effect, [the] Code requirements are obviously silly.”
WRC 329 Identifies Several Problems with Existing Codes
Tony Paulin, P.E.
Paulin Research Group
ASME STP-PT073 Project Conclusions
Flexibilities for header and branch are necessary:(current Piping Codes assume rigid branch connections).
Separate SIFs are provided for header and branch:(current Piping Codes use the same SIF for both header & branch).
SIFs are given for in-plane, out-plane and torsion:(Power Codes don’t differentiate between in-plane and out-plane, and Process Codes don’t intensify torsion).
The revised SIF & “k-factor” equations include the branch diameter and thickness, as well as the pad thickness (if specified). So the ratio of branch size to header size is accounted for.
ASME STP PT 073Alignment of Stress Intensification and Flexibility FactorsPaulin Research Group
ASME STP-PT073 (formerly ST-LLC 07-02)
Align Stress Intensification and Flexibility FactorsPaulin Research Group
FEA Toolso Corrects well known SIF errors using FEA or STP-PT073o Provides k-factors using FEA or STP-PT073o Provides SSI values o CAESAR II file conversion utilityo CAESAR II results comparison toolo Other utilities not related to this talk….