US Code Stresses - CAESAR II - Installation

CAESAR II Quick Reference (2019 Service Pack 1)

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CAESAR II
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Installation & Upgrade
CAESAR II Version
11.0 (2019)

The US code-based stress equations and load case labels used by CAESAR II for actual and allowable stresses are shown below.

The load case recommendations made by CAESAR II are usually sufficient for code compliance. CAESAR II does not recommend occasional load cases. Occasional loads are unknown in origin and you must specify them.

Code Equation

Allowable

Load Type

Longitudinal Pressure Stress - Slp

Slp = PDo / 4tn

Code approximation

Slp = PDi2 / (Do2 - Di2)

Code exact equation (CAESAR II Default)

Operating Stress – unless otherwise specified

S = Slp + Fax/Am + Sb

N/A

B31.1

Sl = Slp + 0.75iMa/Z

< Sh

SUS

Se = iMc/Z

< f[1.25(Sc + Sh) - Sl]

EXP

Slp + 0.75iMa / Z + 0.75iMb / Z

< kSh

OCC

B31.3

SL = [(Ia (|Slp + Fax / Ap|) +Sb)2 + 4St2]1/2

Where:
Sb = [(liMi)2 + (loMo)2]1/2 / Z

Where:
Z is the corroded section modulus

For reduced outlet connections, use Ze instead of Z if you do not specify bending in/out-plane SIFs (ii and io) or index (li and lo). Use Z if you specify bending in/out-of-plane SIFs or index.

St = ltMt / 2Z

< Sh

< 1.33Sh

SUS

OCC

Se = [(|iaFax/Ap| +Sb)2 + 4St2]1/2

Sb = [(iiMi)2 + (ioMo)2]1/2 / Z

Where:
Z is the section modulus computed from nominal dimensions (not corroded).

For reduced outlet connections, use Ze instead of Z if you do not specify bending in/out-plane SIFs (ii and io) or index (li and lo). Use Z if you specify bending in/out-of-plane SIFs or index.

St = itMt / 2Z

< f [1.25(Sc + Sh) - SL]

EXP

B31.3 Chapter IX

SL = [(Ia (|Slp + Fax / Ap|) +Sb)2 + 4St2]1/2

Where:
Sb = [(liMi)2 + (loMo)2]1/2 / Z

Where:
Z is the corroded section modulus

For reduced outlet connections, use Ze instead of Z if you do not specify bending in/out-plane SIFs (ii and io) or index (li and lo). Use Z if you specify bending in/out-of-plane SIFs or index.

St = ltMt / 2Z

< Sh

< 1.2Sh

SUS

OCC

Se = [(ia (|Slp + Fax / Ap|) +Sb)2 + 4St2]1/2

Sb = [(iiMi)2 + (ioMo)2]1/2 / Z

Where:
Z is the section modulus computed from nominal dimensions (not corroded).

For reduced outlet connections, use Ze instead of Z if you do not specify bending in/out-plane SIFs (ii and io) or index (li and lo). Use Z if you specify bending in/out-of-plane SIFs or index.

St = itMt / 2Z

< 1.25Sc + 0.25 Sh

EXP

ASME SECT III CLASS 2 & 3

Sl =[B1PmaxDo / 2tn] + B2Ma / Z

< 1.5Sh

SUS

Se =iMc/Z

< f(1.25Sc + 0.25Sh) + (Sh - Sl)

EXP

B1Slpmax + B2(Ma + Mb) / Z

< 1.8Sh and < 1.5Sy

OCC

B31.1 (1967) and Navy Section 505

Sl = Slp + (Sb2 + 4St2)1/2

< Sh

SUS

Se = (Sb2 + 4St2)1/2

< f[1.25Sc + 0.25Sh +(Sh – Sl)]

EXP

Slp + (Sb2 + 4St2)1/2

< kSh

OCC

B31.4

Fully Restrained Pipe (B31.4/R)

Hoop:
Shoop = Pi D/2t (for D/t ³ 20)

or

Shoop = Pi (D-t)/2t (for D/t < 20)

< 0.72 ESy
(where E is the weld joint factor)

SUS, OPE, OCC

Expansion: SE = Ea(T1 − T2)

< 0.9 Sy

EXP

Longitudinal:
SL = SE + nSH + Sb+ Fa/A
where
Sb = [(Mi2 + Mo2)1/2]/Z

< 0.9 Sy

SUS, OPE, OCC

Equivalent Combined:
Seq = [(SL − SH)2 + 4St2]1/2

or

Seq = (SH2 − SHSL + SL2 + 3St2)1/2
where
St = Mt/2Z

< 0.9 Sy

SUS, OCC, OPE

Fully Above Ground, Unrestrained Pipe (B31.4/U)

Hoop:
Shoop = Pi D/2t (for D/t ³ 20)

or

Shoop = Pi (D-t)/2t (for D/t < 20)

< 0.72 ESy
(where E is the weld joint factor)

<0.90Sy when defined as Hydro (HYD)

SUS, OCC, HYD

Expansion:
SE = (Sb2 + 4St2)1/2
where
Sb = {[(iiMi)2 + (ioMo)2]1/2}/Z
St = Mt/2Z

f[1.25(Sc + Sh) - SL]

Sc and Sh are 2/3Sy.

EXP

Longitudinal:
SL = PiD/4t + Sb + Fa/A
where
Sb = {[(iiMi)2 + (ioMo)2]1/2}/Z

< .75Sy

< .80Sy when defined as Occasional (OCC)

SUS, OCC, HYD

Equivalent Combined

Not used

Riser and Platform for Inland Waterways (B31.4/W)

Hoop:
Shoop = Pi D/2t (for D/t ³ 20)

or

Shoop = Pi (D-t)/2t (for D/t < 20)

< 0.6 ESy
(where E is the weld joint factor)

<0.90Sy when defined as Hydro (HYD)

SUS, OCC, HYD

Expansion:
SE = (Sb2 + 4St2)1/2
where
Sb = {[(iiMi)2 + (ioMo)2]1/2}/Z
St = Mt/2Z

< 0.8 Sy

EXP

Longitudinal:
SL = PiD/4t + Sb + Fa/A
where
Sb = {[(iiMi)2 + (ioMo)2]1/2}/Z

< 0.8 Sy

< 0.90Sy when defined as Occasional (OCC)

SUS, OCC, HYD

Equivalent Combined

Not used

When more than one stress evaluation is used, such as checking both hoop stress and longitudinal stress, CAESAR II reports the stress pair producing the largest calculated stress/allowable stress ratio.

B31.4 Chapter IX (Offshore)

Hoop:

Shoop = (Pi – Pe )D/2t (for D/t ³ 20)

< F1Sy

OPE, SUS, OCC

or

Shoop = (Pi – Pe )(D-t)/2t (for D/t < 20)

< 0.9Sy

HYD

Longitudinal:

SL = Slp + Sb +Fa/A

< 0.8Sy

OPE, SUS, OCC

where
Slp = (PiRi2 - PeRo2)/(Ro2 - Ri2)
Sb = [(iiMi)2 + (ioMo)2]1/2/Z

< 0.9Sy

HYD

Equivalent Combined:

Seq = [(SL – SH)2 + 4St2]1/2

or

Seq = (SH2 - SHSL + SL2 + 3St2)1/2
where
St = Mt/2Z

< 0.9Sy

OPE, SUS, OCC, HYD

When more than one stress evaluation is used, such as checking both hoop stress and longitudinal stress, CAESAR II reports the stress pair producing the largest calculated stress/allowable stress ratio.

B31.4 Chapter XI (Slurry Pipes)

Fully Restrained Pipe (B31.4 Ch XI/R)

Hoop:
Shoop = Pi D/2t (for D/t ³ 20)

or

Shoop = Pi (D-t)/2t (for D/t < 20)

< 0.80 ESy
(where E is the weld joint factor)

SUS, OCC, OPE

Expansion:
SE = Ea(T1 − T2)

< 0.9 Sy

EXP

Longitudinal:
SL = SE + nSH + Sb+ Fa/A
where
Sb = [(Mi2 + Mo2)1/2]/Z

< 0.9 Sy

< 0.88 Sy when defined as Occasional (OCC)

SUS, OPE, OCC

Equivalent Combined:
Seq = [(SL − SH)2 + 4St2]1/2

or

Seq = (SH2 − SHSL + SL2 + 3St2)1/2
where
St = Mt/2Z

< 0.9 Sy

SUS, OCC, OPE

Fully Above Ground, Unrestrained Pipe (B31.4 Ch XI/U)

Hoop:
Shoop = Pi D/2t (for D/t ³ 20)

or

Shoop = Pi (D-t)/2t (for D/t < 20)

< 0.80 ESy
(where E is the weld joint factor)

<0.90Sy when defined as Hydro (HYD)

SUS, OCC, HYD

Expansion:
SE = (Sb2 + 4St2)1/2
where
Sb = {[(iiMi)2 + (ioMo)2]1/2}/Z
St = Mt/2Z

f[1.25(Sc + Sh) - SL]

Sc and Sh are 2/3Sy

EXP

Longitudinal:
SL = PiD/4t + Sb + Fa/A
where
Sb = {[(iiMi)2 + (ioMo)2]1/2}/Z

< .75Sy

< .88Sy when defined as occasional (OCC)

SUS, OCC, HYD

Equivalent Combined

Not used

When more than one stress evaluation is used, such as checking both hoop stress and longitudinal stress, CAESAR II reports the stress pair producing the largest calculated stress/allowable stress ratio.

B31.5

Sl = Slp + Fax/Am +Sb

< Sh

SUS

(Sb2 + 4St2)1/2

< f[1.25(Sc + Sh) – Sl]

EXP

Fax/Am + Sb + Slp

< kSh

OCC

Sb = {[(iiMi)2 + (ioMo)2]1/2} / Z

B31.8

Restrained Pipe

Longitudinal:

SL = Slp + Sb + Sa

< 0.9TSy

SUS, OPE, OCC

CAESAR II includes the thermal effect in Sa

Equivalent Combined:

Seq = max[ |Shoop - SL| , |Shoop| , |SL| ]

< 0.9TSy

SUS, OPE

< kTSy

OCC

or

Seq = (SL2 - SLShoop + Shoop2)1/2

< 0.9TSy

SUS, OPE

< kTSy

OCC

The equivalent combined stress is valid for straight sections of pipe only.

Unrestrained Pipe

Longitudinal:

SL = Slp + Sb + Sa

< 0.75TSy

SUS, OCC

< 0.75Sy

HYD

Expansion:

SE = ME/Z

< f[1.25(Sc + Sh) - SL]

where
Sc = 0.33SU
Sh = 0.33TSU

EXP

Where:

Shoop = PDo/2t

Slp = 0.3Shoop

Slp = 0.5Shoop

Restrained Pipe

Unrestrained Pipe

Sa = Fax/Am

Mb = [(0.75iiMi)2+(0.75ioMo)2]1/2

MR = [(0.75iiMi)2+(0.75ioMo)2 + Mt2]1/2

Sb = Mb/Z

Sb = MR/Z

Straight pipe

Fittings and components

ME = [(iiMi)2+(ioMo)2 + Mt2]1/2

B31.8 Chapter VIII

Hoop Stress:

Shoop = (Pi – Pe)D/2t

< F1SyT

OPE, SUS, OCC

Longitudinal: |SL|

SL = SLP + Fax/AM + Sb

Where:

SLP = (Pi * Ri2 - Pe * Ro2) / (Ro2 - Ri2)

Sb = {[(iiMi)2 + (ioMo)2]1/2}/Z

< 0.8Sy

OPE, SUS, OCC

Equivalent:

Se = 2{[(SL – Shoop)/2]2 + Ss2}1/2

< 0.9Sy

OPE, SUS, OCC

Where:

F1 = Hoop Stress Design Factor (Table A842.22)

T = Temp. Derating Factor (Table 841.116A)

The Temperature Derating Factor (T) value must be typed in the SH field in the CAESAR II Input.

GPTC

Slp + 0.75iMa / Z

< Sy

OPE

Slp + Sb

< 0.75SyFt

SUS

(Sb2 + 4St2)1/2

< 0.72Sy

EXP