PRCI PR 3805 RSTRENG Flow Stress

Calculate PR-3-805 RSTRENG flow stress from SMYS and SMTS.

Flow stress can be calculated by three methods

Sf = 1.1 x SMYS (Plain Carbon Steel T < 120 C and Sf < SMTS) original ASME B31G
Sf = SMYS + 69 MPA (SMYS ≤ 483 MPa, T < 120 C and Sf < SMTS) RSTRENG
Sf = (SYT + SUT) / 2 (SMYS ≤ 551 MPa) modified ASME B31G

SYT and SUT are the temperature derated yield stress and tensile stress for temperatures above 120 C. The derating factors are valid up to 232 C (450 F). Material specific stress data should be used if it is available.

Reference : PRCI, Pipeline Research Committee Project, PR-3-805, “A Modified Criterion for Evaluating the Remaining Strength of Corroded Pipe,” December 22, 1989, PRCI PR-3-805 (R-STRENG) With RSTRENG Disk.

Change Module :

PRCI PR 3805 RSTRENG Calculation Module
PRCI PR 3805 RSTRENG Level 1 0.85 RSTRENG Calculation Module
PRCI PR 3805 RSTRENG Level 2 RSTRENG Method Calculation Module
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ASME B31.1 Power Piping Allowable Stress Calculation Module
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ASME B31.5 Refrigeration Piping Allowable Stress Calculation Module
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Links : ±

CALCULATOR : PR-3-805 RSTRENG Derated Yield Stress and Tensile Stress [FREE] ±

Calculate the derated yield stress, ultimate stress and flow stress for steel pipelines operating above 120 C for PR-3805 RSTRENG.

Derating is calculated according to ASME B31.8. The derating factors are valid upto 232 C (450 F) only. For temperatures above 232 C (450 F) use material specific data. The derating factor is assumed to be valid for yield stress and tensile stress.

Reference : ANSI/ASME B31.8 : Gas Transmission And Distribution Piping Systems : section 841.1 table 841.1.8-1

Tool Input

syutype : Stress Table Type
mattype : Material Type
- SMYSu : User Defined Specified Minimum Yield Stress
- SMTSu : User Defined Specified Minimum Tensile Stress
tfactype : Temperature Derating Factor Type
- Td : Design Temperature
- Tu : User Defined Temperature Derating Factor

Tool Output

SMTS : Specified Minimum Tensile Stress
SMTS/SMYS : Tensile Stress Over Yield Stress Ratio
SMYS : Specified Minimum Yield Stress
SMYS/SMTS : Yield Stress Over Tensile Stress Ratio
Su : Derated Tensile Stress
Sy : Derated Yield Stress
T : Temperature Derating Factor

CALCULATOR : PR-3-805 RSTRENG Pipe Diameter And Wall Thickness Schedule [FREE] ±

Calculate pipe nominal wall thickness and diameter for RSTRENG.

The nominal pipe diameter and wall thickness or the measured pipe diameter and wall thickness can be used for the RSTRENG checks.

Tool Input

schdtype : Schedule Type
diamtype : Diameter Type
- ODu : User Defined Outside Diameter
- IDu : User Defined Inside Diameter
wtntype : Wall Thickness Type
- tnu : User Defined Wall Thickness
ttoltype : Wall Thickness Fabrication Tolerance Type
- txu : User Defined Negative Wall Thickness Fraction
- tfu : User Defined Negative Wall Thickness Allowance
c : Wall Thickness Corrosion Allowance

Tool Output

ID : Nominal Inside Diameter
OD : Nominal Outside Diameter
OD/tn : Diameter Over Wall Thickness Ratio
tf : Wall Thickness Fabrication Allowance
tm : Minimum Wall Thickness
tn : Nominal Wall Thickness
tp : Pressure Design Wall Thickness
tx : Wall Thickness Fabrication Fraction

CALCULATOR : PR-3-805 RSTRENG Flow Stress [FREE] ±

Calculate the flow stress from SMYS and SMTS for RSTRENG.

For temperatures above 120 C the yield stress and tensile stress should be derated. The derating factors are valid upto 232 C (450 F) only. For temperatures above 232 C (450 F) use material specific data. The derating factor is assumed to be valid for yield stress and tensile stress.

Reference : ANSI/ASME B31.8 : Gas Transmission And Distribution Piping Systems : section 841.1 table 841.1.8-1

Tool Input

syutype : Stress Table Type
mattype : Material Type
- SMYSu : User Defined Specified Minimum Yield Stress
- SMTSu : User Defined Specified Minimum Tensile Stress
tfactype : Temperature Derating Factor Type
- Td : Design Temperature
- Tu : User Defined Temperature Reduction Factor
sflowtype : Flow Stress Type
- Sfu : User Defined Flow Stress

Tool Output

SMTS : Specified Minimum Tensile Stress
SMTS/SMYS : Tensile Stress Over Yield Stress Ratio
SMYS : Specified Minimum Yield Stress
SMYS/SMTS : Yield Stress Over Tensile Stress Ratio
Sf : Flow Stress
Su : Derated Tensile Stress
Sy : Derated Yield Stress
T : Temperature Derating Factor