SMTS Specified Minimum Tensile Stress Modules

Calculate ASME B31.3 process piping schedule for metal and plastic piping.

The piping minimum wall thickness and hoop stress wall thickness schedule can be calculated from the nominal wall thickness, fabrication tolerance and corrosion allowance.

`tm = tn - fa `
`tm = (1 - fx) tn `
`t = tm - c `

where :

tn = nominal wall thickness
tm = minimum wall thickness
t = hoop stress wall thickness
c = corrosion thickness allowance
fa = negative fabrication thickness allowance
fx = negative fabrication fraction

The minimum wall thickness equals the nominal wall thickness minus the fabrication allowance. The pressure containment wall thickness equals the nominal wall thickness minus the fabrication tolerance, and minus the corrosion allowance. Fabrication tolerance can be defined by either a fabrication allowance, or a fabrication fraction. The pipe diameter can be defined by either the outside diameter or the inside diameter. Use the Result Table option to display a table of pipe dimensions versus wall thickness, wall tolerance, or piping diameter for metal pipes, or pipe dimension versus wall thickness for plastic pipes.

Calculate metal piping maximum and minimum diameter schedule. Use the Result Table option to display a table of pipe dimensions versus wall thickness, wall tolerance, or piping diameter.

Calculate piping unit mass and joint mass schedule for metal and plastic piping. Use the Result Table option to display a table of pipe dimensions and mass versus wall thickness.

Calculate piping tensile stress, yield stress and allowable schedule for metal piping. Use the Result Table option to display a table of stress versus material type.

Plastic pipe wall thickness can be defined by wall thickness or diameter ratio (DR or IDR). Select standard diameter ratios from the plastic pipe schedule (SDR or SIDR), or use user defined diameter ratios (DR or IDR).

Reference : ANSI/ASME B31.3 : Process Piping (2018)

Change Module :

• ASME B31.3 Process Piping Allowable Bolt Load And Bolt Stress Calculation Module
• ASME B31.3 Process Piping Basic Allowable Stress Calculation Module
• ASME B31.3 Process Piping Bend Calculation Module
• ASME B31.3 Process Piping Blank Flange Calculation Module
• ASME B31.3 Process Piping Branch Reinforcement Calculation Module
• ASME B31.3 Process Piping Design Factor Calculation Module
• ASME B31.3 Process Piping Design Pressure Calculation Module
• ASME B31.3 Process Piping Elastic Modulus Calculation Module
• ASME B31.3 Process Piping Fluid Velocity And Flow Rate Calculation Module
• ASME B31.3 Process Piping Fluid Volume And Mass Calculation Module
• ASME B31.3 Process Piping Hoop Stress Calculation Module
• ASME B31.3 Process Piping Hydrotest Pressure Calculation Module
• ASME B31.3 Process Piping Mass And Weight Calculation Module
• ASME B31.3 Process Piping Minimum Temperature For Impact Testing Calculation Module
• ASME B31.3 Process Piping Plastic Component Calculation Module
• ASME B31.3 Process Piping Stress Factor And Flexibility Calculation Module
• ASME B31.3 Process Piping Thermal Expansion Calculation Module
• ASME B31.3 Process Piping Wall Thickness Calculation Module
• All
• More Pipeline Schedule Modules

Calculate ASME B31.8 gas pipeline temperature derating for onshore and offshore steel pipelines (carbon steel and low alloy steel?). The temperature derating factor is not valid for nickel alloy or stainless steel pipelines.

Reference : ANSI/ASME B31.8 : Gas Transmission And Distribution Piping Systems (2018)

Change Module :

• ASME B31.8 Gas Pipeline Allowable Stress Calculation Module
• ASME B31.8 Gas Pipeline Branch Reinforcement Calculation Module
• ASME B31.8 Gas Pipeline Charpy Toughness Calculation Module
• ASME B31.8 Gas Pipeline Design Pressure Calculation Module
• ASME B31.8 Gas Pipeline Diameter And Wall Thickness Schedule Calculators
• ASME B31.8 Gas Pipeline Fluid Velocity And Flow Rate Calculation Module
• ASME B31.8 Gas Pipeline Fluid Volume And Mass Calculation Module
• ASME B31.8 Gas Pipeline Hoop Stress Calculation Module
• ASME B31.8 Gas Pipeline Hydrotest Pressure Calculation Module
• ASME B31.8 Gas Pipeline Local Pressure Calculation Module
• ASME B31.8 Gas Pipeline Mass And Weight Calculation Module
• ASME B31.8 Gas Pipeline Maximum Allowable Operating Pressure Calculation Module
• ASME B31.8 Gas Pipeline Plastic Component Calculation Module
• ASME B31.8 Gas Pipeline Ripple And Dent Defect Calculation Module
• ASME B31.8 Gas Pipeline Sour Gas Service Calculation Module
• ASME B31.8 Gas Pipeline Stress Factor And Flexibility Calculation Module
• ASME B31.8 Gas Pipeline Wall Thickness Calculation Module
• All
• More Temperature Derating Modules

Calculate pipeline allowable stress from the specified minimum yield stress (SMYS) and the design factor (EF).

The SMYS is calculated from the pipe stress tables (API, ASME or DNV). The design factor equals the quality factor multiplied by the stress factor (EF = E x F). The quality factor (E) can be used to account for either casting defects, or longitudinal weld joint effects. The stress factor (F) is used to account for design risks (for high risks use a low design factor etc). Use the Result Table option to display the results for the selected stress table.

Change Module :

• Lame's Equation Compound Cylinder Or Pipe Calculation Module
• Lame's Equation Thick Wall Pipe Stress Calculation Module
• Pipeline Axial Load Calculation Module
• Pipeline Collapse Pressure Calculation Module
• Pipeline Combined Stress Check Calculation Module
• Pipeline Expansion Spool Calculation Module
• Pipeline Fluid Velocity And Flowrate Calculation Module
• Pipeline Fluid Volume And Mass Calculation Module
• Pipeline Hoop Stress Calculation Module
• Pipeline Local Pressure Calculation Module
• Pipeline Maximum Allowable Design Pressure Calculation Module
• Pipeline Natural Vibration Frequency Calculation Module
• Pipeline Test Pressure Calculation Module
• Pipeline Wall Thickness Calculation Module
• Pipeline Yield Stress And Tensile Stress Calculation Module
• All
• More Allowable Stress Modules

Calculate DNVGL-ST-F101 maximum allowable dent depth.

Reference : DNVGL-ST-F101 : Submarine Pipeline Systems (Download from the DNVGL website)

Change Module :

• DNVGL ST F101 Submarine Pipeline Axial Load Calculation Module
• DNVGL ST F101 Submarine Pipeline Bend Allowable Stress Design (ASD) Calculation Module
• DNVGL ST F101 Submarine Pipeline Carbon Equivalent Calculation Module
• DNVGL ST F101 Submarine Pipeline Collapse Pressure Calculation Module
• DNVGL ST F101 Submarine Pipeline Design Load Effect Calculation Module
• DNVGL ST F101 Submarine Pipeline Design Pressure And Burst Pressure Calculation Module
• DNVGL ST F101 Submarine Pipeline Expansion Spool Calculation Module
• DNVGL ST F101 Submarine Pipeline Flotation Calculation Module
• DNVGL ST F101 Submarine Pipeline Fluid Mass And Volume Calculation Module
• DNVGL ST F101 Submarine Pipeline Fluid Velocity And Flowrate Calculation Module
• DNVGL ST F101 Submarine Pipeline Hoop Stress Calculation Module
• DNVGL ST F101 Submarine Pipeline Hydrotest Pressure Calculation Module
• DNVGL ST F101 Submarine Pipeline Incidental Pressure Calculation Module
• DNVGL ST F101 Submarine Pipeline Line Pipe Schedule Calculation Module
• DNVGL ST F101 Submarine Pipeline Local Buckling Calculation Module
• DNVGL ST F101 Submarine Pipeline Mass And Weight Calculation Module
• DNVGL ST F101 Submarine Pipeline Ovality Calculation Module
• DNVGL ST F101 Submarine Pipeline Temperature Derating Calculation Module
• DNVGL ST F101 Submarine Pipeline Tolerances Calculation Module
• DNVGL ST F101 Submarine Pipeline Transition Length At Code Break Calculation Module
• DNVGL ST F101 Submarine Pipeline Wall Thickness Calculation Module
• All
• More Pipeline Dent Modules

Calculate bolt tensile stress from bolt load.

Select the bolt schedule (UNC, UNF, BSW or ISO), bolt diameter and thread, tensile area type (ANSI threads or ISO threads), and bolt material type (SAE, ISO or ASME). Bolt stress is calculated from the bolt load divided by the tensile stress area. The bolt is assumed to be in tension. The design stress is calculated from the yield stress or proof stress (SMYS).

Use the Result Table option to display a table of bolt stress versus either bolt size or bolt material.

Change Module :

• Bolt Design Load Calculation Module
• Bolt Design Stress And Design Load From Temperature Calculation Module
• Bolt Pitch Diameter From Bolt Size And Thread Calculation Module
• Bolt Tensile Area Calculation Module
• Bolt Torque From Bolt Load Calculation Module
• Flange Bolt Tensile Load Calculation Module
• All

Related Modules :

• Bolt Fatigue Calculators
• More Bolt Modules

Calculate bolt design stress and design load from bolt diameter and yield stress or proof stress.

Bolt load is calculated from the design stress (SAE, ISO or ASME), bolt size (UNC, UNF, BSW or ISO) and the tensile area (ANSI or ISO threads).

Use the Result Table option to display a table of design stress and design load versus either bolt size or bolt material.

Change Module :

• Bolt Design Stress And Design Load From Temperature Calculation Module
• Bolt Pitch Diameter From Bolt Size And Thread Calculation Module
• Bolt Stress From Bolt Load Calculation Module
• Bolt Tensile Area Calculation Module
• Bolt Torque From Bolt Load Calculation Module
• Flange Bolt Tensile Load Calculation Module
• All

Related Modules :

• Bolt Fatigue Calculators
• More Bolt Modules

Calculate DNVGL-RP-C203 allowable number of fatigue cycles for bolts in tension, bolts in shear, and flange bolts.

Bolts are assumed to be in tension. Compressive bolt loads should not be included in the load amplitude. Shear loads should not include reversible loads. The mean stress is not included in the calculation.

Reference : DNVGL-RP-C203 Fatigue Design Of Offshore Steel Structures (Download from the DNVGL website)

Change Module :

• DNVGL RP C203 Accumulated Fatigue Damage Miner's Law Calculation Module
• DNVGL RP C203 Fatigue Stress Amplitude Calculation Module
• DNVGL RP C203 Fatigue Stress Concentration Factor Calculation Module
• DNVGL RP C203 Fatigue Stress Limit Calculation Module
• DNVGL RP C203 Fatigue System Effect Calculation Module
• DNVGL RP C203 Flat Plate Fatigue Stress Calculation Module
• DNVGL RP C203 Mean Stress Factor Calculation Module
• DNVGL RP C203 Pipeline Fatigue Stress Calculation Module
• DNVGL RP C203 SN Curve Calculators
• DNVGL RP C203 Simplified Fatigue Damage Calculation Module
• DNVGL RP C203 Tubular Fatigue Stress Calculation Module
• All

Related Modules :

• Bolt Stress From Bolt Load Calculation Module
• Line Pipe Cross Section Calculation Module
• More Fatigue Damage Modules

Material tensile strength data. Material yield strength, ultimate tensile strength, and elongation.

Related Modules :

• ASME ANSI API Design Factor Data Module
• ASME B31.1 Power Piping Allowable Stress Data Module
• ASME B31.3 Process Piping Allowable Stress Data Module
• ASME B31.5 Refrigeration Piping Allowable Stress Data Module
• DNVGL Design Factor Data Module
• Engineering Stress And Strain Calculation Module
• Material Density And Specific Gravity Data Module
• Material Elastic Modulus And Poisson Ratio Data Module
• Material Heat Transfer And Thermal Capacity Data Module
• Material Thermal Expansion Coefficient Data Module
• More Material Strength Modules

Allowable stress data for ASME B31.1 power piping (Table A US values).

Use the ASME B31.1 allowable stress calculators (see link below) to interpolate the US data values, or to convert the US data values to SI units.

Reference : ANSI/ASME B31.1 : Power Piping

Change Module :

• ASME B31.1 Power Piping Allowable Bolt Stress Data Module
• ASME B31.1 Power Piping Design Factor Data Module
• ASME B31.1 Power Piping Elastic Modulus Data Module
• ASME B31.1 Power Piping Plastic Component Data Module
• ASME B31.1 Power Piping Thermal Expansion Data Module
• All

Related Modules :

• ASME B31.1 Power Piping Allowable Stress Calculation Module
• ASME B31.1 Power Piping Design Pressure Calculation Module
• ASME B31.1 Power Piping Wall Thickness Calculation Module
• ASME B31.3 Process Piping Allowable Stress Data Module
• ASME B31.5 Refrigeration Piping Allowable Stress Data Module
• Material Tensile Strength Data Module
• More Allowable Stress Modules