I wanted to open up a discussion around a gap I’ve noticed in conventional pipeline stress analysis tools like **CAESAR II** and **Simflex**, particularly when dealing with **elastic bends (EBs)** in flowline or long pipeline routes.
In practical pipeline design—especially in surface-laid flowlines and cross-country pipelines—**elastic bends are a common and intentional feature**. However, tools like CAESAR II:
Do not explicitly identify or model **elastic bends** unless modeled as a sequence of straight segments.
Do not offer any warning if the **minimum bend radius** has been breached.
Ignore **strain levels** and **residual stress** resulting from cold bends or natural pipe curvature.
Focus entirely on beam-element stress compliance (code stress, expansion, etc.) while **geometric strain control is left to the user**.
Simflex does better in terms of a **chainage/bearing-based alignment interface**, but still lacks automatic radius compliance checks.
The input data is already there:
3 consecutive nodes give us enough info to calculate **local radius of curvature**.
Using this, software could:
Warn if the radius is below a user-defined (e.g., 15D or 20D),
Compute **local bending strain** as t/2R,
Flag segments exceeding an allowable strain threshold (say 0.25%),
Optionally visualize curvature hotspots in the 3D model view.
Minimum radius violations are **real-world concerns** that can cause excessive ovality, local buckling, or strain concentration—especially during installation or operational settlement.
CAESAR II gives detailed stress breakdowns but leaves users blind to **geometric non-compliance**, which is ironic given how easy this would be to implement.
Have others encountered issues with **undetected tight elastic bends** during construction or post-installation inspection?
Wouldn't it be practical for CAESAR II / Simflex to include this as a **standard warning or check**?
Any workarounds or custom tools that others use to check local curvature and strain from model geometry?
I’m curious what the broader community thinks. Is this something worth pushing for with Hexagon or software developers? Or have we just become accustomed to handling this outside the software?
Looking forward to your thoughts.
In practical pipeline design—especially in surface-laid flowlines and cross-country pipelines—**elastic bends are a common and intentional feature**. However, tools like CAESAR II:
Do not explicitly identify or model **elastic bends** unless modeled as a sequence of straight segments.
Do not offer any warning if the **minimum bend radius** has been breached.
Ignore **strain levels** and **residual stress** resulting from cold bends or natural pipe curvature.
Focus entirely on beam-element stress compliance (code stress, expansion, etc.) while **geometric strain control is left to the user**.
Simflex does better in terms of a **chainage/bearing-based alignment interface**, but still lacks automatic radius compliance checks.
The input data is already there:
3 consecutive nodes give us enough info to calculate **local radius of curvature**.
Using this, software could:
Warn if the radius is below a user-defined (e.g., 15D or 20D),
Compute **local bending strain** as t/2R,
Flag segments exceeding an allowable strain threshold (say 0.25%),
Optionally visualize curvature hotspots in the 3D model view.
Minimum radius violations are **real-world concerns** that can cause excessive ovality, local buckling, or strain concentration—especially during installation or operational settlement.
CAESAR II gives detailed stress breakdowns but leaves users blind to **geometric non-compliance**, which is ironic given how easy this would be to implement.
Have others encountered issues with **undetected tight elastic bends** during construction or post-installation inspection?
Wouldn't it be practical for CAESAR II / Simflex to include this as a **standard warning or check**?
Any workarounds or custom tools that others use to check local curvature and strain from model geometry?
I’m curious what the broader community thinks. Is this something worth pushing for with Hexagon or software developers? Or have we just become accustomed to handling this outside the software?
Looking forward to your thoughts.
