PLE is the piping and pipeline software for advanced material behaviour and complex failure mechanisms for standard and non-standard verifications and indepth stress-strain assessments. PLE enables you to model above ground piping systems and underground pipelines and networks together in 1 model.
Piping and Pipeline Stress-Strain Assessments
A general applied mechanics-oriented software program with pipeline, soil and water oriented structural elements
PLE combines advanced engineering logic with user-friendly functionality to deliver precise and powerful analysis of underground pipelines. The following key features form the foundation of the software’s value proposition:
1. Comprehensive 3D Geometric Modeling
PLE represents the pipeline using a sequence of straight pipe segments, elastically curved bends, supports, joints, and (T-) connections. It supports complex layouts including branches, loops, and pipe-in-pipe configurations, enabling highly realistic and versatile modeling for even the most intricate pipeline systems.
2. Detailed Definition of Pipe, Soil, Loadings & Boundary Conditions
Each element of the pipeline system—material properties, soil interaction, external and internal loadings, and boundary conditions—can be defined in detail and independently, with full flexibility to vary these characteristics along the pipeline axis. This granular control ensures that the model reflects real-world conditions with high fidelity.
3. Advanced Analysis Methods
PLE supports a wide range of analysis techniques, including linear elastic (an)isotropic and elasto-plastic isotropic pipe materials. Non-linear soil behavior is always taken into account. Users can select between geometric linear and non-linear behavior, define loads with or without design factors, and apply sequential loading scenarios.
4. Dual-Stage Result Reporting
Results are generated using a hybrid Finite Element Method (FEM) in two stages. The first provides longitudinal (beam) behavior such as pipe displacements, internal forces, and soil/external support reactions. The second evaluates cross-sectional behavior, including longitudinal and circumferential stresses and strains, and Hoop stress. This layered approach offers both macro and micro-level insights essential for sound engineering decisions.
We help you with training, online support, consultancy on modelling or custom software development
Pipeline Modelling
Custom Updates
Extensive Module Library
Designed for specific materials, behaviours, and situations
Predefined Packages
User-friendly and ready-to-use solutions
Training
In-house Education & Pipeline Expertise
Helpline
Expert Software Support
Project Support
On-Site Experts & Consultancy
Customer Development
Tailored Modules on Demand
Expert Guidance
Construction Support
Work fields
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Our software is used around the globe
Technical Specials
