We provide value-added services
Project Support - Take advantage of our resources & experience!
ASI is committed to providing effective solutions for all of the real-world challenges you will encounter on projects. You can trust in the experience of our highly trained and capable engineering team.
Modeling & Analysis Assistance - ASI may assist you with modeling and analysis challenges such as importing models, complex geometry, etc.
Remote Simulation - If you don't have enough computing power, ASI would be happy to share.
Software Customization - If you have a unique application for Extreme Loading Technology, ASI can create a customized version tailored to your needs.
Full Project Consultation - Don't have the time, manpower or resources for your project? ASI can assist you with full project consultation.
Extreme Loading® for Structures Certified Training
Extreme Loading® for Structures Certified Training is the only official training from Aplied Science Internatiional designed especially for Extreme Loading® for Structures Software (ELS) users. Training centers who display the ELS Certified Training Logo distinguish that their highly qualified trainers have been trained by ASI, with access to ASI Official Training Materials and that their training facility is held to the highest standards. Extreme Loading® for Structures Certified Training include topics such as:
We provide affordable high-end software for daily engineering works
Extreme Loading® for Structures Software
Extreme Loading® for Structures Software or ELS, is an advanced non-linear structural analysis software tool designed specifically for structural engineers. ELS allows structural engineers to study the 3D behavior of structures through both the continuum and discrete stages of loading. This includes static and dynamic loads such as those generated by blast, seismic events, impact, progressive collapse, and wind. Unlike many structural analysis software tools which are based on the Finite Element Method (FEM), ELS utilizes a non-linear solver based on the Applied Element Method (AEM). This allows ELS is to automatically analyze structural behavior during elastic and inelastic modes including the automatic yielding of reinforcement, detection and generation of plastic hinges, buckling & post-buckling, crack propagation, membrane action & P-Delta effect, and separation of elements. The resulting debris and impacts with structural elements are also automatically analyzed and stress redistribution is inherently calculated.