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• The IPEIA Conference began over 20 ago years and has become an internationally recognized annual. January 02 2018 • The conference provides an outstanding international technical forum for participants to further. January 02 2018 • Entering its ninth year in 2018, the world-class CanWeld Conference & Expo will feature even.

Make 2D & 3D Welding Simulation Easier using the Abaqus. The Abaqus Welding Interface. And 3D welding models from within Abaqus/CAE, such as weld. Abaqus Unified FEA is the leading finite element. Diagnose, and visualize advanced Abaqus analyses. The intuitive interface. Or crack propagation in.

Murali received his Masters in Engineering Mechanics from Indian Institute of Technology, Chennai (India) and PhD in Computational Mechanics from Rensselaer Polytechnic Institute, Troy, New York. He has over twenty years of experience in theoretical and applied FEA, and has co-authored publications and presentations in the field. His areas of technical expertise include advanced material models, composites, fracture and fatigue (including XFEM) and Abaqus User Subroutines. Mike Shubert, SIMULIA Expert Solution Consultant, SIMULIA South Mike finished Masters Degree from University of Colorado in 1991, and has worked for DS for 25 years since that time. He started in support then worked briefly in the Explicit dynamics group before moving to the Abaqus/CAE development group where he spent 6 years until he moved to the Texas office.

Resulting from the welding process.This eSeminar is appropriate for both academic and commercial audience. Murali Pandheeradi, SIMULIA Director, Technical Sales, SIMULIA Great Lakes Murali Pandheeradi is a Technical Sales Director and Technical Expert located in the Cleveland office of SIMULIA Great Lakes. He has been with the organization for over 13 years.

Abaqus has always been a software of choice for modeling welding in various industries. Will highlight the capabilities of the Abaqus Welding Interface (AWI), including some recent enhancements that make realistic simulation of the welding process possible in. The places an emphasis on the ease of weld model preparation and setup while supporting options and features that allow realistic predictions of quantities of interest such as distortion and residual stresses. A flux-based energy input option using the Goldak double ellipsoid model is now available for use with the AWI. Another significant enhancement takes advantage of the new, strain-free element activation technique developed by SIMULIA R&D that has applicability in many important areas, including welding. This new technique improves pre-processing and analysis performance significantly for models of processes involving material deposition such as welding and additive manufacturing. As a result, strain-free element activation is no longer a step-dependent feature.

Weld sequence optimization with Abaqus Welding Interface Join us at the Simulia technology day in Toronto Oct 18, 2017 August 15 2017 Mahyar Asadi will present on the following: Welding engineering is among one of the complex fields that has historically relied on the past experience of welding engineers. In the modern age, high power computing platforms for simulation and weld modeling enables welding engineers to explore complex welding and weld design parameters when presented with different scenarios on how to proceed with a given welding problem.

The Plug-In then creates all the required analysis steps with appropriate data, builds the entire thermal model followed by the automatic generation of the corresponding mechanical model for thermal stress analysis. The AWI is freely available and does not require licensing. Please contact the or regional offices for information on how to obtain the plugin.

I am using the ABAQUS Welding Interface. When I run the analysis, as the weld is deposited, the elements heat up to prescribed 1500degC, however close to the heat application, some elements go down to -140 degC. Over the entire analysis, the -140 degC increases and at the end of the analysis reaches 21degC.

January 02 2018 • Mahyar Asadi will. August 15 2017 • Mahyar Assadi will present his work on simulation & engineering to investigate & predict. August 15 2017.

UPDATE: I removed all temp dependent properties as a test and still has a similar result with elements dropping below the pre-defined field. UPDATE 2: I noticed my temp dependent properties went up to 1400 degC but temp application of 1500 degC. I applied temp of 1400deg C but still same results with elements dropping below pre-defined temperature field. RE: ABAQUS Welding Interface - Minimum Temperature less than Predefined Field (Mechanical).

14:00 - 15:00 GMT 15:00 - 16:00 CET Abaqus has always been a software of choice for modeling welding in various industries.This eSeminar will highlight the capabilities of Abaqus Welding Interface (AWI), including some recent enhancements that make realistic simulation of welding process possible in Abaqus. AWI places an emphasis on the ease of weld model preparation and setup while supporting options and features that allow realistic predictions of quantities of interest such as distortion and residual stresses. A flux-based energy input option using the Goldak double ellipsoid model is now available for use with the AWI. Another significant enhancement takes advantage of the new, strain-free element activation technique developed by SIMULIA R&D that has applicability in many important areas including welding.

For the last 12 years he has worked at the South office in Texas working on scripting and customization of Abaqus/CAE.

The main theme of this talk presents industrial projects where these services helped clients to define an optimal design envelope with a clear understanding of the correlation between large numbers of design parameters. An example will be presented for an interactive welding design of a large structure for optimal fixture, tack weld, strong back, and sequence design where extremely tight dimensional tolerances were required. Another example shows how the capability of modeling and simulation helped weld engineers for critical assessment of a series of cracked welds. A third example will be on the assessment of retrofit options, for a welded structure containing cracks that developed after initial welding. These cases will present how weld engineers can be enabled to develop creative options when developing a solution to welding problems using computational welding models.

Presenter Murali Pandheeradi, SIMULIA Director, Technical Sales, SIMULIA Great Lakes Murali Pandheeradi is a Technical Sales Director and Technical Expert located in the Cleveland office of SIMULIA Great Lakes. He has been with the organization for over 13 years. Murali received his Masters in Engineering Mechanics from Indian Institute of Technology, Chennai (India) and PhD in Computational Mechanics from Rensselaer Polytechnic Institute, Troy, New York. He has over twenty years of experience in theoretical and applied FEA, and has co-authored publications and presentations in the field. His areas of technical expertise include advanced material models, composites, fracture and fatigue (including XFEM) and Abaqus User Subroutines. To see the full replay, to the SIMULIA Learning Community¹.

¹If you’re accessing the SIMULIA Learning Community for the first time, you’ll be asked to create an account. It’s easy and it’s free—all you need to sign up is a valid email address! Arthi joined Dassault Systemes in 2008. She is a Marketing Specialist for SIMULIA and handles the global eSeminar program. Arthi works closely with various departments to identify the best technologies & products to highlight across the globe in the form of short eSeminars. The aim is to help SIMULIA users better utilize its portfolio of products.

This new technique improves preprocessing and analysis performance significantly for models of processes involving material deposition such as welding and additive manufacturing, with strain-free element activation no longer a step-dependent feature. Who should attend the eSeminar? This eSeminar would be of interest to anyone using (or considering using) the power of simulation as a cost-effective alternative to costly experimental trial-and-error approach to understand distortion, residual stresses etc.

As a member of the SIMULIA India team, Arthi is also responsible for the brand's regional marketing efforts like the India Regional User Meeting. She also works with other SIMULIA offices in Asia to enable effective communication and consistent branding.

I am using the ABAQUS Welding Interface. When I run the analysis, as the weld is deposited, the elements heat up to prescribed 1500degC, however close to the heat application, some elements go down to -140 degC. Over the entire analysis, the -140 degC increases and at the end of the analysis reaches 21degC. Similarly heated elements start at 1500degC and reach 21degC at the end as prescribed.

Could it be the mesh is not fine enough? See attached. UPDATE: I removed all temp dependent properties as a test and still has a similar result with elements dropping below the pre-defined field.

The Abaqus Unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications. For example, in the automotive industry engineering work groups can consider full vehicle loads, dynamic vibration, multibody systems, impact/crash, nonlinear static, thermal coupling, and acoustic-structural coupling using a common model data structure and integrated solver technology.

Denmark pressure cooker user manual. Similarly heated elements start at 1500degC and reach 21degC at the end as prescribed. The heat transfer through the body is definitely affected by the -140degC. All predefined fields are set to 21.1 degC including initial base temperature. Temperature dependent properties, constants, etc are all dimensionally consistent. Could it be the mesh is not fine enough? See attached.

The heat transfer through the body is definitely affected by the -140degC. All predefined fields are set to 21.1 degC including initial base temperature. Temperature dependent properties, constants, etc are all dimensionally consistent.

UPDATE 2: I noticed my temp dependent properties went up to 1400 degC but temp application of 1500 degC. I applied temp of 1400deg C but still same results with elements dropping below pre-defined temperature field. RE: ABAQUS Welding Interface - Minimum Temperature less than Predefined Field (Mechanical).

August 20, 2015 Welding simulations are complex, requiring accurate representation of geometry, multiple weld passes, non-linear temperature dependent material properties, thermal and structural boundary conditions, and more. To capture all of these details, significant user effort is required. While analysis capabilities for modelling welding processes have always been in Abaqus, the setup of weld models – especially the pre-processing – remains a time-consuming part of the workflow. The Abaqus Welding Interface Plug-In (AWI) enables an easy, efficient, model-tree based approach to the setup all aspects of 2D and 3D welding models from within Abaqus/CAE, such as weld beads, weld passes, film loads, and radiation loads etc.