Static deflection software

Therefore, the models made in the previous stages of the design process can be used to test the possible solution. If necessary, redesigning the parts based on data and test results takes place. Of course, it is also possible to export the models to another simulation software if necessary. Specialised software gives more accurate results and has more functions.

For example, such optimisation is necessary for large-batch production. Over-dimensioning results in unnecessary costs that accumulate with series production.

It includes linear static and non-linear quasi-static situations. Some of the most common scenarios covered by static analysis include linear stress analysis, deformation analysis and thermal analysis. It studies dynamic behaviours under dynamic loads, such as vibrational excitation. It includes modal analysis, harmonic response analysis, transient dynamic analysis and rotodynamic analysis. Examples of dynamic analysis applications include the behaviour of engine components in different stages, such as the startup.

It is also applicable for studying impacts outside the engineering realm. With constant technological advances, it is easier to create more specific solutions with distinct features. The remaining question is — which of them suits you? Highlighting the benefits and possible limitations of each makes it easier for you to choose the best option.

It includes classic CAD features such as parametric modelling, assembly modelling and drawing creation. But it also has more powerful new tools like design automation and automated frame design. This software also allows you to work with sheet metal designs in a separate environment. It also provides great flexibility for visualisation such as exploded views and video animations.

Regarding Finite Element Analysis capabilities, you can easily run static or modal stress analysis and dynamic analysis on your models. The software provides a settings dialog box, a parametric table and a simulation guide to assist you with the simulation process. In addition, Autodesk also offers Inventor Nastran, which they define as a CAD-embedded finite element analysis software.

It is only available when subscribing to their Product Design and Manufacturing Collection. This software should work as an extension to the FEA capabilities provided by Inventor. It includes a wider variety of studies and materials for your analysis. For example, the possibility of running linear and nonlinear stress, dynamics, and heat transfer studies. It prides itself on its design-to-manufacturing capabilities.

Among the main features found within SolidWorks, the possibility to work with large and complex assemblies stands out. It is possible to work on a simple model and scale into a full facility complex. These modules include:. The module comes in three levels: Standard, Professional and Premium. Obviously the latter is the most powerful version and includes:.

In addition, the creator offers complements to SolidWorks Simulation. They range from flow simulation and plastic packages to more specific solutions.

For example, the Electronics Cooling and Sustainability modules provide you with options to validate your design. All of these packages and modules are embedded in the 3D CAD software. Solid Edge is a complete portfolio of product development tools offered by Siemens.

The prominent German company offers tools for mechanical and electrical design, simulation, manufacturing, technical publications, data management and much more. In the latest release of Solid Edge, we can find many new features. These include advanced technologies such as augmented reality and the ability to completely digitalise the design-to-manufacturing process. Another outstanding feature included in Solid Edge is the optimisation for both additive and subtractive manufacturing.

A range of manufacturing processes can be defined and executed, including:. You can do it early in the design process to reduce the need for rapid prototyping and save time and costs. Creo is another well-known company in the design and engineering community. Creo offers scalable 3D CAD product development packages and tools. Those tools feature modelling and design, simulation and analysis, augmented reality and additive manufacturing. In addition to the 3D design capabilities that you may find in any software, Creo offers possibilities for knowledge-based design.

You can utilise real-world product usage data through their Smart Connected Design feature. FEA capabilities in Creo have been scaling over the years. Another component is the Creo Simulation Live tool which provides instant feedback in the modelling environment. Creo Simulation Live is the most remarkable feature, as it puts structural, thermal, and modal analyses into the hands of designers instantly. It is possible to perform simulations without the need to mesh or simplify models.

This technology was created in partnership with one of the most respected names in the engineering software industry, ANSYS. Therefore, Creo has definitely boosted their credibility and reliability in the market. In this software, you can open JBM files containing structural designs and perform both static and dynamic structural analysis.

To perform analysis, it provides a Results tab from where you can perform analysis , view different forces that can be applied to beam structure , and also view the final analysis report. This model analysis option does not show or give any result as it performs all analysis in the background. Apart from analysis result, you can also view visual structural moment , displacement , normal force , and shear force from the Results tab. Besides structural analysis, you can also create simple structural designs using tools like Truss Element , EB beam Element , EBS beam element , add free node , add constraint node , etc.

After creating a beam structure, you can save the final design as JBM file which you can also analyze. Ftool is a free frame analysis software through which you can also analyze beams. A frame is basically a combination of a column and a beam that gives strength to the whole structure. Using this two-dimensional frame analysis software, you can analyze axial force , shear force , bending moment , and other analysis parameters of a beam under different loads.

The process of analyzing the structure is pretty easy in this software. First, import an FTL frame structure file or create a structure using various available structure building tools.

After that, go to the load train options to apply random forces on different parts of the beam structure. Now, click on the Axial force , Shear Force , and Bending Moment icons to get a visual of the forces along with all the numerical values showing the effects of load on the beam. Similar to this, you can also view Load train Envelop results , Diagram results , and Influence line results by clicking on their icons.

To properly analyze each resultant visual diagram and values, you can use Zoom in , Zoom out , Zoom in given rectangle tools , etc. CBA is the next free beam analysis software for Windows. In this software, you can create various different types of beam structures and analyze beam parameters when the beam is under load. In this software, first, you need to create a beam structure. To do that, go to file menu and select Create new beam option and specify the Number of spans number of continuous beams , Length of span length of each beam , Permanent Load , and Live weight.

After filling all these beam structure parameters, press the OK button to get a beam structure. Besides this, load factor and load values can also be modified after making the structure. To analyze beam structure, go to Graph tab and view effects of different forces on the beam at different loads. The final result along with the graph can directly be printed or saved as a PDF file using its Print option. Using this software, you can analyze the effect of loads and forces on both beams and columns.

BeamBoy is another completely free beam analysis software for Windows. Through this software, you can create and analyze beam structure and find out important analysis results such as Moment , Bending Stress , and Deflection. Like many other similar software, it also lets you create a beam structure from the scratch.

However, an option to load a prebuilt beam structure of a. To create a beam structure, you can use the features menu that contains tools like add point load , add distance load , add moment load , etc. Besides this, a dedicated Beam menu is also present using which you can adjust beam properties, namely, moment of inertia , modulus of elasticity , and distance of farthest fiber.

After specifying all necessary beam parameters, you can calculate and analyze beam structure by selecting the calculate stress and deflection option. This option shows you Moment , Bending Stress , and Deflection graphs along with maximum values of bending moment , bending stress , slope , and deflection.

This final result cannot be saved to a file in this software, but you can print this result using its Print option. Atlas is yet another free beam analysis software for Windows. This software is mainly used to calculate bending moment and reaction forces of a beam structure. In it, you can import beam structure as Atlas document file ATL or create a new beam structure and analyze it. You can also work on multiple beam structures using the multi-windowed interface of this software.

To create the structure, use its Tools section that contains four simple tools namely Select , Force , Hinge , and Vice to make a basic beam structure. After creating a structure, apply positive and negative forces and moments on different parts of the beam using the Scale menu and mouse.

As soon as you apply forces and moments on the beam, you can immediately view reaction forces and resulting moment graph on the lower part of the interface. After the beam analysis, you can preview as well as print the resultant graph along with beam structure.