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By artae
File Size: 436 MB
Plugin set for Siemens Star CCM+ 2022.1
Automotive Aerodynamics Workflow 2022.1 plugin
Cycle_Average Workflow 2022.1 plugin
Hull Performance Workflow 2022.1 plugin
Mixing Vessel_Workflow 2022.1 plugin
Turbo Aerodynamics Workflow 2022.1 plugin
HOMEPAGE
https://www.seense.com
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By artae
File Size: 3.6 GB | (x64) | Multilingual
Predicting the real-world performance of a product requires simulation tools that span a variety of engineering disciplines. STAR-CCM+ is an all-in-one solution that delivers accurate and efficient multidisciplinary technologies in a single integrated user interface.
Why STAR-CCM+?
Don't just simulate, innovate!
In order to design better products, engineers need to predict the consequence of any design changes on the real-world performance of their product, for better or for worse. Historically those predictions came from hand calculations or from the experimental testing of physical prototypes. engineering simulation offers comprehensive predictions that are usually more accurate and always less expensive than experimental testing. Deployed effectively, these can be used to improve a design through multiple iterations. Ultimately this results in higher quality and more robust products that better fulfill customer expectations. Unlike other methods, engineering simulation also offers the benefit of exploring the performance of a product over the full range of operating conditions that it is likely to face in its working life, rather than just at a handful of carefully chosen "design points." However, not all engineering simulation tools are created equal. In order to provide a constant stream of relevant engineering data, simulation software must be
Multidisciplinary
Solving complex industrial problems requires simulation tools that span a multitude of physical phenomena and a variety of engineering disciplines. Real-world engineering problems do not separate themselves into convenient categories such as "aerodynamics", "hydrodynamics", "heat transfer" and "solid mechanics". Only multidisciplinary engineering simulation can accurately capture all of the relevant physics that influence the real-world performance of a product, and can be used to automatically drive the virtual product through a range of design configurations and operating scenarios. By minimizing the level of approximation, engineers can be confident that the predicted behavior of their design will match the real-world performance of their product.
Timely
No matter how "realistic" your simulation is, the data it provides is useless if it does not influence the final design of your product. For simulation to be a useful tool in the engineering design process, predictions must be delivered on time, every time. A late simulation result is not much better than no result at all. Ideally, simulation should generate a constant stream of data that guides and informs the design process through every decision. This is only possible when the simulation process is a robust and automated one. Once an engineer has invested in the creation of a multidisciplinary simulation model, that model should be easily redeployable to investigate a full range of design configurations and operating scenarios, with little or no manual effort from the engineer.
Affordable
Used effectively, engineering simulation consistently delivers a high return on investment (ROI). It provides far more in terms of reduced development costs and increased product revenue than it costs to implement. However, traditional engineering simulation licensing schemes can make the transition from an experimentalist's mindset of "testing just a few design points" to "investigating the whole design space" prohibitively expensive. This is because most engineering simulation software vendors base their licensing model around the broken paradigm of "the more you use, the more you lose," charging you per core instead of per simulation and tying customers to an almost linear relationship between the cost of their license and the maximum number of cores that they are allowed to utilize in their simulations. Innovative licensing schemes such as Power Sessions (giving you unlimited cores for a fixed price), Power-on-Demand (enabling you to run on the cloud) and Power Tokens (giving you unprecedented flexibility and facilitating design exploration) render the cost of using engineering simulation affordable.
Backed by experts
An uncomfortable truth about modern engineering is that there really are no easy problems left to solve. In order to meet the demands of industry, it is no longer good enough to do 'a bit of CFD' or 'some stress analysis'. In order to design truly innovative products, engineers are often "pushing back the boundaries of the possible". This is something that is difficult to achieve in isolation, and often requires competences outside an individual engineer's immediate area of expertise. In order to be successful, an engineer should have ready access to a community of simulation experts, and ideally an established relationship with a dedicated support engineer who not only understands the engineer's problems, but can approach the right expert help whenever needed.
Whats New
Read: releaseNotes_17.02.007_en.pdf
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By artae
File Size: 305.4 MB
FiberSIM from Siemens PLM Software allows specialists in the aerospace, automotive and wind energy industries to optimize the weight, cost and performance of PCM (polymer composite materials) products by precisely controlling the orientation of reinforcing fibers.
Using Fibersim reduces risk by streamlining the design and fabrication of innovative, strong and lightweight structures in the aerospace, automotive and wind energy industries. The package was developed by Vistagy, which was acquired by Siemens on December 7, 2011 and is a commercial division of Siemens PLM Software.
Fibersim reduces uncertainty in the behavior of composite parts under stress by describing, communicating, and verifying desired fiber orientation throughout the product development process, ensuring that specifications are met exactly. Using easy-to-use design data error-free tools, you can reduce the risk of designing complex, overweight, undefined properties, and overpriced parts.
Fibersim is an advanced PCM product development solution that helps world leaders in the aerospace, automotive, wind energy and other industries successfully solve complex problems throughout the entire production cycle - from conceptual design, detailed design, layering simulation and production data generation to quality control . Fibersim can be fully integrated into the market leading commercial 3D CAD systems.
Benefits of Fibersim
Enhanced Design-Time Optimization
Fibersim helps reduce the uncertainty of PCM product behavior under stress with a new Spine-Based Rosette that enables path-oriented material stacking simulation. This information can be transferred between all participants in the development process throughout the cycle. Ensuring the proper fiber orientation of manufactured parts - whether it be an aircraft structure stringer, a car frame or a 60-meter wind turbine blade - is a critical factor in optimizing the weight and performance of a product.
Accurate modeling of composite materials laying on complex shapes
Fibersim was the first to introduce advanced process modeling for multilayer materials, including multiaxial fabrics. These features form the basis of Fibersim, which allows you to simulate even more materials and manufacturing processes with the first ever Spine-Based Simulation for buckling parts. Material laid along the generatrix of parts such as an aircraft stringer, an automobile body strut, or a wind turbine blade guide will have localized waviness and deformation. Determining the causes of these phenomena early in the production cycle allows you to make the right key decisions to ensure the expected strength of parts in a timely and cost-effective manner.
Efficient transfer of a complete description of the part between the design and calculation departments
The program introduces a new functionality for the exchange of descriptions of multiaxial fabrics and fillers. This functionality provides an opportunity for effective interaction between designers and structural engineers, taking into account the most important components throughout the entire product development cycle. Accurately calculating the stiffness and strength of parts requires consideration of the specific characteristics of multiaxial fabrics and fillers commonly used in aerospace, automotive, and wind power applications.
Simplify the development of composite parts and documentation
Fibersim helps simplify the design of composite parts with new, easy-to-use design and documentation tools designed for engineers with a wide range of PCM backgrounds. The most difficult and time-consuming task in the design process is to work with specifications for runoffs between zones of constant thickness. Fibersim is the first to introduce the Visual Stagger Editor feature to make it easier to work with these specifications. Large aerospace panels such as wings, stabilizers or tails have a significant number of different flight profiles. The Escape Profile Editor makes it easier to develop profiles and reduces the possibility of design errors.
Whats New
official site does not provide any info about changes in this version.
HOMEPAGE
https://www.plm.automation.siemens.com/
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By artae
MP3 for Siemens Solid Edge 2022 (x64)
File size: 228 MB
Solid Edge is the most full-featured hybrid 2D / 3D CAD system that uses synchronous technology to accelerate design and editing process, as well as enhanced support for reusing imported geometry. Solid Edge is a key component of the Velocity Series solution portfolio and features excellent tools for modeling parts and assemblies, drawing designs, transparent data management, and an integrated finite element analysis module that allows you to successfully cope with the increasing complexity of designed products. The new version of Solid Edge offers enhanced functionality based on synchronous technology, which significantly speeds up the product design process, simplifies the modification, import and application of data created in various CAD systems. The latest version includes improvements in finite element analysis, design data management, and over a thousand user-defined changes.
Implementing the concept of synchronous technology, Siemens PLM Software has expanded the possibilities of using synchronous technology in the entire system. In addition to support for modeling parts and sheet bodies implemented in previous versions, synchronous models can be used directly in assemblies - for example, in the design of pipelines, trusses, electrical wiring, and other types of products. First introduced associativity between synchronous parts, which allows the user to create and edit his idea before, during or at the end of the assembly design process.
Solid Edge provides the ability to work with both synchronous and conventional (ordered in the construction tree) structural elements in a single integrated design environment. Users can use synchronous structural elements to speed up the design process and flexible editing of models, and elements with a construction tree - for designing cast parts and parts obtained by machining. Elements with a construction tree in existing models can be selectively converted to synchronous, which gives the designer more flexibility and ease of use of the system.
As the number of enterprises making the transition from other 3D systems to Solid Edge and using the advantages of synchronous technology is growing, the possibility of combining 2D drawings with existing 3D models has emerged - another way to increase productivity. Technological dimensions in 2D drawings can now be automatically transferred to the appropriate imported 3D model. The resulting "production" 3D dimensions can be edited immediately, and the imported 3D model changes simultaneously due to synchronous technology.
Solid Edge has an application for finite element analysis, including new types of loads - torque and load in a cylindrical support, user-defined constraints, as well as new ways of connecting parts in assemblies, such as bolted connections and rib connections for sheet metal parts. The tools to simplify models allow you to quickly get the results of calculations, and improved visualization tools - to see the model from the inside.
The model can be adjusted using either synchronous technology or using a construction tree. Solid Edge provides control of models of parts and assemblies in the early stages of design, which reduces the time to market products and the cost of manufacturing prototypes.
In Solid Edge, thousands of customer-defined improvements that further increase the return on this product at all stages of the product design process. New functionality has appeared in various modules, including modeling of sheet bodies, pipelines and truss structures, assembly management and drawing tools. Improvements in the design environment of sheet bodies include new types of corner closures, an element for etching part designators and other geometry, as well as technological elements in the development of sheet metal parts, for example, shipping ears.
Solid Edge continues to raise the bar in the field of creating drawings, in which you can now transfer all technological dimensions and designations, designations of parts in the assembly, and even represent parts with different colors of lines in the drawing, borrowing them from the 3D model.
New "international" drawings allow you to use different sets of characters in different languages ??of the world in one drawing or in one callout. The simplified user interface includes a fully customizable radial menu, which reduces the number of mouse movements. Transparent dialogues for managing structural elements and details, as well as dialogs for reduced-sized commands, provide the largest area of ??the graphic workspace.
What's New
Read: Solid_Edge_2022_MP3-Readme.txt
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By artae
Windows (x64) | File Size: 6.75 GB
Solid Edge is the most full-featured hybrid 2D / 3D CAD system that uses synchronous technology to accelerate design and editing process, as well as enhanced support for reusing imported geometry.
Solid Edge is a key component of the Velocity Series solution portfolio and features excellent tools for modeling parts and assemblies, drawing designs, transparent data management, and an integrated finite element analysis module that allows you to successfully cope with the increasing complexity of designed products.
The new version of Solid Edge offers enhanced functionality based on synchronous technology, which significantly speeds up the product design process, simplifies the modification, import and application of data created in various CAD systems. The latest version includes improvements in finite element analysis, design data management, and over a thousand user-defined changes.
Implementing the concept of synchronous technology, Siemens PLM Software has expanded the possibilities of using synchronous technology in the entire system. In addition to support for modeling parts and sheet bodies implemented in previous versions, synchronous models can be used directly in assemblies - for example, in the design of pipelines, trusses, electrical wiring, and other types of products. First introduced associativity between synchronous parts, which allows the user to create and edit his idea before, during or at the end of the assembly design process.
Solid Edge provides the ability to work with both synchronous and conventional (ordered in the construction tree) structural elements in a single integrated design environment. Users can use synchronous structural elements to speed up the design process and flexible editing of models, and elements with a construction tree - for designing cast parts and parts obtained by machining. Elements with a construction tree in existing models can be selectively converted to synchronous, which gives the designer more flexibility and ease of use of the system.
As the number of enterprises making the transition from other 3D systems to Solid Edge and using the advantages of synchronous technology is growing, the possibility of combining 2D drawings with existing 3D models has emerged - another way to increase productivity. Technological dimensions in 2D drawings can now be automatically transferred to the appropriate imported 3D model. The resulting "production" 3D dimensions can be edited immediately, and the imported 3D model changes simultaneously due to synchronous technology.
Solid Edge has an application for finite element analysis, including new types of loads - torque and load in a cylindrical support, user-defined constraints, as well as new ways of connecting parts in assemblies, such as bolted connections and rib connections for sheet metal parts. The tools to simplify models allow you to quickly get the results of calculations, and improved visualization tools - to see the model from the inside.
The model can be adjusted using either synchronous technology or using a construction tree. Solid Edge provides control of models of parts and assemblies in the early stages of design, which reduces the to market products and the cost of manufacturing prototypes.
In Solid Edge, thousands of customer-defined improvements that further increase the return on this product at all stages of the product design process. New functionality has appeared in various modules, including modeling of sheet bodies, pipelines and truss structures, assembly management and drawing tools. Improvements in the design environment of sheet bodies include new types of corner closures, an element for etching part designators and other geometry, as well as technological elements in the development of sheet metal parts, for example, shipping ears.
Solid Edge continues to raise the bar in the field of creating drawings, in which you can now transfer all technological dimensions and designations, designations of parts in the assembly, and even represent parts with different colors of lines in the drawing, borrowing them from the 3D model.
New "international" drawings allow you to use different sets of characters in different languages of the world in one drawing or in one callout. The simplified user interface includes a fully customizable radial menu, which reduces the number of mouse movements. Transparent dialogues for managing structural elements and details, as well as dialogs for reduced-sized commands, provide the largest area of the graphic workspace.
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