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Optimising Product Designs with Autodesk Inventor Nastran

July 19, 2024
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| Autodesk Products, Autodesk Research, Simulation
Autodesk Inventor Nastran

Optimising Product Designs with Autodesk Inventor Nastran

Imagine a world where product designs are perfected before they ever reach the prototyping stage. Engineers and designers can foresee and resolve potential issues early, ensuring their creations are innovative, reliable, and cost-effective. This is the transformative potential of simulation-driven design, made possible by Autodesk Inventor Nastran.

The importance of early-stage simulation is underscored by an Aberdeen Group report, which reveals more than half of the respondents preferred to consolidate their simulation vendors in the early stage with powerful virtual simulation tools like Autodesk Inventor Nastran. 

In this blog post, let’s delve into Autodesk Inventor Nastran, exploring its benefits, capabilities, and the ways it is reshaping the future of product development.

What is Autodesk Inventor Nastran?

Autodesk Inventor Nastran is a powerful finite element analysis (FEA) tool integrated directly into Autodesk Inventor CAD software. It enables designers and engineers to perform a wide range of simulation studies on their product designs, helping them optimise performance, reduce development time and costs, and deliver higher-quality, more reliable products.

FEA is a numerical technique used to analyse the behaviour of complex structures and systems under various loads and conditions. By creating a digital model of a product and subjecting it to simulated stresses, forces, and other environmental factors, engineers can gain valuable insights into how the design will perform in the real world.

Inventor Nastran seamlessly integrates this powerful FEA technology into the Inventor CAD environment, allowing designers to analyse and optimise their designs without leaving the familiar Inventor interface. This streamlined workflow eliminates the need to switch between multiple software tools, saving time and improving productivity.

What Types of Simulation Studies Can Be Performed with Inventor Nastran?

Inventor Nastran allows you to conduct a variety of simulation studies, including:

. Linear, Prestress, and Nonlinear Static Analysis :

Understand how your design will respond to various static loads and stresses.

. Normal and Prestress Modes :

Analyse the natural vibration modes of your design, including the effects of prestress.

. Linear and Nonlinear Buckling : 

Identify potential buckling issues that could compromise the structural integrity of your design.

. Direct, Modal, and Nonlinear Transient Response : 

Simulate the dynamic behaviour of your design under time-varying loads.

. Impact Analysis : 

Assess how your design will withstand sudden impacts or collisions.

. Direct, Modal Frequency Response : 

Understand how your design will respond to harmonic excitations.

. Random Response : 

Analyse the response of your design to random vibrations.

. Shock/Response Spectrum : 

Simulate the effects of shock and vibration events on your design.

. Multi-Axial and Vibration Fatigue : 

Predict the fatigue life of your design under complex loading conditions.

. Linear and Nonlinear Steady State Heat Transfer : 

Analyse the thermal behaviour of your design.

. Nonlinear Transient Heat Transfer : 

Simulate the dynamic thermal response of your design.

. Explicit Dynamics: 

Perform advanced simulations of high-speed events, such as impacts or explosions.

. Explicit Quasi-Static : 

Analyse the behaviour of your design under quasi-static loading conditions.

These simulation capabilities enable you to thoroughly evaluate your product designs, identifying and addressing potential issues before they become costly problems during physical prototyping or manufacturing.

How Can Simulation Studies Help Optimise Product Designs?

Simulation studies with Autodesk Inventor Nastran help optimise product designs in several ways:

1. Identifying and Addressing Potential Issues :

Simulating the behaviour of your design under various loads and conditions uncovers potential problems, such as stress concentrations, deformations, or fatigue failures, allowing you to make informed design decisions and implement necessary changes before investing in physical prototypes.

2. Reducing Over-Engineering :

Simulation studies ensure your designs are fit for purpose by optimising material use and eliminating unnecessary features or components. This not only reduces manufacturing costs but also improves the overall efficiency and performance of your products.

3. Accelerating the Design Process: 

Rapid design iterations and simulations save time and resources compared to physical prototyping and testing. By identifying and resolving issues early in the design phase, you can significantly shorten the product development cycle and bring your innovations to market faster.

4. Improving Product Quality and Performance : 

Informed design decisions based on accurate simulation results lead to better-performing and more reliable products. This can translate into increased customer satisfaction, reduced warranty claims, and a stronger competitive position in the market.

5. Enhancing Collaboration and Communication : 

Simulation results can be easily shared with stakeholders, including cross-functional teams, management, and customers. This facilitates better decision-making, improves overall project management, and helps ensure that the final product meets all necessary performance and compliance requirements.

How Does Inventor Nastran Integrate with Autodesk Inventor?

Inventor Nastran is tightly integrated with Autodesk Inventor CAD software, allowing you to perform simulation studies directly within the Inventor environment. This streamlined workflow eliminates the need to switch between multiple software tools, saving time and improving productivity.

The integration also enables you to import and export results to and from other Autodesk applications, such as Autodesk CFD for fluid flow and thermal analysis, or Autodesk Moldflow for plastic part simulation. This cross-application integration ensures a comprehensive design validation process, helping you meet all necessary performance and compliance requirements.

By leveraging the synergy between Inventor Nastran and Inventor CAD software, you can create a seamless, end-to-end product development process that combines the power of simulation with the flexibility and ease of use of a leading CAD platform.

What Are the Benefits of Using Inventor Nastran for Product Design Optimisation?

Using Inventor Nastran for product design optimisation provides several key benefits:

1. Reduced Development Time and Costs :

Simulation studies help identify and address issues early in the design process, reducing the need for physical prototyping and testing. This can lead to significant cost savings and faster time-to-market for your products.

2. Improved Product Quality and Performance:

Accurate simulation results enable informed design decisions, leading to better-performing and more reliable products. This can translate into increased customer satisfaction, reduced warranty claims, and a stronger competitive position in the market.

3. Increased Innovation and Competitiveness : 

The ability to rapidly iterate and optimise designs allows you to bring innovative products to market faster than your competitors. By leveraging the power of simulation, you can explore more design options, test the limits of your ideas, and deliver truly differentiated products to your customers.

4. Enhanced Collaboration and Communication : 

Simulation results can be easily shared with stakeholders, facilitating better decision-making and improving overall project management. This helps ensure that the final product meets all necessary performance and compliance requirements while aligning with the needs and expectations of your customers.

What’s the Difference Between Inventor Professional and Autodesk Inventor Nastran?

While both products offer some similar features, there are some notable differences between them.
Linear stress analysis
Feature
Inventor Professional
Nastran In-CAD
Yes
Yes
Nonlinear stress analysis
Yes
Yes
Modal analysis
Yes
Yes
Buckling analysis
Yes
Yes
Thermal analysis
Yes
Yes
Fatigue analysis
Yes
Yes
Drop test analysis
Yes
Yes
Frequency response analysis
No
Yes
Random vibration analysis
No
Yes
Shock response spectrum analysis
No
Yes

In addition to these differences, there are also some differences in product licences. Autodesk Inventor Professional is available as a standalone product, allowing users to purchase it separately from other Autodesk software. In contrast, Autodesk Inventor Nastran In-CAD is only available as part of the Autodesk Product Design & Manufacturing Collection, which is a suite of design, engineering, and manufacturing tools that also includes Inventor Professional. This means that users who require the advanced analysis capabilities of Nastran In-CAD must also purchase the entire collection, which may be a consideration for some customers.

Unlock the Full Potential of Simulation-Driven Design

Inventor Nastran is a game-changer in product design optimisation. By harnessing the power of simulation, you can unlock new levels of innovation, reduce development costs, and deliver products that exceed customer expectations.

Do not settle for subpar designs or lengthy development cycles. Embrace the future of product design with Autodesk Inventor Nastran and revolutionise the way you bring your ideas to life. Get in touch with our team to learn more about Inventor Nastran and purchase the Autodesk PDM collection.

Contact Us

Contact us to find out how we can help your business. Fill out the form below, by live chat, phone or email.

P: 1800 490 514 |  E: [email protected]

Connected Design

Design Consulting Autodesk Gold Partner
about design consulting Moving at the Speed of Business

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Marvellous Mechanical Drafting with Autodesk AutoCAD Mechanical

July 12, 2024
| No Comments
| AutoCAD Electrical, AutoCAD Mechanical, AutoCAD MEP, Autodesk Products
Autodesk AutoCAD Mechanical

Marvellous Mechanical Drafting with Autodesk AutoCAD Mechanical

Autodesk AutoCAD Mechanical

Did you know that the global CAD software market was valued at $9.3 billion in 2019 and is projected to grow at a rate of 6.6% annually, reaching $18.7 billion by 2030? This growth is driven by the increasing complexity of design requirements and the need for more efficient and accurate tools in industries like manufacturing and automotive.

In this environment, what if you could cut your design time nearly in half while simultaneously reducing errors and enhancing the quality of your work? This is not just a dream but a reality with Autodesk AutoCAD Mechanical, a specialised toolset within AutoCAD that is revolutionising the field of mechanical drafting.

AutoCAD Mechanical is not just another CAD software; it’s a comprehensive solution tailored specifically for mechanical engineering. It combines the robust capabilities of AutoCAD with libraries of standards-based parts and tools designed to automate common mechanical CAD tasks. This powerful combination allows engineers and designers to save countless hours on design and rework, freeing them to focus on innovation and problem-solving.

In this blog post, we’ll explore the marvels of mechanical drafting with AutoCAD Mechanical, delving into its features, benefits, and the impressive productivity gains it offers.

Productivity Gains with Autodesk AutoCAD Mechanical

A productivity study commissioned by Autodesk highlighted the significant time savings and efficiency improvements offered by the Mechanical toolset in AutoCAD. The study compared the time required to complete various design tasks using Autodesk AutoCAD Mechanical vs AutoCAD

Here are some key findings from the study: 

  • Faster Design and Rework: The Mechanical toolset reduces the total time required for 2D CAD work by approximately 55%. This is achieved through automation and the availability of standardised parts and functions.
  • Reduced Risk of Errors: Standardised functions and parts not only speed up the design process but significantly reduce the risk of errors. This leads to higher accuracy and consistency in designs.
  • Enhanced Efficiency: Common design tasks, such as searching for project data, inserting standard and supplier parts, and structuring data, are all streamlined with the Mechanical toolset. This efficiency frees up valuable time for more critical aspects of design.
Advantages of Using Autodesk AutoCAD Mechanical
Autodesk AutoCAD Mechanical

AutoCAD Mechanical offers numerous advantages that significantly enhance the efficiency and effectiveness of mechanical drafting. Here are some key benefits:

  1. Intelligent Layer Management: The Mechanical toolset in AutoCAD simplifies the task of managing layers by automatically placing items on the correct layer, colour, and linetype as you create your drawing. This system can be easily customised based on your company’s requirements, ensuring consistency and accuracy in your designs. Customisable layer types include text and hatching, centerlines and construction lines, hidden lines, symbols and notes, and title borders.
  2. Time Savings and Efficiency: AutoCAD Mechanical substantially reduces the time required to complete various tasks. For instance, preparing existing data, creating new concepts, and structuring data are significantly faster with the Mechanical toolset, resulting in up to 45% time savings. Similarly, tasks such as detailing and optimising new designs, calculating forces, and modifying parts are completed much quicker compared to basic AutoCAD, often saving up to 80% of the time.
  3. Enhanced Calculation Functions: The toolset offers robust calculation functions, allowing users to perform analysis on 2D geometry subject to static loads. This includes calculating stress and deformation in a plane or cross-section with individual forces and stretching loads. These capabilities are crucial for ensuring the structural integrity and performance of mechanical parts.
  4. Automated Updates and Synchronisation: The Mechanical toolset ensures that any change made to a component automatically updates all related components. This feature is particularly beneficial in complex assemblies where changes to one part must be reflected across the entire design. This automation reduces the likelihood of errors and ensures that all parts of the design remain consistent.
  5. Comprehensive Standard Parts Library:  Autodesk AutoCAD Mechanical includes a vast library of over 100,000 pre-drawn standard features such as undercuts, keyways, and thread ends, and more than 8,000 pre-drawn holes including through holes, blind holes, counterbored holes, countersunk holes, and oblong holes. These features automatically clean up the insertion area in the drawing, eliminating the need for manual editing and significantly speeding up the design process.
  6. Efficient Production Drawing Creation: The toolset makes creating production drawings for parts and assemblies much more efficient. Automated and associative parts lists and bills of materials (BOMs) update automatically as the design changes. This ensures that all documentation is up-to-date and accurate, facilitating smoother transitions to manufacturing and reducing production delays.
  7. Power Commands: AutoCAD Mechanical’s Power Commands utilise object information to accelerate user operations such as editing and copying objects. This feature allows users to bypass traditional pull-down menus, toolbars, and tablet locations, using the objects themselves as command menus. This intuitive interface streamlines the design process and enhances productivity.
  8. Specialised Drafting Tools: The toolset includes over 30 options for rectangle, arc, and circle creation, nearly automatic centerline creation and updating, speciality lines for breakout views and section lines, and a full suite of construction lines for aligning drafting views. These specialised tools are designed specifically for mechanical drafting, providing more precise and efficient ways to create detailed and accurate drawings.
  9. Foreground/Background Management: AutoCAD Mechanical simplifies the management of foreground and background elements in a drawing. It automatically redraws geometry to show hidden or dashed lines of parts obstructed by other parts in a design. Hidden lines update automatically when changes occur, eliminating the need for manual redrawing due to design changes. This feature ensures that designs are always clear and accurate, reducing the time and effort required to update 2D designs.

These advantages make Autodesk AutoCAD Mechanical an indispensable tool for mechanical engineers and designers, enabling them to produce high-quality, precise, and efficient designs with less effort and in less time. Whether you’re working on simple components or complex assemblies, the Mechanical toolset offers the functionality and flexibility needed to meet the demands of modern mechanical design.

Embrace the Future of Mechanical Drafting with Autodesk AutoCAD Mechanical

Autodesk AutoCAD Mechanical is a powerful toolset that revolutionises mechanical drafting by enhancing productivity, reducing errors, and automating routine tasks. Whether you’re designing complex machinery, optimising existing designs, or calculating forces in a mechanism, AutoCAD Mechanical provides the tools and features you need to work more efficiently and accurately.

By incorporating AutoCAD Mechanical into your workflow, you can significantly cut down on design and rework time, allowing you to focus on innovation and quality. Embrace the marvels of mechanical drafting with AutoCAD Mechanical and take your engineering projects to new heights.

Contact Us

Contact us to find out how we can help your business. Fill out the form below, by live chat, phone or email.

P: 1800 490 514 |  E: [email protected]

Connected Design

Design Consulting Autodesk Gold Partner
about design consulting Moving at the Speed of Business

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AutoCAD vs. Autodesk Advance Steel: Choosing the Right Tool for Your Design Needs

July 12, 2024
| No Comments
| Advance Steel, Autodesk Collections, Autodesk Products
Autodesk Advance Steel Integration

AutoCAD vs. Autodesk Advance Steel: Choosing the Right Tool for Your Design Needs

Imagine you’ve just spent hours meticulously designing a product in AutoCAD, only to realise there might be a more efficient tool for your specific needs. You’re not alone. With the ever-evolving landscape of computer-aided design (CAD) software, many professionals find themselves at a crossroads, wondering if they’re using the optimal solution for their projects.

Enter the AutoCAD vs. Autodesk Advance Steel debate. These two Autodesk powerhouses each bring unique strengths to the table, but which one is right for you? Whether you’re an architect sketching the next skyline-defining structure or a steel fabricator planning intricate industrial components, choosing the right CAD software can dramatically impact your workflow and output.

In this article, we’ll dive deep into the world of AutoCAD and Autodesk Advance Steel, comparing their features, applications, and market positions. By the end, you’ll have a clear understanding of which tool aligns best with your design needs, potentially saving you countless hours and resources in the long run. So, are you ready to optimise your CAD experience? Let’s get started.

Advance Steel Features and Benefits Moving at the Speed of Business

Understanding the Basics

AutoCAD is renowned for its versatility, catering to a broad user base that includes architects, engineers, drafters, and designers across diverse industries such as construction, manufacturing, and product design. It offers robust 2D and 3D CAD capabilities, making it a go-to solution for professionals who require flexibility in their design work and need to create detailed technical drawings across different disciplines. AutoCAD’s general-purpose nature allows it to be used for a wide range of applications, from architectural blueprints to mechanical parts design, making it an essential tool for many design professionals.

Autodesk Advance Steel is a specialised software designed for structural engineers, steel detailers, and fabricators working on steel construction projects. It excels in creating detailed 3D models of steel structures, generating fabrication drawings, and producing bills of materials with high efficiency. The software’s automated features and steel-specific tools significantly reduce design time, making it invaluable for large-scale steel fabrication projects. By focusing on the specific needs of steel fabrication, Advance Steel offers features that streamline workflows and improve accuracy, ensuring that steel projects are completed efficiently and to exact standards.

Key Differences Between AutoCAD and Autodesk Advance Steel

1. Purpose and Specialisation

AutoCAD is a general-purpose 2D and 3D CAD software used across various industries for drafting and modelling. Its versatility makes it suitable for a wide range of applications, from architectural design to engineering and product development. In contrast, Autodesk Advance Steel is a specialised software designed specifically for steel fabrication, detailing, and structural engineering. This specialisation allows Advance Steel to provide tools and features tailored to the needs of steel professionals, ensuring that projects are completed with precision and efficiency.

2. Modelling Capabilities

AutoCAD offers both 2D and 3D drafting and modelling tools, making it a versatile choice for professionals in various fields. It can handle everything from simple sketches to complex 3D models, providing flexibility for different design needs. Advance Steel, however, is purpose-built for 3D modelling of steel structures and components. It adheres to global steel standards, ensuring designs meet industry requirements. This focus on steel modelling allows Advance Steel to provide more accurate and efficient tools for creating detailed steel structures.

3. Automation and Efficiency

While AutoCAD provides some automation features, much of the drawing and detailing work is done manually, which can be time-consuming for large projects. Advance Steel, on the other hand, offers extensive automation specifically for steel fabrication. It can automatically produce detailed fabrication drawings in minutes, significantly reducing project timelines from weeks to days. The software includes a library of common connections and allows users to save custom connections for future use, enhancing efficiency and consistency across projects.

4. Drawing Production

In AutoCAD, most drawings and details are created manually, which can be labour-intensive and prone to errors. Advance Steel utilises purpose-built templates for creating drawings, tailored for steel fabrication. These templates account for different styles, processes, and views, streamlining the drawing process and ensuring consistency. Users can modify these templates to match their company standards, enhancing the software’s adaptability and efficiency.

5. Ease of Use for Steel Work

Advance Steel simplifies steel modelling with user-friendly features. Basic steel modelling is as straightforward as drawing lines in AutoCAD, with the added benefit of automated setup of layers and organisation of elements. This ease of use maximises efficiency in steel detailing, allowing users to focus on design rather than software intricacies. AutoCAD, while versatile, may require more manual setup and management, making it less efficient for steel-specific tasks compared to Advance Steel.

6. Integration and Workflow

Both AutoCAD and Advance Steel can be used in conjunction, but they follow different workflows. Models created in Autodesk Advance Steel can be exported and imported into AutoCAD or Autodesk Inventor for further work in mixed design environments. This integration allows for seamless collaboration between different software, enhancing workflow efficiency and ensuring that all aspects of a project are covered. AutoCAD’s general-purpose nature makes it adaptable to various workflows, but Advance Steel’s specialised features offer a more streamlined process for steel projects.

Advance Steel Application Workflows Moving at the Speed of Business

7. Learning Curve

AutoCAD, with its broad application scope, may require more time to master all its features. Its versatility means that users must familiarise themselves with a wide range of tools and capabilities. Advance Steel, being more specialised, can be learned more quickly for steel-specific work. Some users report being able to handle significant projects after just a few days of training, thanks to the software’s focused feature set and user-friendly design.

8. Document Management

Advance Steel offers more integrated document management for steel projects. Changes made to parts can be quickly updated in parts lists using the “Force Update” option, ensuring that all project documentation is accurate and up to date. This level of integration simplifies project management and reduces the risk of errors. AutoCAD, while offering robust documentation capabilities, may require more manual updates and management, making it less efficient for complex steel projects.

Practical Applications and User Scenarios

AutoCAD’s versatility makes it an ideal choice for professionals who work on diverse projects across multiple industries. Whether you are an architect designing residential buildings, an engineer drafting mechanical parts, or a product designer creating prototypes, AutoCAD provides the flexibility and comprehensive toolset needed for a wide range of applications. Its general-purpose capabilities make it an invaluable asset for any professional who requires a reliable and adaptable CAD solution.

Autodesk Advance Steel Integration

Advance Steel is the go-to solution for professionals focused on steel fabrication and structural engineering. Its specialised tools and efficiency are unmatched for those involved in large-scale steel construction projects. Structural engineers, steel detailers, and fabricators benefit from its ability to create detailed 3D models, generate fabrication drawings quickly, and produce accurate bills of materials. Companies that require interoperability with other Building Information Modeling (BIM) software and need to conform to global steel standards will find Advance Steel particularly beneficial.

AutoCAD or Autodesk Advance Steel, Make the Right Choice For Your Needs

Choosing between AutoCAD and Advance Steel ultimately depends on your specific needs and the nature of your projects. Both AutoCAD and Advance Steel are powerful tools within the Autodesk suite, each designed to cater to distinct professional needs. By understanding their unique capabilities and how they align with your project requirements, you can make an informed decision that enhances your design process and overall productivity.

That said, if you’re involved in large-scale steel construction, our recommendation is Autodesk Advance Steel, as its specialised tools can drastically reduce design time and improve workflow efficiency.

If you want to learn more about Autodesk Advance Steel and Autodesk’s other fabrication tools, click here.

Contact Us

Contact us to find out how we can help your business. Fill out the form below, by live chat, phone or email.

P: 1800 490 514 |  E: [email protected]

Connected Design

Design Consulting Autodesk Gold Partner
about design consulting Moving at the Speed of Business

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