In this 3DS Max tutorial, we will see how we can control the rotation of a texture using a Dummy helper and the powerful tool called Wire Parameters. We will do that by binding the Z rotation of the UVW Map's gizmo to the Z rotation of the Dummy. We will also see how we can create a parametric relation between two animated textures by binding the two textures to the same Dummy and using a simple expression to alter the speed and angle of rotation for one of the textures relative to the speed and angle of rotation of the other one. Finally, we will see how we can achieve the same thing in case there is no UVW Map(or another mapping method), if the object is collapsed, by binding the U offset parameter of the Bitmap to the Z rotation of the Dummy.

3ds Max Models: Unlocking Your Creativity in 3D Design

Are you ready to dive into the world of 3D modeling? Autodesk 3ds Max is an exceptional tool that empowers artists and designers to create stunning, detailed 3D models that bring ideas to life. Whether you're looking for free 3D models, 3ds Max files, or want to convert Max to OBJ, 3ds Max has you covered. In this blog post, we'll explore the benefits of using 3ds Max models, tips for beginners, and how to stand out in the competitive industry.

Why Choose 3ds Max for Your Modeling Projects?

Versatility and Power

3ds Max is renowned for its versatility. Whether you're creating architectural visualizations, character models, 3D furniture models, or intricate product designs, its robust features cater to every need. The software offers a vast library of tools, including polygon modeling, spline-based modeling, and parametric design, allowing you to work in a way that suits your style. With 3ds Max, you can create low-poly models for game assets or high-poly, detailed models for renderings and animation.

High-Quality Output

One of the standout features of 3ds Max is its ability to produce high-quality renders. With advanced lighting, shading options, and PBR materials, your 3D models can achieve photorealistic results that captivate audiences. This quality is essential when presenting your work to clients or showcasing it in portfolios. 3ds Max also supports a wide range of file formats, making it easy to import and export your 3D assets for use in other 3D applications.

Tips for Creating Impressive 3ds Max Models

Start with Simple Shapes

As a beginner, focus on creating basic shapes. Understanding how to manipulate primitives will build your foundation for more complex 3D models. Experiment with the intuitive 3ds Max interface to get a feel for the tools and workflow.

Utilize Reference Images

Gather reference images for your models. This practice helps maintain accuracy and proportion, ensuring your creations look realistic. You can find free 3D models on sites like Free3D.com, CGTrader, and TurboSquid to use as references or starting points.

Experiment with Texturing

Textures can dramatically enhance the appearance of your models. Spend time learning about UV mapping and material settings to add depth and detail. The PBR 1884 Pack on Free3D.com offers a great collection of high-quality PBR materials to experiment with.

Leverage the Community

Join online forums and communities dedicated to 3ds Max. Engaging with other users can provide valuable insights, tips, and inspiration. You can also find free 3ds Max models, 3ds Max files, and modeling services shared by the community.

Standing Out in the Industry

In today's competitive market, having exceptional skills is crucial. Here's how you can differentiate yourself:

Build a Diverse Portfolio

Showcase a range of 3D models that highlight your versatility. Include different styles, techniques, and types of projects like 3D furniture models, animated models, game assets, and 3D scenes. A well-rounded portfolio can attract potential clients and employers. Consider the poly count and optimize your models for their intended use.

Stay Updated with Trends

The 3D design industry is constantly evolving. Keep an eye on emerging trends, tools, and techniques. Participating in workshops and online courses can keep your skills sharp and relevant. Stay up to date with the latest features in 3ds Max and explore new file formats and 3D applications.

Network and Collaborate

Connect with other professionals in the field. Collaborating on projects can lead to new opportunities and insights, helping you grow as a designer. Engage with the 3ds Max community, share your work, and learn from others to expand your knowledge and network.

Conclusion

Embarking on your journey with 3ds Max models can be incredibly rewarding. The software offers countless possibilities for creativity and expression. Whether you're looking for free 3D models, 3ds Max files, or want to convert Max to OBJ, 3ds Max has the tools you need. By honing your skills, embracing new techniques, and building a strong portfolio, you can stand out in the industry and make your mark in the world of 3D design.

Ready to unleash your creativity? Start exploring 3ds Max today and watch as your ideas come to life! Download 3ds Max and access a wealth of free 3D models, 3ds Max files, and resources to kickstart your 3D modeling journey.

Case Studies: Successful 3D Visualization Projects

In recent years, the realm of 3D visualization has expanded far beyond its original confines within the gaming and entertainment industries. Today, encompasses a broad array of applications spanning architecture, healthcare, manufacturing, and more. This blog dives into several successful projects, highlighting their objectives, methodologies, and outcomes.

Key Points:

Project Overview

Technologies Used

Challenges and Solutions

Key Takeaways

1. Architectural Visualization: The Oasis Complex

Project Overview Objective: To create a visually stunning and accurate 3D model of the Oasis Complex, a cutting-edge residential and commercial facility that integrates green technology. Outcome: The project resulted in a highly detailed 3D interior rendering that was utilized for stakeholder presentations, marketing materials, and construction planning, effectively securing funding and community support.

Technologies Used

Software: Blender, AutoCAD, and Unreal Engine

Hardware: High-performance GPUs for rendering

Techniques: Photorealistic rendering, real-time visualization, and VR simulation

Challenges and Solutions

Challenge: Integrating various elements like green technology and modern design into a cohesive model.

Solution: Utilized modular design techniques and efficient data management practices to ensure smooth integration.

Challenge: Rendering high-quality images within a limited timeframe.

Solution: Leveraged cloud-based rendering services to expedite processing.

Key Takeaways

A well-executed 3D visualization can significantly impact project approval and funding.

Advanced technologies are essential for achieving photorealistic quality in architectural models.

2. Medical Visualization: Heart Valve Simulation

Project Overview Objective: To develop a 3D model of a heart valve that can be used for surgical planning and patient education. Outcome: The 3D interior rendering allowed surgeons to plan complex surgeries more effectively and provided patients with a clearer understanding of their medical conditions and treatments.

Technologies Use

Software: 3DS Max, MATLAB, and Unity

Hardware: High-resolution 3D printers and AR headsets

Techniques: Mesh modeling, texture mapping, and interactive simulation

Challenges and Solutions

Challenge: Ensuring anatomical accuracy while maintaining usability for surgical planning.

Solution: Collaborated closely with medical professionals to refine anatomical models and validate their accuracy.

Challenge: Creating interactive models that can be manipulated in real-time.

Solution: Implemented optimized algorithms in Unity to allow for smooth interaction in augmented reality environments.

Key Takeaways

Collaboration with domain experts is critical to ensure the accuracy and usability of medical visualizations.

Interactive models can revolutionize medical planning and patient education.

3. Manufacturing Visualization: Automotive Design Prototype

Project Overview Objective: To create a fully functional 3D prototype of a new electric vehicle for design validation and marketing. Outcome: The played a pivotal role in refining the vehicle design and marketing it to potential investors and customers.

Technologies Used

Software: CATIA, SolidWorks, and VRED

Hardware: VR headsets and CAVE systems

Techniques: Parametric modeling, virtual prototyping, and interactive walkthroughs

Challenges and Solutions

Challenge: Simulating mechanical behavior and ensuring structural integrity in the 3D model.

Solution: Used advanced parametric modeling tools to simulate mechanical stresses and validate structural robustness.

Challenge: Engaging potential investors and customers with immersive experiences.

Solution: Developed immersive VR experiences that allowed stakeholders to explore and interact with the vehicle prototype.

Key Takeaways

Virtual prototyping can significantly reduce the time and cost associated with iterative design processes.

Immersive technologies like VR offer new avenues for stakeholder engagement and marketing.

Conclusion

Successful 3D visualization projects across various sectors demonstrate the transformative power of this technology. Whether it’s crafting lifelike architectural models, creating accurate medical simulations, or developing engaging automotive prototypes, the key lies in selecting the right tools, collaborating with domain experts, and addressing challenges head-on. By doing so, a 3D visualization company in Mumbai can turn visionary ideas into tangible realities.

If you’re looking for a leading that specializes in architectural, medical, and manufacturing visualizations, consider partnering with a team that excels in 3D interior rendering and 3D rendering techniques. These collaborations can lead to innovative solutions that elevate your projects and captivate your audience.

NVIDIA Studio Driver Releases Adobe Substance 3D Viewer App

RTX-Accelerated Features Powered by Adobe AI Accelerate the Production of Content.

The October NVIDIA Studio Driver release is quickly approaching, the Adobe Substance 3D Viewer app makes its debut, and upgrades to Adobe Premiere Pro and After Effects kick off the Adobe MAX creative conference.

Adobe revealed improvements to its Adobe Creative Cloud products, such as Premiere Pro and After Effects, as well as to Substance 3D tools and the Adobe video ecosystem at this week’s Adobe MAX creativity conference.

NVIDIA RTX and GeForce RTX GPUs speed up these programs whether they operate locally on RTX AI PCs and workstations or in the cloud.

Generative Extend in Premiere Pro (beta), which use generative AI to smoothly add frames to the start or finish of a clip, is one of the most eagerly awaited features. With the help of the Firefly Video Model, artists can work with confidence since it is designed to be commercially safe and is only trained on video that Adobe has authorized.

Adobe Firefly

Many RTX-accelerated tools for creating 3D content are available in Adobe Substance 3D Collection products, including as ray tracing, AI delighting and upscaling, and image-to-material processes facilitated by Adobe Firefly.

The goal of Substance 3D Viewer, which is going into open beta at Adobe MAX, is to enable 3D in 2D design processes by enabling design teams to access, examine, and use 3D files. This will enhance compatibility with other Adobe applications that use RTX acceleration, such as Photoshop.

To further improve the development of 3D material using generative AI, Adobe Firefly integrations have also been introduced to Substance 3D Collection applications. These include the Text to Texture, Text to Pattern, and Image to Texture tools in Substance 3D Sampler, as well as Generative Background in Substance 3D Stager.

NVIDIA Studio Driver

Tomorrow, users will be able to download the October NVIDIA Studio Driver, which is intended to improve creative applications. Download the NVIDIA app beta for convenient access to applications like NVIDIA Broadcast and automated Studio Driver alerts.

Evolution of Video Editing

Over the last four years, Adobe Premiere Pro’s capabilities like Auto Reframe and Scene Edit Detection have revolutionized video editing operations.

Editors may now utilize AI to intelligently trim and alter video sequences with the newly released GPU-accelerated Enhance Speech, AI Audio Category Tagging, and Filler Word Detection tools.

Firefly is now offering a restricted beta of the Adobe Firefly Video Model.The next step forward in video editing is Adobe.com’s introduction of generative AI. In order to fill in content gaps without having to reshoot, lengthen, or reframe shots, it enables users to generate and modify video segments using simple text instructions or graphics. Prototypes of video clips may also be made using it to serve as inspiration for subsequent shoots.

A new plug-in for Adobe After Effects, a program for video enhancement that makes use of AI models to boost video quality, has been released by Topaz Labs. Users may now access motion deblur and enhancement models for better, more lucid video quality. RTX-accelerated models run 2.5 times faster than the MacBook Pro M3 Max on the GeForce RTX 4090 laptop GPU.

Watch for new Topaz Video AI effects and NVIDIA TensorRT advancements in After Effects.

3D Super Powered

With its robust generative AI capabilities in Substance 3D Sampler and Stager, the Substance 3D Collection is transforming the ideation phase of 3D development.

With the help of Adobe Firefly, Sampler’s Text to Texture, Text to Pattern, and Image to Texture tools let artists to quickly produce reference images from simple instructions that can be used to produce parametric materials.

Designers may experiment with backdrops for staging 3D models using Stager’s Generative Background function, which creates visuals based on text descriptions. When iterating and mocking up ideas, designers may explore more alternatives more quickly because to Stager’s ability to match lighting and camera viewpoint.

Substance 3D Viewer also integrates with Photoshop, enabling 3D models to be uploaded to Photoshop projects and having Viewer modifications automatically transferred back. Using ray tracing and hardware acceleration, the GeForce RTX 4060 laptop GPU generates 80% more frames per second than the MacBook M3 Pro. This allows for fluid movement in the viewport.

Additionally, Substance 3D Viewer has new Firefly-powered capabilities like Text to 3D and 3D Model to Image that provide artists greater freedom over creating new settings and variants by combining text prompts with 3D objects.

A wider variety of 3D capabilities in the most recent version of After Effects allow artists to isolate effects in 3D space, cast very lifelike shadows on 2D objects, and integrate 3D animations.

A new feature in After Effects is an RTX GPU-powered Advanced 3D Renderer, which speeds up the laborious and time-consuming process of adding HDRI lighting. This improves content realism and lowers creative barriers to access. RTX 4090 GPUs render 30% faster than prior versions.

Substance 3D‘s native and fast 3D integration with After Effects lets artists use more than 20,000 parametric 3D materials, IBL environment lighting, 3D models, and fine texturing to better 3D visuals.

Read more on Govindhtech.com

Choosing the Best Software for Interior 3D Rendering

Interior 3D rendering has become a cornerstone of modern interior design, allowing designers, architects, and clients to visualize spaces before they’re built or renovated. The effectiveness of these visualizations largely depends on the software used for creating them. With numerous options available, choosing the right software for interior 3D rendering can be a daunting task. This guide will help you navigate through the essential features, usability, and benefits of the top software options to ensure you make the best choice for your needs.

1. Key Features to Look for in Interior 3D Rendering Software

When selecting software for interior 3D rendering, it’s important to focus on the features that will enhance your workflow and the quality of your renders. Here are some essential features to consider:

Realistic Rendering Capabilities: The software should offer high-quality rendering capabilities, producing photorealistic images that accurately represent materials, lighting, and textures. This is crucial for creating detailed and convincing visualizations that clients can trust.

User-Friendly Interface: An intuitive interface is essential, especially for beginners. Software with a steep learning curve can slow down your workflow, so look for options that are easy to navigate and come with helpful tutorials or user communities.

Library of Materials and Objects: A comprehensive library of pre-made materials, furniture, and objects can save you time and enhance the realism of your renders. The ability to import custom objects and materials is also a plus.

Lighting and Shadow Control: Advanced lighting and shadow controls allow you to create realistic scenes by simulating natural and artificial light sources. This feature is key for achieving accurate interior 3D rendering results.

Compatibility and Integration: Ensure the software is compatible with other design tools and file formats you frequently use. Integration with CAD software, Photoshop, or other 3D modeling tools can streamline your workflow.

2. Top Software Options for Interior 3D Rendering

Now that you know what features to look for, let’s explore some of the best software options available for interior 3D rendering:

SketchUp: SketchUp is a popular choice for both beginners and professionals due to its user-friendly interface and powerful rendering capabilities. Paired with V-Ray or Enscape, it can produce highly realistic interior renders. SketchUp also offers a vast library of pre-made objects and materials, making it easier to create detailed interior designs.

3ds Max: 3ds Max is a powerful tool widely used in the industry for interior 3D rendering. Its robust modeling capabilities, coupled with the V-Ray or Corona Renderer plugins, make it ideal for producing photorealistic interiors. Although it has a steeper learning curve, the results are worth the effort.

Lumion: Lumion is known for its speed and ease of use, making it a great choice for quick and impressive interior renders. It offers a real-time rendering engine, allowing designers to see changes instantly. Lumion is especially useful for creating immersive, walk-through animations and presentations.

Blender: Blender is a free, open-source 3D modeling and rendering software that offers a wide range of features for interior design. With its powerful Cycles and Eevee rendering engines, Blender can produce stunning interior 3D rendering images. Its steep learning curve is offset by a supportive online community and extensive tutorials.

Revit: Revit is particularly useful for interior designers who work closely with architects and need to integrate 3D models into larger building projects. It offers excellent parametric modeling and rendering capabilities, making it ideal for detailed and accurate interior visualizations.

3. How to Choose the Right Software for Your Needs

When choosing the best software for interior 3D rendering, consider the following factors:

Project Scale and Complexity: For complex projects with intricate details, opt for software like 3ds Max or Revit, which offer advanced features and robust performance. For smaller or less complex projects, SketchUp or Lumion might be more suitable.

Budget: Consider your budget when selecting software. While some options like Blender are free, others like 3ds Max and Revit can be costly. Weigh the software’s features against your needs to ensure you’re making a cost-effective choice.

Skill Level: If you’re new to interior 3D rendering, start with software that offers an easier learning curve, such as SketchUp or Lumion. As you gain experience, you can explore more advanced tools like 3ds Max or Blender.

4. Conclusion

Choosing the best software for interior 3D rendering is crucial for delivering high-quality, realistic visualizations that meet your clients’ expectations. By considering the key features, exploring top software options, and aligning your choice with your project needs, budget, and skill level, you can select the perfect tool to enhance your interior design workflow. Whether you’re a beginner or a seasoned professional, investing in the right interior 3D rendering software will set you up for success in creating stunning and effective interior designs.

Top ArchViz Software: A Comprehensive Review

Choosing the right software is crucial for architects, interior designers, and visualization artists looking to create stunning architectural visualizations archviz. In this comprehensive review, we'll explore some of the top ArchViz software available, highlighting their features, strengths, and suitability for various design needs.

1. Autodesk 3ds Max

Autodesk 3ds Max is a powerhouse in the world of ArchViz, offering a comprehensive suite of tools for 3D modeling, rendering, and animation. With its intuitive interface and extensive library of plugins and add-ons, 3ds Max is favored by professionals for its flexibility and versatility. Whether creating photorealistic renderings, interactive walkthroughs, or cinematic animations, 3ds Max provides the tools and workflows needed to bring architectural designs to life.

2. Lumion

Lumion is a real-time 3D visualization software that excels in creating stunning architectural visualizations with minimal effort. With its user-friendly interface and library of high-quality assets, Lumion allows designers to quickly create lifelike renderings and immersive experiences. From dynamic lighting and weather effects to realistic materials and landscaping, Lumion's intuitive controls and real-time rendering engine make it an ideal choice for architects, landscape designers, and visualization artists looking to showcase their designs with maximum impact.

3. Unreal Engine

Unreal Engine is a powerful game engine known for its advanced real-time rendering capabilities and photorealistic graphics. While primarily used for game development, Unreal Engine is increasingly being adopted in the world of ArchViz for its ability to create immersive and interactive visualizations. With its node-based material editor, dynamic lighting system, and extensive marketplace of assets, Unreal Engine offers unparalleled flexibility and control for creating stunning architectural visualizations that rival those seen in AAA games and blockbuster films.

4. Autodesk Revit

Autodesk Revit is a Building Information Modeling (BIM) software that offers comprehensive tools for architectural design, documentation, and visualization. While not specifically designed for visualization, Revit's parametric modeling capabilities and intelligent building components make it a valuable tool for creating detailed architectural models that can be exported to other software for rendering and visualization. With its seamless integration with other Autodesk products, such as 3ds Max and AutoCAD, Revit offers a streamlined workflow for architects and designers looking to create accurate and visually compelling architectural visualizations.

5. SketchUp

SketchUp is a user-friendly 3D modeling software known for its ease of use and accessibility. While not as feature-rich as some of the other software on this list, SketchUp is popular among architects, interior designers, and visualization artists for its intuitive interface and quick modeling capabilities. With its extensive library of pre-made assets and plugins, SketchUp is ideal for creating concept models and schematic designs that can be easily exported to other software for further detailing and rendering.

Conclusion

The choice of ArchViz software ultimately depends on the specific needs and preferences of the designer, as well as the requirements of the project at hand. Whether you're looking for advanced rendering capabilities, real-time visualization tools, or intuitive modeling workflows, there's a software solution out there to help you bring your architectural designs to life. By exploring the features and strengths of each software, designers can make informed decisions and choose the right tools to realize their creative vision.

Rhino 3D tutor for Architects

3D modeling is a highly effective way to communicate ideas and concepts to clients or academic tutors. Professionals and students use it to create and manipulate 3D models, as well as to design forms. This process involves various techniques, such as parametric, freeform, and complex shape modeling. If you need professional help with your projects or assignments, we offer authorized Rhino designers who can be hired on an as-needed basis at an hourly or lump sum rate. Several 3D software applications are used in fields such as Rhino, Sketch up, Auto CAD, 3Ds Max, Maya, Vector works, Blender, Brush, etc.

Revit Software: Transforming Architectural Design with Precision and Collaboration

BIM Paradigm:

At its core, Revit operates on the BIM paradigm, a process that involves creating a digital representation of a building's physical and functional characteristics. This three-dimensional model serves as a shared knowledge resource, enabling stakeholders to make informed decisions throughout the project lifecycle. Unlike traditional design tools, where various disciplines work in silos, Revit Software interdisciplinary collaboration by providing a unified platform for architects, engineers, and construction professionals.

Parametric Design:

Revit's strength lies in its parametric design capabilities. Designers can create intelligent, 3D models with parametric elements, allowing changes to be propagated seamlessly throughout the project. This feature enhances flexibility, making it easier to explore design alternatives and respond to evolving client needs. Architects can experiment with different configurations, materials, and spatial arrangements, streamlining the design iteration process.

Comprehensive Documentation:

One of Revit's standout features is its ability to generate comprehensive documentation automatically. As changes are made to the model, drawings, schedules, and other documentation are updated in real-time, eliminating the need for manual revisions. This not only accelerates the documentation process but also minimizes errors and discrepancies between different sets of drawings.

Collaboration and Coordination:

Revit facilitates collaboration among project team members, allowing them to work concurrently on a shared model. This real-time collaboration streamlines communication and coordination, reducing the likelihood of clashes and conflicts during construction. With cloud-based collaboration tools, teams can collaborate seamlessly across geographical locations, fostering a more global and interconnected design environment.

Visualization and Analysis:

The software's visualization capabilities are another asset. Architects can create realistic renderings and walkthroughs, enabling clients and stakeholders to visualize the final project before construction begins. Additionally, Revit Cad Software offers analysis tools for evaluating factors such as energy efficiency, lighting, and structural performance. These features empower designers to make data-driven decisions, optimizing the building's performance and sustainability.

Integration with Other Autodesk Products:

Revit seamlessly integrates with other Autodesk products, creating a comprehensive design and construction ecosystem. From structural analysis using Autodesk Robot Structural Analysis to rendering with Autodesk 3ds Max, the interoperability of these tools enhances the overall design and visualization process.

Training and Support:

To unlock the full potential of Revit, ongoing training and support are essential. Autodesk provides a wealth of resources, including online tutorials, documentation, and a vibrant user community. This commitment to user education ensures that architects and designers can harness the software's capabilities to their fullest extent.

About Me

Hi I'm Amelia!

I'm currently a 3rd year MEng Industrial Design student at the University of Liverpool, who is especially interested in 3D visualisation, modelling and holistic design of products.

I am also a freelance digital artist with a passion for pop culture, and offer commission work via my social media accounts: @//xiulan.doodles (instagram/tiktok)

Software I am familiar with include: Creo Parametric (Creo 8), Autodesk 3ds max, Microsoft 365 apps, Procreate, Adobe Illustrator, TechSoft 2D Design V2, Corel Draw, Shapr

Please feel free to browse my work!

The Bridge to Innovation: Why Revit Needs an OBJ Exporter

Introduction

Autodesk Revit is a powerful BIM (Building Information Modeling) software used extensively in the architecture, engineering, and construction industries. It enables professionals to design, model, and document complex building structures with precision and efficiency. However, there are situations where you may need to export your Revit models to other software applications for various purposes, such as visualization, simulation, or 3D printing. This is where an OBJ (Wavefront Object) exporter for Revit becomes invaluable. In this blog post, we'll explore the reasons why you need an OBJ exporter for Revit and the benefits it brings to your workflow.

1. Compatibility with a Wide Range of 3D Software

One of the primary reasons for using an OBJ exporter for Revit is compatibility. OBJ is a widely recognized 3D file format supported by an extensive list of 3D software applications. When you export your Revit models as OBJ files, you can easily share your designs with collaborators or transfer them to other specialized software for tasks such as rendering, animation, or simulation. Some popular software packages that support OBJ include Blender, 3ds Max, Maya, Unity, and many more.

2. High-Quality Mesh Export

Revit models consist of BIM elements like walls, floors, roofs, and families. These elements are typically represented as parametric objects with detailed information. When exporting to OBJ, Revit converts these parametric objects into polygonal meshes, allowing for a more efficient transfer of geometry. OBJ files maintain the visual fidelity and structural integrity of your design, ensuring that complex architectural details and textures are preserved accurately.

3. Streamlined Visualization

Visualization is a critical aspect of architectural and construction projects. An OBJ exporter for Revit simplifies the process of rendering and visualizing your models in other 3D software. You can import your OBJ files into rendering software like Blender or 3ds Max to create stunning, photorealistic renderings, which are essential for client presentations, project approvals, and marketing materials. OBJ files can also be used in virtual reality (VR) and augmented reality (AR) applications, enhancing your ability to communicate design concepts effectively.

4. Simulation and Analysis

In certain scenarios, you may need to analyze your Revit models for structural integrity, energy efficiency, or other factors. Many simulation and analysis tools, such as finite element analysis (FEA) or computational fluid dynamics (CFD) software, require 3D models in a compatible format. By exporting your Revit models to OBJ, you can seamlessly integrate them into these specialized software packages for in-depth analysis and optimization.

5. 3D Printing

The field of 3D printing has seen rapid growth in recent years, and architects and engineers often use it to create physical prototypes, scale models, or custom building components. OBJ files are widely accepted by 3D printing software and services, making it easy to translate your Revit designs into tangible objects. Whether you're working on an architectural model or a structural component, exporting your Revit model as an OBJ file ensures that it can be easily converted into a 3D-printable format.

6. Cross-Platform Collaboration

Collaboration is key in the AEC (Architecture, Engineering, and Construction) industry. Teams often consist of professionals using various software tools, and seamless data exchange is crucial for project success. An OBJ exporter for Revit facilitates cross-platform collaboration by providing a standardized format that can be imported into different software environments. This compatibility reduces the risk of data loss and ensures that all team members can work with the same model.

Conclusion

In conclusion, an OBJ exporter for Revit is a valuable tool that enhances the versatility and compatibility of your BIM workflow. It enables you to share, visualize, analyze, and produce physical models from your Revit designs with ease. By using OBJ as an intermediary format, you can tap into the full potential of your Revit models, allowing you to collaborate more effectively with colleagues and unlock new possibilities in architecture and construction projects. Whether you're creating stunning visualizations, conducting simulations, or 3D printing prototypes, an OBJ exporter for Revit is a valuable addition to your toolkit.

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In this tutorial, we will create a parametric infinite cube table and we will see how to keep some of its parameters parametric, meaning that, after making the main geometry, we can go back and change things in it. After extracting the necessary segments from a base chamfered box(used as a path), we will use Loft to make the main shape using a custom rectangle as a profile.

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Parametric Table Design :)

Contorted Compositions V2.0 webinar: Grasshopper + 3ds Max with @amir.h.fakhrghasemi - If you can’t attend the live date and time you will still get access to the recording by registering! - Register Now, link in bio or: https://designmorphine.com/education/contorted-compositions-v2-0 - Contorted Compositions V2.0 intends to introduce a set of form-finding methods that are based on Minimal Surface concept and its combination with Polygon Modeling methods with Rhinoceros, Grasshopper, and 3ds Max. Simulation of Forces and Data Management tools in both 3Ds Max and Grasshopper are another part of this teaching webinar. Through the combination of modeling tools in these two software we will attain the necessary freedom in the customization of mesh typology. . . . . . . #rhino3d #grasshopper3d #parametricart #3dmodeling #architecture #parametric #3dsmax #autodesk #math #building (at 𝓣𝓱𝒆 𝓤𝒏𝒊𝓿𝒆𝒓𝒔𝒆) https://www.instagram.com/p/CjighREJMGM/?igshid=NGJjMDIxMWI=

Week 8 - Digital Modelling

Model making as a part of the design process

In the video I think Andrew uses "High" and "Low" fidelity as a way of describing the extent to which, or how true various prototypes are, with regard to the final design.

An interesting example of "low fidelity" is given later in the video. Andrew identified that a 3D printed model of the razor handle is much easier to grip when wet than an equivalent injection-moulded part as "we get misinformation as to how easy it is to grip, because of the build lines from the 3D printer it grips more".

The (above) example highlights how fidelity is multi-dimensional; an exact copy of the final design could be 3D printed, but the user experience would differ in weight, grip and feel (and by extension also value perception), so despite the 3D printed model being dimensionally accurate to the final design it would nonetheless be considered a low-fidelity model with regards to the user experience of the product.

3DS Max

Even only having played around with the program for a couple of hours I have begun to understand and appreciate the power of a parametric program that has so much freedom in the operations available.

Going into this my previous experience with engineering-focussed CAD programs (AutoCAD, Rhino, Solidworks, and Inventor) was disappointingly of limited use. I'm used to designing mechanical parts and features and working within the constraints of the tools available. I feel that the operations in Engineering-focussed CAD packages "do what they say on the tin" much more than some of the modify commands. i.e. there is only so many ways you can fillet edges on designs that are primarily rectilinear, god forbid being able to "squeeze" a sphere (as below).

3DS Max opens up a world of much more organic and flowing designs, but the learning curve ahead of me remains steep and I feel out to sea. I've never had the freedom or ability to create such forms digitally before - but in order to do so with ease and in a deliberate manner (as opposed to the current, very experimental one) will require a great deal of time and effort to learn the intricacies of the commands and how to use them to effect.

(Image 1) This is to tortured remains of a sphere after squeezing, skewing and tapering it.

(Image 2) a jumbled assortment of test pieces + a low-fidelity twisted bottle design.

(Image 3) The worlds' worst schooner (?!)