Maybe you haven’t heard, but there’s an app for CAD! The AutoCAD mobile app is a powerful companion to AutoCAD on your desktop – and it’s a totally free benefit of your AutoCAD subscription. Have field or site work? We spoke to one customer who discovered how much of a life-saver AutoCAD mobile can be.
Michael is currently Industry Strategy Manager for Structural Engineering, responsible for establishing long-term Industry Strategy for structural analysis, design, detailing and fabrication with Autodesk. Michael practiced structural engineering at Ellerbe Becket and holds a BS and MS from the University of Minnesota, and an MBA from Michael J. Coles College of Business and these are his words about re-engineering structural analysis for the future.
“Structural Engineering – open that!” It was exciting to hear the droid K-2 say these words in the film Star Wars Rogue One last winter. If you recall, this was the scene where Jyn and Cassian were frantically searching for the Death Star plans at the Citadel Tower’s data vault. As a former practicing structural engineer, I saw this as a short but proud moment for all of us to be in the limelight. After the movie ended, however, I couldn’t help but wonder how many other people in the theater understood what K-2’s exclamation meant. I mean, other than fellow engineers, does anyone else realize how important structural engineering is to the world?
Revit 2018 software has several new Revit MEP features related to detailing LOD 400 elements to help you extend design to fabrication. Improve modeling productivity with greater accuracy and achieve the detail needed for fabrication, estimation, and installation of building services.
For mechanical contractors using Revit MEP, here are two exciting areas of development:
Sloped fabrication pipework
The sloped model component interaction for fabrication elements has been improved in Revit 2018 by introducing part-by-part modeling for sloped pipes, and introducing the ability to apply slope to fabrication elements that have already been laid out.
Building upon last year’s part-by-part placement of fabrication elements, you can now apply slope to a part as you place it in the model. As you continue to apply elements, you can specify a different slope for each branch. To make it easier, you can select a user-defined slope for the element, rather than having to enter a slope each time. Elements that are required to be horizontal will remain horizontal and elements that require slope will be sloped.
Slope tools for MEP fabrication pipework are similar to slope tools for generic pipework parts. Many commands and workflows behave the same for both generic and fabrication sloped pipe. You no longer need to place an element and rotate it at the required angles before you can start sloping the pipe.
Multi-point routing with MEP fabrication parts
Another improvement was detail modeling productivity in multi-point routing with MEP fabrication parts. The multi-point routing tool gives you the ability to create a run of connected MEP fabrication parts by clicking on points in the model, and more efficiently model ducts, pipes, and electrical containment elements.
Part-by-part modeling for fabrication elements were introduced to meet the needs of the fabrication detailer, especially when they get into tight coordination scenarios. Detailers need the flexibility of the part-by-part modeling tools to accurately place components in the right location and in the right direction.
In addition, you now have the ability to model fabrication components like you would with the design level of detail elements within Revit, or similar to design line in Fabrication CADmep. Parts are automatically selected from the current fabrication service and grouped in the MEP fabrication parts palette. You can change the shape, size, elevation, and the type of fittings as you route the elements, like from a mitered elbow to a radius elbow.
For this project, Yanis Lachat used a model created for a client who wanted to visualize an empty space. He had rendered an empty model, but believed that this project had the potential to transform itself into something unique.
The large open space was an instant source of inspiration for him! He decided to add his personal touch, with an unrefined industrial look that included lots of metal and raw materials. He thought it would be interesting to contrast the cold space with warm elements; in order to achieve this, he added components that would make the space feel friendly and casual such as furniture, a bar, chairs, etc. Pinterest and Google searches were invaluable in getting the creative juices flowing.
He modeled everything in the scene using 3ds Max, except for small accessories such as the forks, knives, and bottles placed in the bar.
He has a go-to set of tools in 3ds Max that he always uses simply because they are straightforward and suitable for all types of designs. He starts with a simple box, and then builds around it using cut, extrusion, slice, and sweep. For more organic shapes, he uses TurboSmooth to achieve a softer finish. With 3D software getting increasingly sophisticated, he finds the most basic tools to be the most efficient for his workflow.
In terms of texturing, nothing was too challenging within this scene. He used the standard UV mapping and unwrapping tools found in 3ds Max. Personally, he finds the slate material editor intuitive to work with.
Lighting and Camera
The overall lighting of the scene is derived from Peter Guthrie’s HDRI map, however, to create a sense of warmth, he added approximately 50 small lights to the space such as candles and bottle lights.
The renderer used for this scene was Corona. Isolating each element while working provides very fast rendering feedback, and he only pressed the render button at the very end. Usually, he renders at 4000px which is standard for print but lower for web resolution. All in all, he didn’t have to spend much time tweaking parameters.
The final render didn’t need a lot of post-production as the renderer includes an integrated LUT correction.
Nevertheless, he always ends up in Photoshop to add some finishing touches. He plays around with the levels, colors, add some vignetting, and includes some chromatic aberration. Where needed, he slightly sharpened the image and played with masks to lighten or darken specific elements. Lastly, for a more filmic look, he used Red Giant’s Magic Bullet Looks and After Effects.
Mechanical design software for manufacturing
Built for manufacturing, AutoCAD Mechanical engineering design software includes all the functionality of AutoCAD, plus libraries of standards-based parts and tools to help accelerate mechanical CAD.
AutoCAD® Mechanical 2018 software includes all the functionality of AutoCAD software, plus comprehensive libraries of standards-based parts and tools for automating common mechanical drawing tasks.
What does Revit do?
Revit is software for BIM. Its powerful tools let you use the intelligent model-based process to plan, design, construct, and manage buildings and infrastructure. Revit supports a multidiscipline design process for collaborative design.
Model building components, analyze and simulate systems and structures, and iterate designs. Generate documentation from Revit models.
Multiple project contributors can access centrally shared models. This results in better coordination, which helps reduce clashes and rework.
Communicate design intent more effectively to project owners and team members by using models to create high-impact 3D visuals.
A solution for collaborative BIM
With Revit work sharing, multiple team members can work on a project at the same time using a centrally shared model.
One multidiscipline BIM platform – the software has features for all disciplines involved in a building project. When architects, engineers, and construction professionals work on one unified platform, the risk of data translation errors can be reduced and the design process can be more predictable.
Interoperability – Revit helps you work with members of an extended project team. It imports, exports, and links your data with commonly used formats, including IFC, DWG™ and DGN.
Whether you’re an architect; a mechanical, electrical, or plumbing (MEP) engineer; a structural engineer; or a construction professional, Revit offers BIM features specifically designed for you.
Use the software to take an idea from conceptual design to construction documentation within a single software environment. Optimize building performance and create stunning visualizations.
Use tools specific to structural design to create intelligent structure models in coordination with other building components. Evaluate how well they conform to building and safety regulations.
Design MEP building systems with greater accuracy and in better coordination with architectural and structural components, using the coordinated and consistent information inherent in the intelligent model.
Evaluate the ability to build and design intent before construction begins. Gain a much better and clearer understanding of the means, methods, and materials, and how they all can come together.
Connect teams with Collaboration for Revit
Extend Revit worksharing to project teams in almost any location with this service, which lets multiple users co-author models in the cloud. Increase communication, centralize efforts of distributed teams, and let entire teams take part in the BIM process.
Fusion 360 Goes to (Engineering) School at the U.K.’s University of Warwick
The University of Warwick is renowned in the UK for its engineering courses. The School of Engineering has an integrated approach to engineering education that joins the key branches of engineering—including mechanical, electrical and electronic and civil—all drawing on research strengths in core engineering disciplines.
6 Fast Ways You Can Tailor the Quick Access Toolbar
The AutoCAD user interface can be customized to allow quicker access to the tools you use most frequently. You can add or change the tools that are visible on the Quick Access Toolbar (QAT), the ribbon, and many other user interface features within the AutoCAD environment.