Simulation

Assembly Line

How Cloud-Native CAE Simulation Boosts Growth & Savings

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โœ๏ธ Author: Samir Jaber

๐Ÿ”– Topics: Computer-aided Engineering, Simulation

๐Ÿข Organizations: SimScale, Illinois Tool Works, Samco, Withings, Rimac, Kichler, Johnson Screens, Axens


From CFD analyses of aerodynamics, turbomachinery, and urban microclimates to FEA simulations of structural mechanics in automotive and consumer products, all the way to thermal analyses for indoor environments and electronics cooling, the applications for engineering simulation are numerous and can involve multiple physics. In this article, we dive into cloud simulation and CAE and find out how it strategically impacts business growth and helps optimize financial resources, enabling sustainable growth and profitability while minimizing risks. We explore in numbers how various companies from different industries have benefited from SimScaleโ€™s cloud-native simulation platform and how you can, too.

One example is ITW, a global design and engineering firm and a leading global supplier of auto parts. Using SimScale, ITW engineers conducted nonlinear static simulation and analysis to accelerate the development of plastic automotive fastening components, allowing them to minimize the insertion force of their fasteners by up to 85% while saving 10% of their R&D costs.

Read more at SimScale Blog

AI Optimization: New Opportunities for 3D Printing

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โœ๏ธ Author: Lucia Gartner

๐Ÿ”– Topics: Simulation, Additive Manufacturing, 3D Printing

๐Ÿข Organizations: PhysicsX, Velo3D


AI accomplishes this feat by solving the CFD or FEA equations in a non-traditional way: machine learning examines, and then emulates, the overall physical behavior of a design, not every single math problem that underlies that behavior. This uses far fewer computational resources while achieving an extremely robust evaluation of the design in every applicable environment. Hundreds of thousands of design candidates can be simulated and evaluated in less than a day. Bottom line: Applying AI amplifies the typical 10-20% performance improvements of simulation tools aloneโ€”up to 30% and higher. (Of course it follows that real-world testing of finished parts remains an essential task to ensure that all quality and performance metrics are met.)

Velo3D requested PhysicsX to design and simulate a solution. PhysicsX has deep experience in simulation, optimization and designing for tight packages (from considerable work in F1 racing and expertise in data science, machine learning and engineering simulation), plus proprietary simulation-validated tools that can automatically iterate on designs using machine learning/AI-based simulations. The PhysicsX approach involves creating a robust loop between the CFD, generative geometry creation tools and an AI controller to train a geometric deep learning surrogate. The surrogateโ€™s speed, producing high-quality CFD results in under a second, is then exploited with a super-fast geometrical generative method in another machine learning loop, which deeply optimizes the design towards whichever multiple objectives the engineer decides are important. The fidelity of the deep learning tools and robust workflow enables a highly accurate solution for final validation of the results against the validated CFD model.

Read more at 3Dprintr

Battery pack assembly line powered by Process Simulate software and the Industrial Metaverse

Data-Driven Design: Leveraging Synthetic Data for Engineering Simulations

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โœ๏ธ Author: Finnur Pind

๐Ÿ”– Topics: Digital Twin, Synthetic Data, Simulation

๐Ÿข Organizations: Treble Technologies, Boeing


A key feature in this recent chapter of the digitization of design is that synthetic data and digital twins have dramatically improved collaboration and communication among stakeholders involved in the product design process. Virtual replicas are far easier to share and visualize than their physical counterparts, and the results of these twins being used alongside synthetic data are far-reaching.

By harnessing the power of synthetic data and digital twins, developers gain deeper insights into product performance. The aviation industry demonstrates a perfect example of this. As a result of using digital twin technologies, Boeing recently saw a 40% improvement in first-time quality of its systems and parts.

Creating comprehensive digital twins that capture the complexity of physical systems may require significant computational resources and integration with IoT devices. At Treble Technologies, acoustic engineers achieve this through benchmark testing. Having successfully simulated a deviceโ€™s performance in one complex real-life room, the same benchmarks such as geometry detail or boundary conditions can then be used to simulate other hypothetical rooms of similar complexity. To evaluate the authenticity of synthetic data, benchmark datasets comprising real-world data can be created.

Read more at Machine Design

Simplify Your Thermal Simulation With Immersed Boundary Method

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โœ๏ธ Author: Alexander Fischer

๐Ÿ”– Topics: Simulation, Computer-aided Design, Immersed Boundary Method

๐Ÿข Organizations: SimScale


However, common bottlenecks to simulation have been CAD preparation and the numerical discretization of that model (meshing). Both consume time and manual intervention. The advent of advanced physics solvers and novel meshing techniques, such as the immersed boundary method, means that engineers spend less time making their CAD models simulation-ready and more time on insight-driven design. Skipping the time-intensive CAD preparation also opens up the possibility of doing simulations very early when some components are still in the draft stage and comparing many variants that otherwise would have required repeated CAD simplification efforts.

The Immersed Boundary method addresses the core of this dilemma. It completely removes the CAD preparation or reduces it to a few minutes at most. At the same time, the physics-driven meshing avoids high mesh resolutions on detailed CAD features that are insignificant to the systemโ€™s thermal behavior. Yet, it resolves physically relevant regions like power sources or flow channels to the level the user requires. This level might differ significantly based on the current simulation intent.

Read more at Simscale Blog

Lufthansa Technik Reduces Time to Design and Certification with Ansys

Leonardo Labs Implements Ansys Simulation to Develop Cutting Edge Aircraft

๐Ÿฆพ Transferring Industrial Robot Assembly Tasks from Simulation to Reality

๐Ÿ“… Date:

โœ๏ธ Authors: Bingjie Tang, Yashraj Narang

๐Ÿ”– Topics: Industrial Robot, Simulation, Reinforcement Learning

๐Ÿข Organizations: NVIDIA, Franka Emika


By lessening the complexity of the hardware architecture, we can significantly increase the capabilities and ways of using the equipment that makes it financially efficient even for low-volume tasks. Moreover, the further development of the solution can be mostly in the software part, which is easier, faster and cheaper than hardware R&D. Having chipset architecture allows us to start using AI algorithms - a huge prospective. To use RL for challenging assembly tasks and address the reality gap, we developed IndustReal. IndustReal is a set of algorithms, systems, and tools for robots to solve assembly tasks in simulation and transfer these capabilities to the real world.

We introduce the simulation-aware policy update (SAPU) that provides the simulated robot with knowledge of when simulation predictions are reliable or unreliable. Specifically, in SAPU, we implement a GPU-based module in NVIDIA Warp that checks for interpenetrations as the robot is learning how to assemble parts using RL.

We introduce a signed distance field (SDF) reward to measure how closely simulated parts are aligned during the assembly process. An SDF is a mathematical function that can take points on one object and compute the shortest distances to the surface of another object. It provides a natural and general way to describe alignment between parts, even when they are highly symmetric or asymmetric.

We also propose a policy-level action integrator (PLAI), a simple algorithm that reduces steady-state (that is, long-term) errors when deploying a learned skill on a real-world robot. We apply the incremental adjustments to the previous instantaneous target pose to produce the new instantaneous target pose. Mathematically (akin to the integral term of a classical PID controller), this strategy generates an instantaneous target pose that is the sum of the initial pose and the actions generated by the robot over time. This technique can minimize errors between the robotโ€™s final pose and its final target pose, even in the presence of physical complexities.

Read more at NVIDIA Technical Blog

Turbotech Soars with Sustainable Aviation Solutions Powered by Ansys Multiphysics Simulation

READY Robotics and NVIDIA Isaac Sim Accelerate Manufacturing With No-Code Tools

๐Ÿฆพ From Simulation to Reality: A Tale of Robotic Heartache

๐Ÿ“… Date:

โœ๏ธ Author: Ryan Lober

๐Ÿ”– Topics: Industrial Robot, Simulation

๐Ÿข Organizations: Fuzzy Logic


Itโ€™s hard to imagine building any physical object without first fully designing, assembling, and even testing it on your computer. CAD/CAM tools and multi-physics simulations are readily available, allowing you to iterate quickly in the digital world rather than building N-prototypes of your widget and spending a lot of money trying to get it right. Validating a process in simulation is critical because there is very little margin for error on a real robot. Robots can be big, powerful beasts that will obediently destroy thousands of dollars of material just because you were off by 1 millimeter in your calculations. Not to mention the potential danger to personnel who happen to be near the robot during testing. So, the more we can simulate, the safer and more productive we will all be.

Read more at Fuzzy Logic Blog

DENSO reduce component simulation time by 80 percent using its Simcenter 3D and NX integrated process

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๐Ÿ”– Topics: Simulation

๐Ÿญ Vertical: Automotive

๐Ÿข Organizations: DENSO, Siemens


A major challenge today is to improve productivity in the design and simulation of automotive parts. Even before the rise of software solutions, designers focused on geometry and turned to analysts to test and validate performance. However, simulation teams have always been much smaller than design teams โ€“ creating a bottleneck in the development process.

With Siemens tools, DENSO saw an opportunity to streamline the traditional workflow between design and engineering analysis, uniting the disciplines. This was particularly true for component design and analysis where simulation processes are more routine. DENSOโ€™s goal was to reduce or eliminate the iteration with a new workflow.

Read more at Siemens Resources

Using simulation technologies to craft material handling in a facility

NVIDIA Robotics Software Jumps to the Cloud, Enabling Collaborative, Accelerated Development of Robots

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โœ๏ธ Author: Gerard Andrews

๐Ÿ”– Topics: Industrial Robot, Simulation

๐Ÿข Organizations: NVIDIA


Robotics developers can span global teams testing for navigation of environments, underscoring the importance of easy access to simulation software for quick input and iterations. Using Isaac Sim in the cloud, roboticists will be able to generate large datasets from physically accurate sensor simulations to train the AI-based perception models on their robots. The synthetic data generated in these simulations improves the model performance and provides training data that often canโ€™t be collected in the real world.

Developers will have three options to access it. It will soon be available on the new NVIDIA Omniverse Cloud platform, a suite of services that enables developers to design and use metaverse applications from anywhere. Itโ€™s available now on AWS RoboMaker, a cloud-based simulation service for robotics development and testing. And, developers can download it from NVIDIA NGC and deploy it to any public cloud.

Read more at NVIDIA Blog

Impeller Design & Optimization for Additive Manufacturing

๐Ÿ“… Date:

โœ๏ธ Author: Alkaios Bournias Varotsis

๐Ÿ”– Topics: Additive Manufacturing, Simulation

๐Ÿข Organizations: Wartsila, nTopology, SLM Solutions, Oqton


Wรคrtsilรคโ€™s engineers redesigned the centrifugal pump impeller for additive manufacturing. Not only was the optimized turbomachinery component 44% lighter, but it was generated using an automated design process, enabling customization.

For this collaborative project, engineers from Wรคrtsilรคโ€™s additive manufacturing center in Finland joined forces with nTopology, SLM Solutions, and Oqton to create a digital workflow based on advanced engineering design and additive manufacturing technologies. The primary aim of this project was to replace the traditionally cast impeller.

Read more at nTopology Blog

Deere Invests Billions in Self-Driving Tractors, Smart Crop Sprayers

๐Ÿ“… Date:

โœ๏ธ Authors: Bob Tita, Jacob Bunge

๐Ÿ”– Topics: Additive Manufacturing, Simulation

๐Ÿข Organizations: John Deere


The company this year is rolling out self-driving tractors that can plow fields by themselves, and sprayers that distinguish weeds from crops. Deere, which helped make satellite-guided tractors ubiquitous in the U.S. Farm Belt over the past 20 years, is investing billions of dollars to develop smarter machines that the company said will make farming faster and more efficient than it ever could be with just farmers behind the wheel.

Read more at Wall Street Journal (Paid)

Sim2Real AI Helps Robots Think Outside The Box

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๐Ÿ”– Topics: Simulation, Generative Design, Industrial Robot

๐Ÿข Organizations: Ambi Robotics


At Ambi Robotics, our robotic systems learn how to handle diverse items using data generated by advanced simulation. We fine-tune our simulations to the performance of our sensors, our robots, and variations on the items our robots will handle. Our simulations run extremely fast, hundreds of times faster than robots training in the physical world, so we can train our robots overnight. This is what enables our solutions to work reliably from day one.

Read more at Ambi Robotics Blog

Boschโ€™s new partnership aims to explore quantum digital twins

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๐Ÿ”– Topics: Quantum Computing, Simulation

๐Ÿข Organizations: Bosch, Multiverse Computing


Industrial giant Bosch has partnered with Multiverse Computing, a Spanish quantum software platform, to integrate quantum algorithms into digital twin simulation workflows. Bosch already has an extensive industrial simulation practice that provides insights across various business units. This new collaboration will explore ways quantum-inspired algorithms and computers could help scale these simulations more efficiently.

One of the most promising use cases for the new quantum algorithms is creating better machine learning models more quickly. Hernรกndez Caballer said quantum computing shows tremendous promise in use cases with many combinations of parameters and materials. This early research could give Bosch a leg up in taking advantage of these new systems to improve machine learning and simulation.

Read more at VentureBeat

Grinding Simulation Enables Growth in Custom Tooling

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โœ๏ธ Author: Evan Doran

๐Ÿ”– Topics: Machine Tool, Simulation

๐Ÿข Organizations: Gorilla Mill, ANCA


Even the best grinding simulation has flaws โ€” namely, a reliance on perfection. Real-world scenarios on the shop floor can diverge from the tested parameters, requiring adjustments to achieve the performance promised in the simulation. Gorilla Mill, a toolmaker based out of Waukesha, Wisconsin, relies on ANCAโ€™s CIMulator3D software to control for these differing parameters.

By providing a virtual testing ground for complex custom designs, the software ensures tool quality, prevents scrap and streamlines the process of developing customer prints. A machine-side simulator application reduces setup time by highlighting how differences between ideal and actual circumstances will affect the ground part and by enabling machinists to adjust settings to achieve optimal results rather than regrind wheels.

Read more at Modern Machine Shop

Improving asset criticality with better decision making at the plant level

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โœ๏ธ Authors: Mike Brooks, Mike Strobel

๐Ÿ”– Topics: Manufacturing Analytics, Simulation

๐Ÿข Organizations: AspenTech, Cisco


The industry is beginning to see reliability, availability and maintainability (RAM) applications that integrally highlight the real constraints, including the other operational and mechanical limits. A RAM-based simulation application provides fault-tree analysis, based on actual material flows through a manufacturing process, with stage gates, inventory modeling, load sharing, standby/redundancy of equipment, operational phases, and duty cycles. In addition, a RAM application can simulate expectations of various random events such as weather, market dynamics, supply/distribution logistical events, and more. In one logistics example, a coker unitโ€™s bottom pump was thought to be undersized and constraining the unit production. Changing the pump to a larger size did not fix the problem, because further investigation showed insufficient trucks on the train to carry the product away would not let the unit operate at full capacity.

Read more at Plant Engineering

The Multi Crane Scheduling Problem: A Comparison Between Genetic Algorithms and Neural Network approaches based on Simulation Modeling

๐Ÿ“… Date:

โœ๏ธ Authors: Naomie Bartoli, Roberto Revetria, Emanuele Morra, Gabriele Galli, Edward Williams

๐Ÿ”– Topics: Simulation, Genetic Algorithm, Multilayer Perceptron

๐Ÿข Organizations: University of Genoa, University of Michigan-Dearborn, PMC


The internal logistics for warehouses of many industrial applications, based on the movement of heavy goods, is commonly solved by the installment of a multi-crane system. The job scheduling of a multi-crane is an interesting problem of optimization, solved in many ways in the past: this paper describes a comparison between the optimization by the use of Genetic Algorithms and the machine learning piloting driven by Neural Networks. A case-study for steel coil production is proposed as a test frame for two different simulation software tools, one based on heuristic solution and one on machine learning; performances and data achieved from reviews and simulations are compared.

Read more at PMC White Papers

Simulating and Optimizing an Electric Vehicle Battery Cold Plate

๐Ÿ“… Date:

โœ๏ธ Author: Naghman Khan

๐Ÿ”– Topics: Simulation

๐Ÿข Organizations: SimScale


The efficient and accurate cooling of an electric vehicle battery cold plate is critical to ensure their optimum performance, battery reliability, and lifecycle return on investment. High development costs can be mitigated with access to fast and accurate simulation insights using engineering simulation in the cloud. For example, additional R&D, prototyping, and machining costs are reduced by arriving at an optimized and less complex design, earlier in the design cycle.

This article presents a design and simulation study of battery cold plate technology for electric vehicles. Engineering simulation is used to perform a fully-coupled conjugate heat transfer analysis of a cold plate for dynamic thermal management. Furthermore, using an advanced Subsonic CFD solver, a design study is performed for evaluating pressure-flow characteristics across the cold plate flow channel. Parallel simulations in the cloud are used for scenario analysis both for geometric variants and multiple coolant flow rates. In this sample case, our simulation workflows show users how to set up and run a complete heat transfer and flow analysis of a cold plate, including pressure drop and temperature at various coolant flow rates. Engineers can follow this example to learn how to quickly complete a parametric design study in SimScale and answer key design questions.

Read more at SimScale Blog

Digital twin: Empowering power systems with real-time training and predictive simulation

๐Ÿ“… Date:

โœ๏ธ Author: Sophie Borgne

๐Ÿ”– Topics: Digital Twin, Simulation

๐Ÿข Organizations: Schneider Electric


Uncontrolled operation and neglected maintenance of electrical systems increase safety and financial risks in such facilities, often resulting in unplanned outages that can cause equipment damage and injuries to on-site personnel.

Consider the average cost of power outages in the following critical industries:

  • Oil and Gas- $800K to $3M per outage event (per Schneider Electricโ€™s internal Voice of Customer study).
  • Semiconductor- $3.8M for a single electrical event
  • Data Center -30% of all reported outages cost more than $250,000, with many exceeding $1M

Leveraging digital twin technology, fully digitized electrical single-line diagrams can help address these concerns by boosting operational efficiency and reducing safety exposures. This is an example of the same digital twin technology used during the design phase of an electrical system being applied in the operation and maintenance phases of the lifecycle.

Read more at Schneider Electric Blog

Industrial dataOps capabilities to truly scale Simulation Digital Twins

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โœ๏ธ Author: Alexander Gleim

๐Ÿ”– Topics: Digital Twin, Simulation

๐Ÿข Organizations: Microsoft, Cosmo Tech, Cognite


For some time, the notion of digital twins has been ubiquitous in exemplifying the potential of digital technology for heavy-asset industries. With a digital representation of a real-world system of assets or processes, we can apply simulation and optimization techniques to deliver prescriptive decision support to end-users.

Simulation Digital Twins help industries to make decisions in an increasingly complex & uncertain environment, to balance competing constraints (revenue, cost, efficiency, resiliency, carbon footprint, ++), and to react quickly and adapt with agility to real-world changes.

In this article we are describing solutions that combine the capabilities of Microsoft Azure Digital Twins, Cognite Data Fusion and Cosmotech Simulation Digital Twins. In an integrated solution, Azure Digital Twins provides a digital twin model that reflects real time state from sensors and other real time source and orchestrates event processing. Cognite Data Fusion (CDF) delivers integration of schemas and metadata from IT, OT and ET data sources, including the generation of models and twin graphs for Azure Digital Twins. The Cosmotech Simulation Digital Twin platform adds deep simulation capabilities in a scalable, open framework.

Read more at Microsoft IoT Blog

Visual Components Connector for NVIDIA Omniverse: The future of Manufacturing Planning

Advanced simulation in manufacturing

A simulation-based approach to design an automated high-mix low-volume manufacturing system

๐Ÿ“… Date:

โœ๏ธ Authors: Koen Herps, Quang-Vinh Dang, Tugce Martagan, Ivo Adan

๐Ÿ”– Topics: Simulation, Simulated Annealing, Automated Guided Vehicle

๐Ÿข Organizations: Eindhoven University of Technology


In this paper, we address the profit optimization problem of an automated high-mix low-volume manufacturing system, which originates from a real-world problem at our industry partner. The manufacturing system includes buffer units from which jobs are automatically transported to workstations, i.e., using automated material handling devices. We consider three different automation concepts for the system: (1) a configuration with parallel buffers and a dedicated robot to work them, (2) a configuration that employs shared buffers that are tended to by automated guided vehicles (AGVs), and (3) a proposed hybrid configuration that takes elements of both aforementioned configurations. We propose a simulation-based approach, which uses simulated-annealing (SA), enriched with the reduced variable neighborhood search (RVNS), to determine the best system configuration for a high-mix, low-volume manufacturer. Decisions concern the choice of automation equipment and the capacity of both parallel and shared buffers. We illustrate the efficacy of the proposed hybrid concept and the proposed SA-RVNS approach with an industry case study using real-world data from our industry partner. Our analysis shows that the proposed concept increases the profit by around 10โ€“30% compared to the others, and the AGV travel time plays an important factor in the proposed concept to yield its true potential.

Read more at ScienceDirect

Expanding the robotics toolbox: Physics changes in Unity 2022.1

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๐Ÿ”– Topics: Simulation, Industrial Robot

๐Ÿข Organizations: Unity


Simulate sophisticated, environment-aware robots with the new inverse dynamics force sensor tools. Explore dynamics with the completely revamped Physics Debugger. Take advantage of the performance improvements in interpolation, batch queries, and more.

Read more at Unity Blog

Improving the design process with simulation

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๐Ÿ”– Topics: Simulation

๐Ÿข Organizations: Dassault Systemes


The cheapest way to develop a new product is for the process to be as linear as possible between concept and manufacture. Each time designers make decisions on the project, thereโ€™s a chance that the path they take may lead them off on a tangent. Integrating simulation tool sets into the process means that these decisions can be validated sooner rather than later.

Ultimately, most companies will still use a physical test model as their measure of success. Using simulation to mimic this is certainly possible, but not many will invest enough to make this realistic. However, employing simulation-driven design from the outset of the project means that errors are more likely to be caught earlier on. And that means the expensive stage of physical prototyping and testing is more likely to be successful.

Read more at 3D Perspectives

At Amazon Robotics, simulation gains traction

๐Ÿ“… Date:

โœ๏ธ Author: Alan S. Brown

๐Ÿ”– Topics: industrial robot, simulation

๐Ÿข Organizations: Amazon, MIT


โ€œTo develop complex robotic manipulation systems, we need both visual realism and accurate physics,โ€ says Marchese. โ€œThere arenโ€™t many simulators that can do both. Moreover, where we can, we need to preserve and exploit structure in the governing equations โ€” this helps us analyze and control the robotic systems we build.โ€

Drake, an open-source toolbox for modeling and optimizing robots and their control system, brings together several desirable elements for online simulation. The first is a robust multibody dynamics engine optimized for simulating robotic devices. The second is a systems framework that lets Amazon scientists write custom models and compose these into complex systems that represent actual robots. The third is what he calls a โ€œbuffet of well-tested solversโ€ that resolve numerical optimizations at the core of Amazonโ€™s models, sometimes as often as every time step of the simulation. Lastly, is its robust contact solver. It calculates the forces that occur when rigid-body items interact with one another in a simulation.

Read more at Amazon Science

Riven Ramps Up Accurate Part Production with 3D Reality Intelligence

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โœ๏ธ Author: Heather MacKenzie

๐Ÿ”– Topics: Additive Manufacturing, Simulation

๐Ÿข Organizations: Riven, GrabCAD, Stratasys


Riven is a cloud software company specializing in 3D reality intelligence that accelerates product introduction of high-accuracy, end-use additive manufactured parts. Rivenโ€™s software, using 3D reality data and proprietary algorithms, allows engineering and manufacturing teams to cut iterations and time to good parts while improving the customer experience.

Now, Riven has gone further and corrects these deviations by introducing Warp-Adapted-Models (WAM); Rivenโ€™s WAM corrects systematic warp, scaling and offset from all causes in minutes from a first printed part. Additive manufactured parts using Riven WAM are up to 10X more accurate than those printed with CAD. WAM is also scalable from singular high-value parts to series production. This improved accuracy helps solve the customer pain and problems from out-of-spec parts and enables exciting new end-use product applications for AM.

Read more at GrabCAD Blog

Nonlinear Static Analysis: Snap-Fit Assembly

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โœ๏ธ Author: Nur Ozturk

๐Ÿ”– Topics: Simulation, Cloud Computing

๐Ÿข Organizations: SimScale


Cloud-native engineering simulation enables engineers to test the structural performance and structural integrity of their designs earlier and with accuracy. Advanced solvers that account for thermal and structural behavior can be accessed to provide robust assessments of deformation, stresses, and other design critical output quantities. In this article, we analyze the structural performance and integrity of a casing snap-fit assembly using cloud-native nonlinear static analysis. The focus of this analysis was to detect the peak stress regions, and therefore better understand the likelihood of permanent deformations. After analyzing the structural behavior, the design goal was to ensure safe snap operations, while minimizing the material yielding.

Read more at SimScale Blog

Four Ways to Connect Digital Threads with Simulation and Realize the Promise of Industry 4.0

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๐Ÿ”– Topics: Simulation

๐Ÿข Organizations: Ansys


The winners in this new age of manufacturing will be those that can connect the right digital threads of data to get to market faster, avoid downtime, quickly respond to supply-chain disruptions, and address sustainability issues.

Simulation is critical to connecting those threads in a two-way communication network that fully uses Industry 4.0 to achieve four advantages: accelerate time to market, reduce manufacturing downtime, take advantage of just-in-time additive manufacturing, and support sustainability initiatives.

Read more at Harvard Business Review