3D generative design software Archives - Perfect 3D Printing Filament

In July this year, Velo3D had qualified a new nickel-based alloy, Hastelloy X, due to its suitability in the additive manufacturing of power generation components such as gas turbines, using the company’s Sapphire metal AM platform. This announcement had followed relatively quickly on the back of securing the company’s largest order yet, worth $20 million, and raising $40 million in funding which increased the company’s total investment to $150 million till date.

Industrial gas turbines are a priority application for Velo3D, and offering optimized materials for power generation applications is critical to driving full-scale adoption among its clients. Following the approval of Hastelloy, the company swiftly moved to partner with Sierra Turbines and nTopology, provider of generative design solutions, to test the material in 3D printing 95% of a unicore of a 20-kilowatt microturbine engine. The material is optimized to have high resistance to oxidation or corrosion cracking, resulting in better performing microturbines which require lower maintenance.

Image Courtesy of Sierra Turbines

The results from the additively manufactured Aurelius Mk1 core really bring home the advantages of using AM over the traditional manufacturing approach. Part count was reduced from 61 separate components to one. This alone eliminates the need to procure and transport various raw materials to manufacture individual parts using different process, as well as the need for assembly of course, involving dissimilar material joints, seals, fasteners. It also reduces post-processing requirements. The reduction of joints, and the ability to design with closer tolerances additionally prevents the possibility of leaks, improving engine efficiency.

AM also allowed designers to build in internal oil and fuel circuits, as well as re-think the fuel spray and flame shape in the combustion chamber. Using the nTop generative design platform, Sierra Turbines modeled a specific lattice geometry to atomize the fuel and a 360-degree fuel injector to distribute fuel equally around the circumference of the combustor. By redesigning from scratch, designers were also able to make the turbine more mass efficient (reducing weight by 50%), resulting in an expected thrust-to-weight ratio (10x increase in power density) significantly higher than existing state-of-the-art turbines of similar power. Regarding the ability to advance design using AM, Roger Smith, CEO of Sierra Turbines, stated,

“My design team is freed from the constraints of traditional manufacturing and even existing metal AM technologies such that they can focus purely on defining the geometry needed to maximize performance and differentiation.”

Image Courtesy of Sierra Turbines

This was enabled in no small part by the Velo3D Sapphire Platform, with support-free metal 3D printing, and the new specialized Hastalloy material. The case study from nTopology notes,

“This high level of integration however wouldn’t have been possible using machines other than the VELO3D Sapphire metal 3D printer. The no-contact re-coater blade used in the VELO3D machine allows support-free printing of overhangs down to 30 degrees, which in terms of additive manufacturing freedom is the equivalent of the falling of the Berlin wall.”

Altogether, every one of the benefits AM contributes to increasing the operational time of Aurelius Mk1, with time before overhaul (TBO) 40x greater than existing comparable turbines, and reducing operational cost. This is no small feat, small turbine engines average 40-50 hour between overhaul, and the Aurelius will average a significant 1000+ hours, comparable to that of commercial aircraft. It provides a remarkable demonstration of the difference AM can make in industrial power generation applications, and the results in bringing together specialized AM hardware and software solution providers to develop a revolutionary product.

Image Courtesy of Sierra Turbines

The Aurelius Mk1 will complete development shortly, with a few engines running by end of this year, and commercialization will begin with UAV manufacturers, with whom the company has already signed agreements. The company will to advance optimization and improvement of their Aurelius Mk1 microturbine, stating

Once the combustor has been thoroughly tested and benchmarked, he intends to pursue additional performance improvements. He’s also planning to work on the microturbine’s rotating components, an unorthodox move that many aerospace pundits would agree is beyond the pale. Here again, Smith is determined:

“VELO3D believes that you can use additive for full-scale production, and so do I,” he says. “For future gas turbine development, we aim to leverage the power of additive manufacturing to integrate features such as an efficiency-boosting recuperator, printed-in sensors, and more novel insulating and cooling geometries.”

You can learn more about the development of the Aurelius Mk1 in this webinar, and the full case study can be found here. Earlier this month, Velo3D had also partnered with Lam Research to explore potential applications for its metal 3D printing solutions in the semiconductor industry.

The post 3D Printed Turbine Combines 61 Parts into One appeared first on 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing.

MSC Software (a subsidiary of Hexagon, the publicly-traded Swedish tech giant with a market cap of $21.6 billion), known worldwide for their simulation software (including for AM), has just announced the release of a generative design tool allowing users to create highly-optimized, print-ready designs from a typical laptop. Not only that, they can do so 80 percent faster. MSC Apex Generative Design 2020 is capable of producing “optimal structures,” requiring only mechanical stress and size for production. Only viable parts are printed, with time and money saved on the bottom line due to a lack of quality or overall failure.

“To be more cost efficient, a redesign was absolutely necessary,” states MSC Software customer Dr. Martin, Laher MIBA Sinter Austria. “With MSC Apex Generative Design 2020, we were able to show that printing time and costs can be significantly reduced with a volume reduction so that we are now much more competitive.”

Products can be 3D printed with lighter weight, less waste in materials, and less time regarding labor too as the designer or engineer is free to engage in other work rather than wasting time in reproduction of parts that failed. With the new software, parts are ‘fine-tuned’ and ready for manufacturing.

MSC Apex Generative Design 2020 is suitable for almost all applications, saving users a staggering 80 percent in design time. Surgeons can create medical devices like implants, ‘pre-validating’ their designs for 3D printing, along with improving biocompatibility and mimicking the identical weight and structure of tissues like bone. Engineers can redesign parts with lighter weight, yet with better efficiency in functionality, and equal performance and safety.

Automotive engineers can build products for vehicles like motorcycles, designing chassis that are over 50 percent lighter—able to save on energy consumption and reduce the environmental footprint. Manufacturers overall can take advantage of ‘first-time-right part production.’

Sample drone design for a motorcycle

“Designing an optimal product that fully exploits the available techniques is such a convoluted process today, that designers have to compromise. Designers’ eyes light up when they use MSC Apex Generative Design because it thinks like them, improving parts with intelligent engineering decisions – only much faster,” said Thomas Reiher, Director of Generative Design, MSC Software.

“Our users have reported slashing their design time by 80% by reducing the number of individual tools and interventions, automating the optimisation process, and streamlining their workflows. They start producing products that for the first time they have been able to optimise with design, performance and cost all tailored to their technical and commercial requirements.”

Sample drone satellite

The software also offers the following features:

Generation of the first designs in an hour
Production of final design within hours
Intuitive interface tool for designers without specialized knowledge
Anticipation of design issues
Design for Additive Manufacturing (DfAM) tool for topology optimization and smoothing
Linking to other tools like Simufact Additive for metal and Digimat AM for polymers

“This first major release introduces new controls that make it easier for designers to adjust the complexity of the generated designs and how much the fixation points can be reduced,” states the MSC Software team in a recent press release sent to 3DPrint.com. “It also exploits many productivity benefits of the underlying MSC Apex platform, for example direct export of engineered models (mesh) to Computer Aided Design (CAD) formats so that generative design optimisation can be used within common CAD/CAM manufacturing workflows.”

This software release joins a host of other generative design tools being used for additive manufacturing and 3D printing, to include those created by companies like nTopology, allowing users to design complex structures quickly. Netfabb from Autodesk offers end-to-end solutions for users, while companies like Colorado’s Frustum (owned by leader in CAD—PTC) specializes in artificial intelligence software and cloud-based topology optimization solutions with products like TrueSolid.

[Source / Images: MSC Software]

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