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Optimized Design for 3D Printed Valve Block Sheds Weight, Size and Gains Improved Performance
Technology Category
- Functional Applications - Manufacturing Execution Systems (MES)
Applicable Industries
- Education
- Equipment & Machinery
Applicable Functions
- Product Research & Development
- Sales & Marketing
Use Cases
- Additive Manufacturing
- Rapid Prototyping
Services
- Training
The Challenge
The Technical Research Centre of Finland Ltd. (VTT) was tasked with the optimization and design of a valve box with regard to additive manufacturing requirements. The project was part of a larger initiative to explore the feasibility of additive manufacturing in Finland. The valve block was provided by Nurmi Cylinders, a Finland-based manufacturer of hydraulic cylinder products. The goal was to showcase what a design specifically targeted for additive manufacturing had to look like in order to fully benefit from the manufacturing method. The objectives were to reduce the size and the amount of material needed for the valve block, and to optimize and improve the valve block’s internal channels to produce a better component for the customer. However, not every component or product is suitable for 3D printing, depending on its size, form and design as well as the quantity needed. A valve block is very suitable for 3D printing and has a high potential for improvement in weight, performance, and design freedom when additively manufactured.
About The Customer
The customer in this case study is Nurmi Cylinders, a Finland-based manufacturer of hydraulic cylinder products for offshore, industrial, marine and mobile hydraulics. They were one of the funders of the project and provided the valve block that was to be optimized and redesigned for additive manufacturing. Nurmi Cylinders was interested in exploring the potential benefits of additive manufacturing for their products, specifically in terms of reducing the size and amount of material needed for their valve blocks, and optimizing and improving the valve block’s internal channels to produce a better component for their customers. They worked closely with VTT throughout the project, providing the boundary conditions and additional internal limitations for the design of the valve block.
The Solution
To design, optimize, and analyze the valve block, VTT used Altair Engineering’s HyperWorks® CAE software suite. OptiStruct®, the optimization tool and finite element solver in the suite, was VTT’s first choice. The software allowed the engineer to define the design space and its limitations, as well as loads and other boundary conditions, and the optimization tool proposed an optimal design. To further optimize the valve block’s performance, the route of the internal fluid channels was changed. Initially these channels were curved like an S, with the cross sections having a circular shape. The solution VTT came up with, together with the customer, was keeping the same cross sectional area but changing the shape and path of the channels. One of the major goals of the project was to create ‘design rules‘ for SLM. These include guidelines such as designing an oval or diamond shape channel instead of a circular one, since this design doesn't need support structures and will result in an overall structure that can be better printed with the SLM method.
Operational Impact
Quantitative Benefit
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