Theta Technologies proves NDT capabilities – 3DPMN
Theta Technologies is developing a game-changing, non-destructive testing (NDT) solution that is proven to detect the presence of flaws in 3D printed components. The nonlinear resonance technique is designed to excite components using a variety of different sources. Once the component is excited, a detector system watches for non-linearity within the tested component.
With the metal additive manufacturing industry rapidly evolving and subsequently allowing manufacturers to design and create much more complex metal components, this unique non-destructive testing technique is emerging at a convenient time for those wanting to manufacture bespoke metal parts – particularly for safety-critical applications. Theta’s solution offers several crucial benefits over other NDT solutions on the market – such as saving time, reducing overall costs, and freeing up resources by identifying flawed components before post-processing is completed.
There is, however, no better way to prove that a new technology lives up to its promise than by putting it to the test.
Thermal engineering company, HiETA Technologies Ltd, is well-known in the additive manufacturing industry for their production of heat exchangers. The complex geometry of these parts has resulted in other non-destructive testing technologies being relatively ineffective when it comes to identifying flaws within the components. With this in mind, Theta decided to prove that the company had the solution to this common additive manufacturing problem.
HiETA was already aware that one of the sample heat exchangers was flawed and challenged Theta’s nonlinear resonance NDT technology to identify this. The blind test of each of the Inconel samples was undertaken using the same parameters, with repeatability and reproducibility of the part examinations being key features in determining the overall outcome. The error bars seen in the graph above are two standard deviations obtained in reproducibility tests, and identify the ‘Damage Index’ for both samples S8 and S9. As Theta discovered, there were very clear distinctions between flawed and flawless samples based on the nonlinear signature.
741 unique polymer AM companies individually surveyed and studied. Core polymer AM market generated $4.6 billion…
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