ARAMIS SRX: schneller, hochauflösender 3D-Bewegungs- und Verformungssensor
With the new ARAMIS SRX system, GOM extends its range of 3D sensors for dynamic measurement of 3D coordinates, 3D displacements and surface strains. The ARAMIS systems are non-contact and material-independent measuring systems based on digital image correlation (DIC). They provide information on the properties of the used materials and the behavior of the resulting parts under load. The results form the basis for product durability, geometrical layout and reliable numerical simulations and validations.
The high-resolution ARAMIS SRX sensor comprises the latest camera technology including 12-megapixels cameras and can be used for various applications. In high-speed materials and components testing, up to 2000 images per second can be captured. Thus, the failure behavior of parts can be captured locally and over time in high resolution. A special HD mode was developed for crash applications. In this mode, high-speed sequences can be analyzed in high resolution with an image recording rate of 1000 Hz. The combination of high resolution and high speed allows precise results for applications that require both capturing an event in detail over time and capturing local effects.
The ARAMIS SRX is complemented by the GOM Touch Probe, a tactile measuring system expansion, which is optically tracked by the ARAMIS system. The GOM Touch Probe allows tactile measurements of coordinates at areas that are difficult to access optically. Tactile measurement is also useful to align the part.
Moreover, the ARAMIS SRX shows a high stability and process reliability and is very user-friendly, which is why it is primarily used in industrial environments. The specimens can be measured independently from their geometry and temperature with accuracies up to the micrometer range. Time-consuming and expensive part preparation is not necessary anymore. For statically or dynamically loaded specimens and parts, ARAMIS SRX provides precise 3D data, such as coordinates, displacements, velocities and accelerations, surface strains and material characteristics. These data serve as input parameters for numerical simulations (stress-strain curve, etc.) and evaluations of 6 degrees of freedom (6DoF).
Find further information at: www.gom.com
GOM develops, produces and distributes software, machines and systems for 3D coordinate measuring technology and 3D testing based on latest research results and innovative technologies. With more than 60 sites and more than 1,000 metrology specialists, GOM guarantees professional advice, as well as support and service across the globe. More than 17,000 system installations improve the product quality and manufacturing processes in the automotive, aerospace and consumer goods industries.