Produktai skirti d klasė degant (10)

Nous réalisons des études sur vos structures aéronautiques / drones afin d'optimiser les performances de ces dernières tout en considérant les normes de sécurité en vigueur.

Um den hohen Anforderungen die an Ihre Produkte gestellt sind gerecht zu werden, führen wir bereits in der Produktentwicklung Konzept- und Auslegungsphase umfangreiche Simulationen und Analysen durch

Mehrkörpersysteme und Mechanismen mit transienten oder geometrisch nichtlinearen Bewegungen analysieren wir mit der Hilfe von Mehrkörpersimulationen (MKS) Wir berücksichtigen dabei: - starre und/oder elastische Strukturen (FEM) - allgemeine Kontaktbedingungen - allgemeine Koppelbedingungen und Lagerungsbedingungen - nichtlineare Bewegungsgrößen - kinetische Betriebskräfte Wir nutzen zudem die Mehrkörpersimulationen zur Bestimmung unbekannter Eingangsgrößen für weiterführende FE-Untersuchungen. Dabei setzen wir hauptsächlich Abaqus/Explicit® und MATLAB/Mulitbody® ein.

Selon la note d’information 66 du SETRA (juillet 1989), il y a des règles permettant de dimensionner les supports et massifs de fondation. Où P est la pression du vent en daN/m2, S la surface du panneau et HG la hauteur du centre de gravité. On a : HP = HSP + H/2 + 0,2m Le moment fléchissant dû à l’effort du vent calculé au niveau de la surface du massif de fondation est donné par la formule suivante : M = P × S × HP

Calotte à bord plat Demi-sphère

Pompe à graisse, emploi en cartouches de 400 ml Lubrification efficace et continue Rapport hydraulique 1:40 Capacité 400 ml Consommation d’air moyenne 0,6 L/min. Pression max. 10 bar Poids 2,2 kg Entrée d’air 1/4”

Les parties à nettoyer régulièrement au terme de la journée de travail se distinguent par la couleur jaune, pour gagner du temps et garder votre autolaveuse toujours dans les meilleures conditions

Die Strömungssimulation ermöglichen es z.B. Drücke, Strömungskrafte oder Wärmeströme bereits in der Produktentwicklung simulieren.

The cleaning process must be designed to eliminate specific contaminants and particles from machined workpieces and parts in order to achieve the required technical cleanliness. For the wet cleaning of parts, the four parameters of the Sinner's Circle need to be combined and adjusted for optimised efficiency. PERO units offer efficient cleaning mechanics and reliable process control. According to the Sinner's Circle, the cleaning result is determined by four basic variables. By adjusting and combining these interrelated variables, it is possible to optimise any cleaning process. Good mechanical design of a cleaning unit optimises the mechanics of the process, which generally means that cleaning is completed in less time and with less resources.

Acoustics Rich and powerful acoustic features for your simulation needs Actran Acoustics is the foundation module of the Actran family and is both a standalone tool and a pre-requisite for advanced modules like Actran VibroAcoustics, Actran AeroAcoustics or Actran TM. Actran Acoustics contains a wide set of acoustic modeling features making it the CAE tool of choice for simulating a large variety of problems, from the simplest component to the most elaborate system. The Actran Acoustics product relies on Free Field Technologies’ exclusive powerful, robust, fast and reliable acoustic finite and infinite element library. Sound fields in cavities are easily analyzed with Actran Acoustics which offers both modal and physical approaches. Absorbing walls may be modelled in detail using impedance conditions or porous material models. Actran Acoustics is also uniquely suited for sound radiation analysis where it brings unprecedented efficiency, speed and productivity to your analysis process. Actran Acoustics features seamless interfaces with most FEA structural analysis codes like NASTRAN, ABAQUS™ or ANSYS™. Actran Acoustics also offers powerful features for analyzing sound propagation in ducts and may be used for designing e.g. intake and exhaust lines or air distribution systems in buildings, aircrafts and cars. Among the many advanced features available in Actran Acoustics are the handling of a mean flow field (convected acoustic propagation) and temperature gradient effects. Specific elements are also available to handle visco-thermal effects important when sound waves propagates in narrow ducts or thin cavities (eg: hearing aids, solar array panels, etc.). Pressure field generated by the vibration of a powertrain. Target Applications: Sound radiation by vibrating structures: powertrain, engine components (oilpan, intake manifold and air filter, valve cover, etc.), compressors, electrical motors, loudspeakers and more. Intake and exhaust noise, including complex mufflers and silencers. Air conditioning units and distribution systems (calculation of transfer matrices coefficients). Sound absorption inside passenger compartment of cars, trains and aircrafts. Sound propagation in complex media with mean flow or temperature gradient. Audio devices such as telephones, hearing aids or musical instruments.