Vehicle performance is the study of the motion of a vehicle. The motion of any vehicle depends upon all the forces and moments that act upon it. These forces and moments, for the most part are caused by interaction of the vehicle with the surrounding medium(s) such as air or water (e.g. fluid static and dynamic forces), gravitational attraction (gravity forces), Earth’s surface (support, ground, or landing gear forces), and on-board energy consuming devices such as rocket, turbojet, piston engine and propellers (propulsion forces). Consequently, in order to fully understand the performance problem, it is necessary to study and, in some way, characterize these interacting forces.
How To Build An Electric Vehicle?
Disruption in the Automotive and Transportation industry is well under way. How we get from Point A to Point B is being reinvented due to increasing urbanization. This is driving the convergence of autonomous, electrification, connectivity and shared transportation systems rapidly. Auto OEMs and suppliers have to develop and execute new business models to prevent becoming obsolete as these mega trends unfold and technology innovation increases exponentially. The race is on for Auto OEM’s and suppliers to transform their business and provide multimodal mobility services for the future of mobility.
Simcenter Simulation: The Key to Make Safe Autonomous Vehicles
As vehicles become more automated with advanced driver assistance systems (ADAS), development and validation testing conditions need to be defined. Which scenarios should be considered for ADAS and future autonomous vehicles (AVs)? How can a large number of potential driving situations be considered and how can the most critical ones be identified? Can verification and validation (V&V) be managed in a realistic timeframe and at an acceptable cost? This blog post highlights a process applied during vehicle development, and discusses the support Siemens Digital Industries Software and ETS Solutions Asia engineering services team can provide.
NVH Testing for Automotive
NVH, which stands for Noise, Vibration, and Harshness, is the study of the noise and modification vibration characteristics of vehicles and is basically a measure of how much unpleasant aural and tactile feedback the vehicles deliver as you drive. NVH testing enables early recognition of NVH phenomena, which can then be avoided early during the development stage of the powertrain. This later makes driving in the production vehicle more comfortable and serves to avoid complaints and a loss of image.
Acoustic Testing
Acoustic Testing is performed to determine if the material can resist the specified Acoustic environment. It must resist this environment without degradation of its functional performance and/or structural integrity. Acoustic Testing or Acoustic Emission Testing is the measurement of sound emissions radiating from the equipment under test. In other words, how loud is the equipment?
HALT/HASS Testing Guidance
MIL-STD-810 Testing Guideline
MIL-STD-810 standard contains test methods and planning for engineering direction for considering the influences that environmental stresses have on material, products or equipment through every phase of their service life. Used by the U.S. military to test product limits and capabilities that the product will experience throughout its life, MIL-STD-810 testing is also used as a standard for rugged commercial products.
Maximising Battery Life Checklist
Karma Automotive: Excellence NVH Performance with Simcenter
Karma Automotive established a strategic partnership with Simcenter Engineering and Consulting services to meet NVH performance targets and implement state-of-the-art NVH testing and simulation processes. Simcenter™ software uniquely combines system simulation, 3D CAE and test to help you predict performance across all critical attributes earlier and throughout the entire product lifecycle.
Electric Vehicle Manufacturer Moves Quickly with Simcenter and NX
Revolutionizing productivity, Electra Meccanica moved quickly, transforming a napkin sketch into a digital NX™ software design in a matter of days, then using Simcenter™ software to optimize and validate the performance of the all-electric SOLO. Finally, using NX CAM and 3D printing, Electra Meccanica built its dream car.