ilPhysics is a product of Machineering Gmbh.
iPhysics is an innovative simulation platform for the digital design and virtual commissioning of complex production machines, lines and plants. By integrating the mechanical, electrical and software engineering it provides substantial benefits, such as the possibility to further optimize the machine sequence planning, immediately verify solutions and reduce costs.
iPhysics enables comprehensive engineering from the CAD level to the PLC and robots simulation. It provides the ability to realistically simulate lines and plants and obtain better Throughput and OEE estimates. It enhances communication between the mechanical and the automation design teams effectively reducing risk for complex plants and projects and simplifying commissioning. It provides the possibility to evaluate multiple design solutions and seamlessly explore new ideas and what-if scenarios. Furthermore, industrialPhysics integrates the Augmented Reality features that advance the production processes visualization allowing to effectively engage the design and sales teams with customers.
A collection of videos, which show some applications of this innovative platform for the design and simulation of machines, lines and production plants.
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CASE STUDY
Have you ever grappled with the nonlinearity of materials? This article introduces Multiscale.Sim’s curve-fitting feature for predicting material constants for viscoelastic problems.
multiscale mechanics composites
CASE STUDY
In this case study, EnginSoft engineers explain how they used modeFRONTIER to assist Comau, a Fiat Chrysler subsidiary, to optimize their approach to the preliminary design of production systems for automotive manufacturing system RFQs.
automotive optimization rail-transport modefrontier SIMUL8 iphysics industry4
Our competences in iPhysics
CASE STUDY
This paper presents the preliminary simulation study of a typical centrifuge currently produced by Gamma Meccanica. The objective of this study is to evaluate the behaviour of the centrifuge using moving particle simulation and discrete element method (MPS-DEM) simulation techniques with Particleworks 7.2.1 to gain a better understanding of phenomena that are impossible to monitor experimentally.
mechanics particleworks
CASE STUDY
A multibody model of an excavator was developed to calculate the loads acting on the structure and to perform static structural verifications of the different components.
automotive multibody recurdyn mechanics
CASE STUDY
The final portion of the paper path of a laser printer has been studied using the Media Transport Toolkit to evaluate the influence of the corrugating roller which is used to corrugate the sheet to keep it straight before falling into the tray.
recurdyn multibody mechanics consumer-goods