Executive snapshot
- Experience: ca. 2,5 Jahre
- Seniority: Professional
- Work mode: Hybrid bevorzugt
- Availability: Sofort verfügbar
- Region: Deutschland / EU
- Focus: Automotive, E-Mobility, Industrial Electronics, Product Development
At a glance
Profile ID
DP-00348
Role
Simulation Engineer, FEA Specialist, Product Developer (Mechanical)
Seniority
Professional
Experience
ca. 2,5 Jahre
Work mode
Hybrid bevorzugt
Availability
Sofort verfügbar
Region
Deutschland / EU
Languages
German, English
Engagement models
Festanstellung
Indicative rate
Auf Anfrage
Short profile
Experienced Simulation Engineer specializing in Finite Element Analysis (FEA) and CAE methods for static, dynamic, and drop test simulations. The candidate possesses in-depth knowledge of multi-material assembly modeling and validation of simulation results through physical testing. Expertise includes analyzing failure behavior of plastics and optimizing component geometries, particularly within the context of power tools and the mobility industry. The candidate is immediately available and can provide a brief video introduction.
Focus (domains)
AutomotiveE-MobilityIndustrial ElectronicsProduct DevelopmentSoftwareElectronicsTestingConsultingManagement
Core skills
Finite Element Analysis (FEA)Static AnalysisDynamic AnalysisDrop Test SimulationModal AnalysisVibration AnalysisCFD SimulationThermal SimulationMaterial ModelingStructural ValidationFracture & Damage Tolerance (F&DT)Process OptimizationClient ConsultingJiraMATLABPythonSoftwareValidation
Tools & technologies
ANSALS-DYNAMETAAnsysOptiStruct (Hyperworks)HyperMeshNastranPRIMERELISECATIA V5SolidWorksSiemens NXAutoCADPythonMATLABJira
Track record & project highlights
Drop Impact Simulation and Structural Validation of Multi-Material Assemblies for Power Tools: Conducted crash analyses to assess structural integrity and identify critical failure areas. Performed comprehensive Finite Element Analyses (FEA) including meshing, material assignment, contact definition, and boundary conditions. Modeled assemblies composed of plastic, metal, and rubber with precise failure criteria and validated simulation results through physical drop tests, achieving a correlation of up to 95%. Analyzed deformations, stresses, strains, and energy absorption to optimize component geometries and material selection.
