Results-driven Performance Engineer recognized for productivity and efficiency in completing tasks. Specialize in weight management, system optimization, transversal requirement for architecture, load testing, and performance monitoring, ensuring customer requirement. Excel at problem-solving, communication, and team collaboration to achieve project objectives and enhance system performance.
(i) Assess gaps at high levels between projects/tenders and reference solutions, including differences in drawing structures and data quality.
(ii) Identify mass and balance requirements, define re-use levels, run preliminary risk assessments, and prepare weight management plans.
(i) Review requirements and load cases from weight-sensitive systems and customer-specific/internal/regulatory requirements.
(ii) Consolidate requirements and validate them against reference projects, documenting a transversal requirement specification for mass and weight balance.
(i) Build a weight control structure covering each vehicle type and complete bill of materials.
(ii) Run weight simulations using actual inputs, present real status, and iterate simulations until critical requirements are met.
(i) Check compliance with weight requirements and distribute the budget to cover the bill of materials.
(ii) Validate weight balance of heavy components and prepare weight performance and final load specification reports.
(i) Review and update technical product specifications for suppliers, control compliance with nominal mass splits, and run continuous simulations.
(ii) Present key materials to customers, contribute to supplier selection, and update risk assessments at each design phase.
(i) Enforce industrial performance deliverables, define type tests, and ensure digital mock-ups are updated.
(ii) Provide instructions for ballasting, witness type tests, ensure compliance, correlate measurements to simulations, and update final weight reports.
1. Requirements Study and CAD Modeling:
(i) Studied mechanical, thermal, and functional requirements of the electronic enclosure.
(ii) Prepared CAD model geometry of identified PCBAs and critical components (heat sources, heat sinks, PCB boards, electronic enclosure).
2. Thermal Analysis and Simulation:
(i) Conducted conjugate conduction-convection numerical heat transfer analysis using Ansys Classic CFD solver Icepak.
(ii) Performed post-processing for thermal simulation.
(i) Supported mechanical efforts in new product introduction (NPI) and sustenance as part of a high-energy global hardware team.
(ii) Implemented lab infrastructure supporting concept-to-system testing and verification for quick experimentation and timely product delivery.
(i) Collaborated with a team to resolve multiple product issues in the field and factory, ensuring positive customer experiences.
(ii) Drove innovation and execution speed through structured product development processes, staying abreast of emerging technologies and industry trends.
(i) Supported the ultrasound reliability team by performing design and failure mode effects analysis (DFMEA) for all tests.
Weight Management
Solid Mechanics
Mechanical Vibration
Finite Element Method & Analysis
Fracture Mechanics
Fluid and Thermal Engineering
Computational Fluid Dynamics
Ansys Fluent Meshing
Numerical Technique & Turbulence Modeling
Ansys Fluent
Icepak
SpaceClaim
CATIA V5
SolidWorks
SolidWorks flow Simulation
MATLAB
Rational DOORS
M3
SQL
Exploratory Data Analysis
Inferential Statistics
MS Excel
C
Python
Leadership
Documentation
Public Speaking
Team Building