Mecanical engineer
Abe*** ***** (XX años)
Engineering Agent - Facilities Coordinator en Manpower Group
Polytechnic University of Bari (POLIBA)
Barcelona
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Experiencia
Engineering Agent - Facilities Coordinator
Manpower Group
jun 2018
-
dic 2020
Engineer agent for Manpower working within Facility services. Main tasks: [-] Coordinating and managing daily task to comply with SLA and KPIs stablished by the client. [-] Raising, tracking, updating, controlling and completing tickets via different facility help-desk platforms. [-] Support coordination of the provision of reprographics, vending, cleaning, daily maintenance, and management of overall office services. [-] Ad-hoc reporting as required by management. [-] Event coordination. (Planning and logistic) [-] Data, invoice, and finance management (controller and budget tracker support). - Facility coordinator backup - main responsibilities to adapt, reflect and complete required tasks by the client on sight. [-] Support and coordination of three site: Barcelona office, Palma de Mallorca office and Tenerife.
Engineering Agent - Facilities Administrator
Mace Macro
mar 2018
-
abr 2018
Engineer agent for ADECCO working within facility services. Main tasks: [-] Project support: Help packing process directly with the client, coordinating supply chain, coordinating moving company, stationery, and kitchen supply inventory check. [-] Ensuring unpacking were compliant within the project timeline. [-] Support coordination of the provision of reprographics, vending, cleaning, daily maintenance, and management of overall office services. [-] Ad-hoc reporting as required by management.
Formación
Erasmus program Bachelor of Mechanical & Management Engineering
Polytechnic University of Bari (POLIBA)
feb 2020
-
jul 2020
Emphasized Material & Management engineering. Main courses: [-] Process management (Leadership), [-] Material Science Engineering, E-business & Business Intelligence, & Optimization Methods for Engineering.
BE, Bachelor Mechanical Enginneer
Polytechnic University of Catalonia (UPC)
ene 2016
-
dic 2020
[-] Analyze problems to see how mechanical devicesmight help solve a particular problem. [-] Design or redesign mechanical using analysis andcomputer-aided design. [-] Investigate equipment failures or difficulties todiagnose faulty operation and to recommendremedies.
Idiomas
Spanish - Native
English - Native
Catalan - Full-Proficiency
Italian - Intermediate
Otros datos
Summary.
Mechanical engineer that is passionate about how the world and the materials around us evolve, and as such, I take a decisive and conscientious approach to obtain and use the necessary information to make logical and organized decisions. Being an international student that studied in the United States, Spain, and Italy allowed me to understand the worth of collaboration, leadership, and communication throughout all the points in a project. I consider myself a forever curious person that enjoys learning and taking up new challenges. For my professional contracts, I had the opportunity to work for MANPOWER and ADECCO as an Engineering agent working within the facilities services for companies like Expedia, JLL, and Mace Macro. It has allowed me to comprehend the professional aspect of the Facilities Management world. Graduated with an perfect score & candidate to Honours degree on my individual thesis, where my interest in transportation made it so that I Designed, Assembled, Evaluated and Simulated two Bogie Frames (train component) using the necessary UNE-EN rules. The interesting aspect of this thesis was not only that it was the first of its kind, but that one of the two bogie frames was made up of Structural Steel S235 and the other one was made up of Carbon Fiber (Unidirectional and Bidirectional CFRP), using a Finite Element Analysis (FEA) the comparison of the results between them both was made possible and the possibility of making the bogie frame from Carbon fiber was conlcuded. I enjoyed every minute of this project as to why my interest in Computational Engineering. or
Project 1: Honor candidate individual thesis - Simulation of a Carbon fiber bogie frame | CAE, CAD, FEM, FEA, 2D & 3D design
Simulation of a Carbon fiber bogie frame | CAE, CAD, FEM, FEA, 2D & 3D design Oct 2020 – Jan 2021 Project descriptionProject: Stress & Fatigue study of a composite bogie frame. (Modeling, Assembly, Simulation, Comparison, and Validation of a structure steel S235 and a carbon fiber bogie frame) [-] Modeling (CAD): • 3D modeling. • 2D Technical drawings. • Assembly of both of the frames. Software: SOLIDWORKS 3D design, Assembly SOLIDWORKS, SOLIDWORKS drawing. [-] Simulation (CAE): • Clean up with SpaceClaim. • Construction of the Carbon Fiber Bogie frame; ACP (Pre). • Fatigue analysis for the structural steel S235 bogie frame by means of finite element analysis. (FEA) • Stress analysis of both of the bogies frames by means of finite element analysis. (FEA) • Validation of the results using UNE-EN 13749:2011. Software: ANSYS ACP (Pre), ANSYS Workbench, ANSYS Mechanical, SpaceClaim.
Project 2: Analysis & Redesign of a Rim Machining Process. | CAE
Analysis & Redesign of a Rim Machining Process. | CAE Feb 2020 – Apr 2020 Project descriptionProject: Analysis & Redesign of a Rim Machining Process during the Erasmus program. The main goal is to deal with the improvement in the productivity and effectiveness of the Rim Machining Process of the company called MAPSA [-] Business Process Analysis and Management (CAE): • E-epc map to describe that describes the function of each of the processes needed for the Rim machining process. • Detailed description of the organization and process; Melting, Molding, X-ray control, Topping, Heat treatment, Machining, Seal, Balance, Standard paint, and acrylic painting. Software: ARIS Express
Project 3: Design of an LED tower. | CAE, CAD, 2D & 3D design
Design of an LED tower. | CAE, CAD, 2D & 3D design Sep 2019 – Nov 2019 Project descriptionProject: Design of an LED tower. [-] Modeling (CAD): • 3D Modeling of +25 pieces. • 2D Technical drawings of the +25 pieces. • Assembly of the LED tower. Software: SOLIDWORKS 3D design, Assembly SOLIDWORKS, SOLIDWORKS drawing.
Project 4: Design of an Orchard Sprayer Control Unit | CAD, 2D & 3D design
Design of an Orchard Sprayer Control Unit | CAD, 2D & 3D design Sep 2016 – Nov 2016 Project descriptionProject: Design of an Orchard Sprayer Control Unit. [-] Modeling (CAD): • 3D Modeling of +70 pieces. • 2D Technical drawings of the +70 pieces. • Assembly of the Orchard Sprayer Control Unit. Software: SOLIDWORKS 3D design, Assembly SOLIDWORKS, SOLIDWORKS drawing.
CERTIFICATION: SOLIDWORKS Simulation: Dynamic Analysis
[-] Analysis of normal modes [-] Modeling different types of masses [-] Dynamic analysis [-] Controlling transient analysis [-] Analyzing motion of bases [-] Analyzing frequency response [-] Interpreting results of analysis
CERTIFICATION: SOLIDWORKS: Simulation for Finite Element Analysis.
[-] Setting up Simulation properties and defined views [-] Preparing the geometry [-] Setting up a local coordinate system [-] Splitting surfaces [-] Defining the constraint and the loads [-] Meshing [-] Running analysis [-] Contour control [-] XY plots
CERTIFICATION: SOLIDWORKS: SimulationXpress.
[-] Simulation workflows and options [-] Xpress vs. Simulation vs. Sim pro [-] Fixtures, loads, materials, and mesh [-] Running a simulation [-] Reviewing stress, displacement, and factor of safety [-] Updating and iterating [-] Producing reports [-] Model preparation [-] Simulating multiple parts [-] Importing assemblies as parts
CERTIFICATION: SOLIDWORKS: Advanced Simulation .
[-] Breaking up the model [-] Meshing and re-meshing the model [-] Simplifying the geometry [-] Using the 3-2-1 and plane strain methods [-] Running analyses and comparing results
CERTIFICATION: SOLIDWORKS: Shell and Beam Modeling in FEA .
[-] Modeling beams and trusses [-] Using weldments [-] Modeling shells [-] Using surfaces [-] Using solid bodies [-] Using sheet-metal bodies [-] Setting up and running FEA simulations
CERTIFICATION: Master Simulation and Structural Analysis for SOLIDWORKS
[-] Research the methods available for stress testing your designs. [-] Compare how alternative designs would behave under real-world stresses. [-] Analyze your parts for stress, displacement, and factor of safety.
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