Passionate about design, material mechanics and simulation, leading to innovative and efficient solutions for every project. I enjoy working in teams and tackling challenges, always with a positive attitude and a sense of responsibility. I like working in an organization that can help me improve my knowledge and skills in the mechanical design industry and effectively manage resources for problem solving and continuous process improvement.

Aarón Antonio Valenzuela Irigoyen

Passionate about design, material mechanics and simulation, leading to innovative and efficient solutions for every project. I enjoy working in teams and tackling challenges, always with a positive attitude and a sense of responsibility. I like working in an organization that can help me improve my knowledge and skills in the mechanical design industry and effectively manage resources for problem solving and continuous process improvement.

Available to hire

Passionate about design, material mechanics and simulation, leading to innovative and efficient solutions for every project.

I enjoy working in teams and tackling challenges, always with a positive attitude and a sense of responsibility. I like working in an organization that can help me improve my knowledge and skills in the mechanical design industry and effectively manage resources for problem solving and continuous process improvement.

See more

Language

Spanish; Castilian
Fluent
English
Fluent
French
Beginner

Work Experience

Marketing an Informatics at Carek CRT
December 1, 2020 - December 1, 2021
Dedicated in detecting and correcting code errors as well as updating information in the web page https://turismocarek.mx Management of the social media, innovating in the way sales information was displayed. Member of the Staff for Benchmarking events carried out in Riviera Maya, Quintana Roo, México, with different Hotels and Parks.
Tooling Intern at Bombarider Aerospace
March 22, 2022 - December 1, 2022
Dedicated in Critical Jig Analysis for creating its Maintenance Manual (Mtto. 2.0, Preventive and Corrective) in all Querétaro production plants. Problem solving at production plant PU11 co-working with various areas. Management of all the lifting equipment's certifications likewise the purchase of the rejected devices in all Querétaro production plants. Supplier management for manufacturing projects. Quote-based decision making (Price-Quality and lead time analysis).
Tool Design Engineer at Bombarider Aerospace
December 1, 2022 - November 1, 2024
Creation of the Tooling Design Team Mexico, collaborating with Canada Tooling Design teams. Dedicated to Tooling Design (Jigs and Working Centers) and Tool Order facilitations for Structures, Additive Manufacturing and Composite Materials, ensuring healthy KPI’s. Structural, Geometrical and Safety / Risk analysis focused on design insights for optimizing production according to ASME and Bombardier Standards. Support to Production / Assembling Areas. Project Management in collaboration with multi-disciplinary and Inter-Site teams. Knowledge of Bombardier Global 6500, Global 7500, Challenger 350 & 650 and Airbus A220 aircrafts.
Project Manager at Bombarider Aerospace
November 1, 2024 - Present
Management of the Tool Design Team workload and Implementation of Tool Order Fabrications for optimizing the Production Line, ensuring healthy KPI’s. CAPEX Project Analysis and Management. Management for incoming Tooling Projects implementation (Inter-Site Transfers). Supplier Management, Co-Working with multi-disciplinary teams. Quote-based decision making (Price-Quality and lead time analysis). Adherence to the budget approved seeking to avoid costs. Customer Service, Follow-Up to ensure every project matches and exceeds expectations. Leader of the Machining Workshop (S.O.S. Machined Spare Parts).
Tooling Design Engineer at Bombardier Aerospace
December 1, 2022 - November 1, 2024
Created the Tooling Design Team in Mexico and collaborated with Canada Tooling Design teams. Focused on Tooling Design (Jigs and Working Centers) and Tool Order facilitation for Structures, Additive Manufacturing and Composite Materials, ensuring KPIs. Supported Production/Assembly Areas. Managed projects across multi-disciplinary and inter-site teams. Knowledge of Bombardier Global 6500, Global 7500, Challenger 350 & 650, and Airbus A220 aircraft.
Tooling Core Project Manager at Bombardier Aerospace
November 1, 2024 - Present
Office - Tooling Core: Managed Tool Design Team workload and implemented Tool Order fabrications to optimize the production line, ensuring KPIs. Led Apex project analysis and management; managed incoming tooling projects (inter-site transfers); supplier management; cross-functional collaboration; quote-based decisions (price-quality and lead time). Ensured budget adherence and customer follow-up to exceed expectations. Led the Machining Workshop for spare parts and supported production/assembly areas.

Education

Bachelor in Mechanical Engineering at Instituto Tecnológico y de Estudios Superiores de Monterrey ITESM
August 5, 2018 - June 14, 2023
Mechanical Engineering (Focused on Aeronautics) Institution: Tecnológico de Monterrey (ITESM). Final Score of 95. Member of the High Performance Academic Program (PARA). First Place in the Entrepreneurial Challenge 2018 in Queretaro, Top 5 in Mexico.
Marketing and Informatics at Turismo Carek
December 1, 2020 - December 1, 2021

Qualifications

CATIA V5 - SURFACE DESIGN ASSOCIATE
October 24, 2025 - October 24, 2025
CERTIFIED DASSAULT SYSTEMES ASSOCIATE
CATIA V5 - PART DESIGN ASSOCIATE
October 17, 2025 - October 17, 2025
CERTIFIED DASSAULT SYSTEMES ASSOCIATE
CATIA V5 - ASSEMBLY DESIGN ASSOCIATE
October 17, 2025 - October 17, 2025
CERTIFIED DASSAULT SYSTEMES ASSOCIATE
ADVANCED GD&T
December 4, 2024 - December 6, 2024
GD&T, STACK UPS AND FIXTURES CERTIFICATION
DESIGN AND MANUFACTURE IN COMPOSITE DESIGN
November 14, 2025 - November 21, 2025
CERTIFICATION IN DESIGN AND MANUFACTURING OF COMPOSITE DESIGN, FOCUSED ON AVIONICS, TURBINES, EOLIC BLADES AND ADVANCED MATERIALS
CENEVAL exam
January 11, 2030 - December 10, 2025
PAA (Prueba de Aptitud Académica)
January 11, 2030 - December 10, 2025

Industry Experience

Manufacturing, Travel & Hospitality, Transportation & Logistics, Professional Services
    paper Tool Design for APU Doors on Bombardier Global 5000

    The objective of this project was to develop complete 3D models and 2D drawings that ensure the tool’s proper functionality and the accurate control of the APU Doors geometry. These deliverables are essential for maintaining manufacturing quality, ensuring precise datum control, and achieving repeatability throughout the assembly process.

    The project scope includes:

    Generating FR01 (final requirement vectors and surfaces) for the specified control details to establish reliable datum references for the APU Doors manufacturing process.

    Creating complete 3D models and 2D drawings for the jig details listed in the project, including the application of GD&T to ensure proper dimensional accuracy and positional control.

    Assigning item numbers to each JIG detail part to enhance traceability and configuration management within the tooling system.

    Verifying the functionality of holders, clecos, and their respective locations within the jig to ensure proper alignment and support during the assembly of the APU Doors.

    Uploading all generated 3D models and 2D drawings to Enovia, ensuring digital continuity and supporting future engineering changes.

    Project Impact

    Completing these tasks ensured that the APU Doors jig complies with all functional, dimensional, and quality requirements. The updated tool enhances manufacturing reliability, reduces assembly-related risks, and provides accurate, controlled tooling data that supports consistent production performance on the line.

    paper Tool Design for Rearfuse Barrel Installation on Bombardier Global 7000

    The purpose of this project was to finalize the installation of provisions, brackets, fittings, and structural components that support all internal systems within the barrel of the Bombardier Global 7000. The scope focused on ensuring that each supporting element meets engineering requirements while providing a robust and reliable integration platform for the aircraft’s internal systems.

    The installation concept was adhered to the following criteria:

    Ergonomics: The design and placement of all components must support safe, efficient, and operator-friendly installation on the production line.

    Locking Fixtures: All provisions and brackets must include secure locking features to guarantee precise and stable positioning aligned with engineering specifications.

    Accessibility: The installation must allow easy access for assembly, inspection, and maintenance operations, minimizing time and effort during production.

    Modularity: The solution must be adaptable for future system upgrades or improvements without requiring major redesign of the existing structures.

    Project Impact:
    Successfully completing this project enhanced the structural integration of internal systems within the aircraft barrel, reduce assembly risks, and improve reliability during production. Ergonomic and modular installation concepts supported efficiency on the manufacturing line, ensure compliance with engineering intent, and provide a stable foundation for future program updates or system enhancements.

    paper Tool Design for Firewall on Bombardier Global 5000

    The objective of this project was to develop complete 3D models and 2D drawings that ensure the tool’s proper functionality and the accurate control of firewall plane geometry. These deliverables are essential for maintaining manufacturing quality, ensuring precise datum control, and securing repeatability in the assembly process.

    The project scope includes:
    Generating FR01 (Final requirements vectors and surfaces) for the specified control details to establish reliable datum references for the tailcone manufacturing process.

    Creating complete 3D models and 2D drawings for the jig details listed in the project, including the application of GD&T to control positioning and dimensional accuracy.

    Assigning item numbers to each JIG detail part to improve traceability and configuration management within the tooling system.

    Verifying the correct functionality of holders, clecos, and their respective locations within the jig to ensure proper assembly support and alignment on the production line.

    Uploading all generated 3D models and 2D drawings to Enovia to maintain digital continuity and support future engineering changes.

    Project Impact:
    Completing these tasks ensured that the firewall jig meets all functional, dimensional, and quality requirements. It enhanced manufacturing reliability, reduce assembly risks, and provide accurate, controlled tooling data for continuous use on the production line.