Stress Analysis Quality Control

HIGHLIGHTS OF QUALIFICATIONS

Over ** years of experience in stress analysis, mechanical design engineering, Quality control and project management across the nuclear, automotive, construction, manufacturing and power generator sectors.

Bachelor's degree in Mechanical Engineering (P.Eng).

Strong understanding of ASTM, ASHRAE, CSA and ASME standards.

Proficient in utilizing FEA to optimize designs, identify potential failure modes, and ensure structural integrity.

Skilled in design using a variety of CAD software including SolidWorks, Inventor, Solid Edge, Mechanical Desktop, Catia, and AutoCAD.

Familiar with machining practices and GD&T (Geometric Dimensioning and Tolerancing).

Excellent problem-solving skills and demonstrated a high commitment to quality and delivering on client commitments, including experience in leading technical projects to successful conclusions.

Proven ability to successful manage large, complex, and multi-disciplinary projects and deliver on time and on budget.

Ability to build and maintain the working relationships with our customers and suppliers at the operating level.

Excellent interpersonal, communication, and presentation skills.

PROFESIONAL EXPERIENCE

Technical Specialist OPG (2025-Now)

OPG is one of the largest electricity generators in North America. OPG operates a diverse portfolio of generating assets, including nuclear, hydroelectric, solar, and biomass facilities.

Providing technical advice to support OPG operations and contributing to committees and task forces conducting studies and work programs for OPG and/or other utilities or industries.

Delivering comprehensive design conclusions and validation reports, ensuring full compliance with applicable codes, standards, and regulatory requirements.

Reviewing internal drawings and technical documentation in detail to verify accuracy, consistency, and adherence to engineering best practices.

Utilizing advanced finite element analysis (FEA) tools, including ANSYS, to conduct in-depth stress analysis and evaluate structural integrity under various loading scenarios.

Performing rigorous stress evaluations to assess and optimize design performance, ensuring alignment with industry standards and safety protocols.

Collaborating with design engineers to identify critical stress points and recommending design enhancements to improve structural performance and reliability.

Mechanical Engineer/Scientist Stress Analysis KINECTRICS (2023-June 2024)

Kinectrics is a leading engineering and consulting firm specializing in engineering, testing, inspection, and certification services for the nuclear industry

Delivered conclusions and validations to finalize the design and analysis, ensuring compliance with relevant standards and code requirements.

Led projects, develop work plans, supporting, and tracking the execution of projects in compliance with the industry's demanding set of regulations and standards and satisfaction of the client and supervisor.

Thoroughly reviewed internal drawings and technical documentation to ensure precision and accuracy.

Employed advanced finite element analysis (FEA) software such as ANSYS to conduct detailed stress analysis, evaluating structural integrity under diverse loading conditions.

Assessed and optimized designs through rigorous stress analysis, ensuring alignment with industry standards and safety protocols.

Collaborated closely with design engineers to pinpoint potential stress concentrations and recommended design modifications to enhance performance and reliability.

Developed and executed meticulous test plans to physically validate stress analysis results, guaranteeing the fidelity and reliability of simulations.

Offered specialized technical insight in stress analysis during design reviews, providing valuable recommendations to bolster product durability and longevity.

Performed thermal stress analysis to assess the impact of temperature gradients on material properties and structural performance.

Utilized CAD software to create intricate finite element models (FEM) for complex assemblies, facilitating detailed stress simulations and optimization.

Worked collaboratively with cross-functional teams to seamlessly integrate stress analysis data into the design iteration process, which streamlined design improvements and iterations.

Mechanical Engineer Designer Toro Aluminum (2010-2013 and 2018-2023)

Toro Aluminum is a premier manufacturer and supplier of architectural aluminum products, specializing in custom solutions for both commercial and residential projects.

Conceptualized, designed, selected material, and developed new components and system ensuring compliance with regulatory standards.

Created and evaluated designs for feasibility, efficiency, and cost-effectiveness.

Summarized, analyzed, and drew conclusions from test results to optimize designs.

Collaborated with cross-functional teams to understand product requirements and constraints.

Independently planned and scheduled activities to meet project timelines and deliverables.

Designed mechanical components and systems, use CAD software for modeling and drawing.

Conducted root cause analysis to investigate design, material, or process failures.

Implemented corrective and preventive actions to address identified issues and improve product performance.

Worked with product teams and external vendors to provide working prototypes to finalized components.

Provided support for Engineering Change Control, actively addressed field issues and Field Initiated Changes, and facilitated positive outcomes with vendor partners.

Utilized SolidWorks for preliminary design work, meticulously updated and modified models to exacting specifications.

Led the end-to-end design process, ensuring alignment with client needs and industry standards.

Applied engineering principles to optimize product efficiency, particularly focusing on heat transfer dynamics and functional performance enhancements.

Conducted comprehensive calculations for various components, including aluminum, glass, metal panels, steel framing, and connection designs, ensuring structural integrity and performance reliability.

Orchestrated the successful launch of new component parts by collaborating with suppliers.

Provided hands-on technical support throughout the manufacturing process, ensuring seamless integration and quality assurance.

Implemented a systematic approach to refine design concepts using modeling, prototyping, testing, and analysis.

Leveraged cutting-edge 3D printing technology to produce tangible prototypes based on conceptual designs, facilitating rapid iteration and validation of design concepts.

Project Manager /Quality Engineer MAPNA Pars (2013-2018)

Mapna Pars is a leading engineering and contracting company specializing in the design, manufacturing, and installation of power generators.

Clearly outlined the project's objectives, deliverables, and constraints.

Created a detailed project plan, including timelines, resources, and budget.

Identified potential risks and developed mitigation strategies.

Communicated with internal and external stakeholders to ensure alignment and gather requirements.

Assigned tasks, set deadlines, and ensured team members had the necessary resources and support.

Monitored project progress against the plan, using tools like Gantt charts or project management software.

Ensured that deliverables met the required quality standards through regular reviews and audits.

Monitored project expenses to ensure adherence to the budget and adjusted as necessary.

Ensured all project deliverables were completed and obtained formal acceptance from stakeholders.

Established and enforced stringent quality control measures across the supply chain.

Conducted thorough assessments of products and supplies to uphold quality standards.

Developed comprehensive quality control guidelines and protocols, enhanced product quality, and minimized defect rates.

Facilitated alignment of manufacturing processes with regulatory requirements and industry guidelines, ensuring adherence to quality standards throughout production cycles.

Cultivated and managed relationships with key suppliers to guarantee the delivery of high-quality goods within stipulated timelines, while ensuring compliance with contractual obligations.

Implemented strategic initiatives aimed at optimizing the supply base structure, including the development of alternate sourcing strategies to optimize organizational spend.

Quality Engineer IQT (2007-2010)

IQT Consulting was a provider of training, third-party inspection, and consulting services specialized in quality assurance for the automotive industry.

Facilitated Design Failure Mode and Effects Analysis (DFMEA) sessions to identify and mitigate potential design flaws. This proactive approach ensured that final products consistently met stringent quality and performance standards.

Developed and implemented a robust APQP process, successfully launching new products within scope, schedule, and budget constraints.

Drove continuous improvement initiatives, optimized processes, and enhanced product quality.

Provided expert guidance and support to internal teams and external stakeholders on quality-related matters, fostering a culture of excellence and continuous improvement.

Contributed to the development and implementation of best practices and standard operating procedures to streamline quality assurance processes and maximize efficiency.

Maintained up-to-date knowledge of industry trends, regulatory requirements, and emerging technologies to stay ahead of the curve and drive innovation.

Mechanical Engineer Mega Motor (2001-2007)

Mega Motor is a leading automotive parts manufacturer specializing in the production of high-performance motors and drivetrain components for the global automotive industry.

Executed design tasks using advanced CAD software, ensuring precision in engineering drawings.

Applied analytical calculations and referenced the Machinery's Handbook to guarantee precision in design specifications.

Implemented design modifications to existing components, optimizing manufacturability and reducing production costs, thereby enhancing overall efficiency and quality.

Collaborated closely with Test Engineers to verify that product designs met rigorous testing requirements and complied with industry standards.

Spearheaded the development of innovative engineering solutions for new products, leveraging cutting-edge advancements in manufacturing processes and materials to improve product performance and reliability.

Designed and meticulously detailed jigs and fixtures for machining and assembly lines using CAD software, resulting in significant improvements in production efficiency and accuracy.

Led efforts to revise existing part designs, focusing on enhancing manufacturability and cost-effectiveness, thus contributing to overall optimization in production processes.

EDUCATION

Bachelor’s degree in mechanical engineering, IUST (Certified by University of Toronto)

TRAINING

ASME Training, 2024

Ansys 2022, Thumbprint, 2022

Autodesk Inventor, REDCAGE, 2019

Catia V5 R18, Maverick solution Inc, 2009

Autodesk Inventor, Maverick solution Inc, 2009

Solid works, Maverick solution Inc, 2009

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