Tristan Mizutani M.Eng
Tristan Mizutani M.Eng
Tristan Mizutani M.Eng
Tristan
Mizutani
See what I can do for you...
See what I can do for you...
About Me
Introduction
Hi I’m Tristan, I recently completed a Master’s degree in Engineering at the University of Guelph and am now actively seeking a junior mechanical engineering role. I created this website to showcase a selection of projects I’ve worked on during my studies and in my own time. If you believe my skills could add value to your team, I’d love to hear from you.
Technical Skills
Education - Advanced technical background in mechanical engineering, with knowledge in FEA, CFD, heat transfer, and vibrations. Software - Proficient with a range of engineering tools, including SolidWorks, MATLAB, Ansys, COMSOL, and Microsoft Office Suite. Quick to learn new software as needed. Design Process - Practiced design experience from concept development through to the realization of final physical prototypes.
Complementary Skills
Professionalism - Consistently employed since 2018, I have developed strong professional skills, including effective communication, time management, and organization. Team Player - Comfortable to work independently or collaboratively, with experience contributing to teams of various sizes and dynamics. Commitment - Dedicated to long-term projects and continuous improvement through ongoing education and professional development.
Introduction
Hi I’m Tristan, I recently completed a Master’s degree in Engineering at the University of Guelph and am now actively seeking a junior mechanical engineering role. I created this website to showcase a selection of projects I’ve worked on during my studies and in my own time. If you believe my skills could add value to your team, I’d love to hear from you.
Technical Skills
Education - Advanced technical background in mechanical engineering, with knowledge in FEA, CFD, heat transfer, and vibrations. Software - Proficient with a range of engineering tools, including SolidWorks, MATLAB, Ansys, COMSOL, and Microsoft Office Suite. Quick to learn new software as needed. Design Process - Practiced design experience from concept development through to the realization of final physical prototypes.
Complementary Skills
Professionalism - Consistently employed since 2018, I have developed strong professional skills, including effective communication, time management, and organization. Team Player - Comfortable to work independently or collaboratively, with experience contributing to teams of various sizes and dynamics. Commitment - Dedicated to long-term projects and continuous improvement through ongoing education and professional development.
Introduction
Hi I’m Tristan, I recently completed a Master’s degree in Engineering at the University of Guelph and am now actively seeking a junior mechanical engineering role. I created this website to showcase a selection of projects I’ve worked on during my studies and in my own time. If you believe my skills could add value to your team, I’d love to hear from you.
Technical Skills
Education - Advanced technical background in mechanical engineering, with knowledge in FEA, CFD, heat transfer, and vibrations. Software - Proficient with a range of engineering tools, including SolidWorks, MATLAB, Ansys, COMSOL, and Microsoft Office Suite. Quick to learn new software as needed. Design Process - Practiced design experience from concept development through to the realization of final physical prototypes.
Complementary Skills
Professionalism - Consistently employed since 2018, I have developed strong professional skills, including effective communication, time management, and organization. Team Player - Comfortable to work independently or collaboratively, with experience contributing to teams of various sizes and dynamics. Commitment - Dedicated to long-term projects and continuous improvement through ongoing education and professional development.
Portfolio
Dynamic Analysis of a Three-Story Building
This project involved the modal analysis of a three-story building using both computational and experimental approaches. A 3D printed lumped-mass model was evaluated on a vibrating platform, while complementary CAE simulations were used to validate the results and predict additional mode shapes.
Dynamic Analysis of a Three-Story Building
This project involved the modal analysis of a three-story building using both computational and experimental approaches. A 3D printed lumped-mass model was evaluated on a vibrating platform, while complementary CAE simulations were used to validate the results and predict additional mode shapes.
Dynamic Analysis of a Three-Story Building
This project involved the modal analysis of a three-story building using both computational and experimental approaches. A 3D printed lumped-mass model was evaluated on a vibrating platform, while complementary CAE simulations were used to validate the results and predict additional mode shapes.
Sample CAD Designs
This selection of mechanical CAD designs was developed in SolidWorks using a range of modeling techniques. The work includes component and assembly design, motion analysis, sheet metal fabrication, surface modeling, and dimensioned mechanical drawings. This collection represents a subset of my broader CAD design work.
Sample CAD Designs
This selection of mechanical CAD designs was developed in SolidWorks using a range of modeling techniques. The work includes component and assembly design, motion analysis, sheet metal fabrication, surface modeling, and dimensioned mechanical drawings. This collection represents a subset of my broader CAD design work.
Sample CAD Designs
This selection of mechanical CAD designs was developed in SolidWorks using a range of modeling techniques. The work includes component and assembly design, motion analysis, sheet metal fabrication, surface modeling, and dimensioned mechanical drawings. This collection represents a subset of my broader CAD design work.
Navigation Robot with End Effector
The featured robot is designed to navigate through a maze and interact with an object at the end. While core components were provided, the mechanical assembly, wiring, and control logic were developed to meet system requirements. This project highlights my experience developing designs from concept to practical implementation.
Navigation Robot with End Effector
The featured robot is designed to navigate through a maze and interact with an object at the end. While core components were provided, the mechanical assembly, wiring, and control logic were developed to meet system requirements. This project highlights my experience developing designs from concept to practical implementation.
Navigation Robot with End Effector
The featured robot is designed to navigate through a maze and interact with an object at the end. While core components were provided, the mechanical assembly, wiring, and control logic were developed to meet system requirements. This project highlights my experience developing designs from concept to practical implementation.
Comparative CFD Analysis of Different Vehicle Body Styles
For this project, a CFD simulation was conducted to compare the aerodynamic characteristics of three vehicle body styles across varying speeds. Two-dimensional models were developed in ANSYS Fluent using a structured flow domain and appropriate boundary conditions to replicate real world driving conditions.
Comparative CFD Analysis of Different Vehicle Styles
For this project, a CFD simulation was conducted to compare the aerodynamic characteristics of three vehicle body styles across varying speeds. Two-dimensional models were developed in ANSYS Fluent using a structured flow domain and appropriate boundary conditions to replicate real world driving conditions.
Comparative CFD Analysis of Different Vehicle Styles
For this project, a CFD simulation was conducted to compare the aerodynamic characteristics of three vehicle body styles across varying speeds. Two-dimensional models were developed in ANSYS Fluent using a structured flow domain and appropriate boundary conditions to replicate real world driving conditions.
Unlabeled
Model 1
Model 2
Automated CAD Dimensioning Using Machine Learning
Two AI models were developed to automatically dimension blank CAD drawings stored in a DXF format. Both models were trained on a custom dataset and use random forest classifiers to identify relevant annotations, with Model 1 estimating dimension magnitudes through regression and Model 2 determining placement of exact dimensions.
Unlabeled
Model 1
Model 2
Automated CAD Dimensioning Using Machine Learning
Two AI models were developed to automatically dimension blank CAD drawings stored in a DXF format. Both models were trained on a custom dataset and use random forest classifiers to identify relevant annotations, with Model 1 estimating dimension magnitudes through regression and Model 2 determining placement of exact dimensions.
Unlabeled
Model 1
Model 2
Automated CAD Dimensioning Using Machine Learning
Two AI models were developed to automatically dimension blank CAD drawings stored in a DXF format. Both models were trained on a custom dataset and use random forest classifiers to identify relevant annotations, with Model 1 estimating dimension magnitudes through regression and Model 2 determining placement of exact dimensions.
Sample 3D Printed Designs
My work in additive manufacturing focuses on FDM 3D printing for prototyping and functional part production. I have extensive experience creating small to medium scale parts and assemblies, as well as modifying and upgrading 3D printers. My current setup features enhanced cooling and automatic bed leveling for improved print quality.
Sample 3D Printed Designs
My work in additive manufacturing focuses on FDM 3D printing for prototyping and functional part production. I have extensive experience creating small to medium scale parts and assemblies, as well as modifying and upgrading 3D printers. My current setup features enhanced cooling and automatic bed leveling for improved print quality.
Sample 3D Printed Designs
My work in additive manufacturing focuses on FDM 3D printing for prototyping and functional part production. I have extensive experience creating small to medium scale parts and assemblies, as well as modifying and upgrading 3D printers. My current setup features enhanced cooling and automatic bed leveling for improved print quality.
Contact Me
The best way to contact me is by email. You can also use the contact form to send a message directly. I look forward to connecting with you!
tmizutani42@gmail.com
tmizutani42@gmail.com
Phone
519-710-5356
519-710-5356