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Posts

Engineering citation styles

1 minute read

Published:

Here are a couple resources for some citation style files for the International Journal of Engineering Education (IJEE) and the American Society of Mechanical Engineers (ASME) publications.

portfolio

publications

Predicting Energy Usage During Milling Based on Workpiece Properties

Published in UC Berkeley Master's Report, 2015

Abstract: The work presented in this thesis focuses on improving material selection by developing a better understanding of the factors that drive energy consumption in machining. Choice of material, like choice of manufacturing process, depends on many factors, especially the desired function of the part. However, there currently is not enough research for designers to make informed decisions when considering the importance of energy consumption. A designer trying to choose between two different aluminum alloys with similar functional properties currently has no way of knowing which material would be more energy efficient. New materials also present potential challenges: it is currently difficult to estimate the energy required to machine a novel material with a particular set of properties without prior experimentation.

Recommended citation: H. Budinoff, 2015. "Predicting Energy Usage During Milling Based on Workpiece Properties," Master's report, Department of Mechanical Engineering, University of California, Berkeley.

Aptitude, Effort, and Achievement in an Introductory Engineering Design Graphics Class

Published in Proceedings of the 71st American Society for Engineering Education Engineering Design Graphics Division MidYear Conference, 2016

Download here

Recommended citation: H. Budinoff and S. McMains. "Aptitude, Effort, and Achievement in an Introductory Engineering Design Graphics Class," in Proceedings of the 71st American Society for Engineering Education Engineering Design Graphics Division MidYear Conference, Nashua, NH, October 16-18, 2016. https://sites.asee.org/edgd/wp-content/uploads/sites/22/2017/12/Part14-Budinoff-and-McMains.pdf

Prediction and visualization of achievable orientation tolerances for additive manufacturing

Published in Procedia CIRP, 2018

Abstract: In additive manufacturing, process parameters can have a large influence on the quality of the produced part, making it diffcult to understand what tolerances are actually achievable. We present a system that can rapidly analyze part geometry and predict parallelism, perpendicularity, and angularity geometric deviations for planar surfaces, based on layer thickness and build direction. Our system can analyze multiple distinct features and their corresponding tolerances and datums to identify build directions where all specified tolerances can be achieved. This tool can be used to select an optimal build direction and to analyze whether specified tolerances are manufacturable using additive manufacturing.

Recommended citation: H. Budinoff and S. McMains, 2018, "Prediction and visualization of achievable orientation tolerances for additive manufacturing." Procedia CIRP, 75, pp. 81-86. https://www.sciencedirect.com/science/article/pii/S2212827118304967

Measuring and Predicting Achievable Tolerances for AM Processes

Published in Proceedings of the 3rd International Symposium on Academic Makerspaces, 2018

Abstract: In this study, we focus on experimentally testing mathmatical approximations of error associated with geometric tolerances. Experiments are performed using different types of 3D printers.

Recommended citation: Y. Sun, H. Budinoff, and S. McMains. (2018). "Measuring and Predicting Achievable Tolerances for AM Processes." Proceedings of the 3rd International Symposium on Academic Makerspaces. https://drive.google.com/open?id=1BEF4-l0ahugJzrPumh05RdsDWAfST0HY

Underrepresented and International Student Success and Confidence in a Small, Lab-based CAD Class

Published in Proceedings of the 73rd American Society for Engineering Education Engineering Design Graphics Division MidYear Conference, 2019

Download here

Recommended citation: H. Budinoff and S. McMains. " Underrepresented and International Student Success and Confidence in a Small, Lab-based CAD Class, " in Proceedings of the 73rd American Society for Engineering Education Engineering Design Graphics Division MidYear Conference, Berkeley, CA, January 6-8, 2019. https://hannahbudinoff.com/files/EDGD_2019_Underrepresent_International.pdf

Effects of Gender, Effort, and Spatial Visualization Abilities in an Engineering Graphics Class

Published in Proceedings of the 2019 ASEE Annual Conference and Exposition, 2019

Download preprint here

Recommended citation: H. Budinoff, A. Ford, and S. McMains. "Effects of Gender, Effort, and Spatial Visualization Abilities in an Engineering Graphics Class" in Proceedings of the 2019 ASEE Annual Conference and Exposition, Tampa, FL, USA, June 15-19, 2019. http://hannahbudinoff.com/files/Budinoff_Ford_McMains_2019_ASEE_preprint.pdf

talks

teaching

ME101: Intro to Lean Manufacturing Systems

Undergraduate course, Graduate student instructor, University of California, Berkeley, Department of Mechanical Engineering, 2015

I served as a graduate student instructor for Intro to Lean Manufacturing Systems in the spring semesters of 2015 and 2016. I prepared and delivered one 50-minute review class each week, in addition to grading and other administrative duties.

ME180: Computer-Aided Design

Undergraduate course, Instructor of record, Northern Arizona University, Department of Mechanical Engineering, 2016

I served as a lecturer for Fall 2016 and Spring 2017, responsible for 4 classes each semester. I taught several sections of Computer-Aided Design, which focused on the use of SOLIDWORKS. I also supervised a staff of 2-3 teaching assistants each semester.

ME365: Machine Design I

Undergraduate course, Instructor of record, Northern Arizona University, Department of Mechanical Engineering, 2016

I served as a lecturer for Fall 2016 for ME 365, a junior-level class focused on the fundamentals of mechanical design and the design of mechanical elements.

ME286: Engineering Design-The Process

Undergraduate course, Instructor of record, Northern Arizona University, Department of Mechanical Engineering, 2017

I taught two sections of ME286 in Spring 2017. This class focused on introducing students to the engineering design process, with several intensive design projects over the semester.

ME495: Experimental Methods in the Thermal Sciences

Undergraduate course, Laboratory supervisor, Northern Arizona University, Department of Mechanical Engineering, 2017

I worked with a team of teaching assistants to supervise student labs for the laboraty sections of a senior-level class focused on thermal and fluid measurement, as well as measurement uncertainty.

E27: Introduction to Manufacturing and Tolerancing

Undergraduate course, Grader, University of California, Berkeley, Department of Mechanical Engineering, 2017

I was responsible for grading homework assignments for approximately 60 students enrolled in class that served as an introduction to manufacturing processes and geometric dimensioning and tolerancing.