Conference Session

Manufacturing Division Technical Session Innovative Pedagogy in Manufacturing Education

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Mustafa Shraim, Ohio University; Yuqiu You, Ohio University

Tagged Divisions

Manufacturing

observations across all environmental conditions.The experiment involves 4 controllable factors; one at 4 levels and the other three are at twolevels each as shown in Table 4. Table 4: Controllable Factors and Levels Level Controllable Factor 1 2 3 4 A: Flow Rate (inches / sec) 1.0 2.0 3.0 4.0 B: Load (lbs.) 0.0 95.0 C: Hydraulic Pressure (psi) 800 600 D: Control Access Local RemoteBased on the number of factors and levels to be investigated in

Conference Session

Make It!

Collection

2017 ASEE Annual Conference & Exposition

Authors

Sangarappillai Sivaloganathan, United Arab Emirates University; Rajesh Ganithi, The Petroleum Institute; Yusuf Khan Airani P.E., United Arab Emirates University

Tagged Divisions

Manufacturing

machines that are equipped with theadditional feature-based CAM. The rest of the paper describes the MAKER exercisesaimed to provide knowledge in the four generations of NC machining. 2 Code Based CNC – First GenerationThe main feature of this generation of machines is their ability to accept geometricinformation through NC codes and perform the material removal operations. Thesteps in the operation of this type are (a) process planning (b) part programming (c)part programming entry (d) proving the part program and (e) the machining of thepart. Process planning includes the rough cutting and finish cutting and is a commonfeature for all generations but the processes vary according to their capabilities. Thelearning outcomes from the exercises on

Conference Session

Manufacturing Curricula for the Year 2015 and Beyond

Collection

2009 Annual Conference & Exposition

Authors

Hugh Jack, Grand Valley State University; Venkitaswamy Raju, State University of New York, Farmingdale; David Wells, North Dakota State University; Robert Mott, University of Dayton

Tagged Divisions

Manufacturing

education since the landmark"Curricula 2000" 1 and "Curriculum 2002" 2 workshops held in 1989 and 1994. They had set thecrucial groundwork for a) widespread improvement in both content and access and b) a futurecomprehensive conference on manufacturing education. Building on the assessment the groupdecided to move forward on expanding the discussion and formalizing the results.The first forum "Manufacturing Education Leadership Forum: Vision for Progress" was heldJune 26-27, 2008 at Robert Morris University, Pittsburgh, PA 3 with the purpose of examiningthe current state of manufacturing education, and deciding what steps should follow. The nextforum " Manufacturing Education Leadership Forum; Moving Forward" 4 was held atFarmingdale State College

Conference Session

Four Pillars of Manufacturing Engineering

Collection

2012 ASEE Annual Conference & Exposition

Authors

David L. Wells, North Dakota State University

Tagged Divisions

Manufacturing

of thecompleted product and [b] are measurable during manufacturing. ‘Product engineering’ alsoincludes make-versus-buy decision-making, detailed specification of dimensional requirementsfor all manufactured parts (including fits, tolerances and surface finish) and explicit specificationof raw materials (e.g., for metals, alloy, condition and mill form). ‘Process engineering’ includes the traditional manufacturing engineering activities of toolspecification, fixture selection or design, machine tool specification and selection, processplanning and machine-tool-level performance prediction (cycle time, tool consumption, rawmaterial utilization). Particular emphasis is placed on [a] analytical modeling of the applicablemanufacturing process

Conference Session

Green and Sustainable Manufacturing Education

Collection

2015 ASEE Annual Conference & Exposition

Authors

Tzu-Liang Bill Tseng, University of Texas, El Paso; Richard Chiou, Drexel University; Radian G. Belu, University of Alaska Anchorage; Oscar H. Salcedo, University of Texas, El Paso; Aditya Akundi, University of Texas, El Paso; Eric D. Smith, University of Texas, El Paso

Tagged Divisions

Manufacturing

Paper ID #13879Enhancement of Green Energy Manufacturing Engineering Education throughProject Based Learning and Leadership WorkshopsProf. Tzu-Liang Bill Tseng, University of Texas, El Paso Dr. Tseng is a Professor and Chair of Industrial, Manufacturing and Systems Engineering at UTEP. His research focuses on the computational intelligence, data mining, bio- informatics and advanced manu- facturing. Dr. Tseng published in many refereed journals such as IEEE Transactions, IIE Transaction, Journal of Manufacturing Systems and others. He has been serving as a principle investigator of many research projects, funded by NSF

Conference Session

Design & Development Projects and Practices

Collection

2017 ASEE Annual Conference & Exposition

Authors

Mingshao Zhang, Southern Illinois University, Edwardsville; Zhou Zhang, Stevens Institute of Technology (School of Engineering and Science); Nima Lotfi, Southern Illinois University, Edwardsville; Sven K. Esche, Stevens Institute of Technology (School of Engineering and Science)

Tagged Divisions

Manufacturing

., Nemeth, G., and Korondi, P. 2008. “Welding Trajectory Reconstruction Based on the Intelligent Space Concept.” In Proceedings of 2008 Conference on Human System Interactions, pp. 791-796.[14] Chowdhury, A. A., and Mazid, A. M. 2009. “Computer Integrated Manufacturing Education to Mechanical Engineering Students: Teaching, Research and Practice.” In Proceedings of IEEE International Conference on Industrial Technology, pp. 1-5.[15] Rajamony, B., and Hilmi, A. H. 2007. “Teaching Flexible Manufacturing System in University Education for Future Engineers.” In Proceedings of the 5th ASEAN Symposium on Educational Management and Leadership.[16] Alhourani, F. 2006. “Enhancement of Flexible Manufacturing

Conference Session

Experiences in Manufacturing Engineering Education

Collection

2018 ASEE Annual Conference & Exposition

Authors

Muhammad Pervej Jahan, Miami University

Tagged Topics

Diversity

Tagged Divisions

Manufacturing

Figure 1 to comparegood and bad design in office or home setting was discussed in the theory class, and itencouraged them to identify specific ergonomic issues in seating posture while workingwith a computer/laptop in a sofa or desk [13, 14]. (a) (b)Figure 1. (a) Poor [13] and (b) ideal ergonomic [14] postures while working in an officeor home setting.In the second assignment, the students were taken to the manufacturing laboratories ofthe department and were asked to identify ergonomic issues causing poor postures andmovements. The students examined the manual and computer numeric controlled (CNC)machine tools, the manual and automated hand tools, the seating arrangements, and

Conference Session

Manufacturing Curriculum and Course Innovations

Collection

2018 ASEE Annual Conference & Exposition

Authors

Chittaranjan Sahay P.E., University of Hartford; Suhash Ghosh, University of Hartford

Tagged Divisions

Manufacturing

Irregularities, RSm.Shape Parameters and Functions (1) Amplitude Density Function, ADF(z) or p(z)It is the probability density of surface heights. The amplitude density function is normallycalculated as a histogram of the digitized points on the profile over the evaluation length (figure14). (2) Profile Bearing LengthIt is the sum of the section lengths obtained by cutting the profile peaks by a line parallel to themean line within the evaluation length at a specified level p. The level p may be specified inseveral ways including the following:(a) As a depth from the highest peak (with an optional offset)(b) As a height from the mean line(c) As a percentage of the Rt value relative to the highest peak (figure 15). Figure 14

Conference Session

Student Learning Assessment Methods

Collection

2020 ASEE Virtual Annual Conference Content Access

Authors

Lisa Jo Elliott, Pennsylvania State University, Erie; Faisal Aqlan, Pennsylvania State University, Erie; Richard Zhao, Pennsylvania State University, Erie; Morgan Scott Janney, Pennsylvania State University, Erie

Tagged Divisions

Manufacturing

thecosts of the parts, (4) Quality Engineer: the quality engineer develops a system to ensure theproducts are designed and produced to meet customer requirements. The quality engineer will testand inspect the final products to determine if the customer requirements are met. Figure 1. Main steps for the car toy assembly process Table 1. Sample customer requirements Vehicle Requirements Functional Requirements (a) vehicle weight between 20 and 40 grams (a) driver must be able to get in and out of the (b) material cost ≤ $10 vehicle and see where he is going while traveling (c) number of individual components ≤ 2 (b

Conference Session

CAD/CAM in Manufacturing Education

Collection

2008 Annual Conference & Exposition

Authors

Somnath Chattopadhyay, Pennsylvania State University

Tagged Divisions

Manufacturing

distortion is produced due to the nature of the stick-slip friction at speedsequal or close to zero. Page 13.1115.7REFERENCESFeeny, B. F., and Moon, F. C. (1989), “Autocorrelation on Symbol Dynamics for aChaotic Dry Friction Oscillator,” Physics Letters, Vol. A141, Nos.8, 9, pp. 397-400.Knapp, W. (1983), “Circular Test for Three-Coordinate Measuring Machines andMachine Tools,” Precision Engineering, Vol. 5, No. 3, pp. 115-124.Popp, K., and Stelter, P. (1990), “Nonlinear Oscillations of Structures Induced by DryFriction,” Nonlinear Dynamics in Engineering Systems, (W. Schiehlen, Ed.), SpringerVerlag, Berlin-Heidelberg, GermanyTobias, S. A. (1965), Machine

Conference Session

Integrating Additive Manufacturing Practices in Education

Collection

2017 ASEE Annual Conference & Exposition

Authors

Hugh Jack P. Eng. P.E., Western Carolina University; Levi Sligar, Northwest Nazarene University; John Stutz P.E., Northwest Nazarene College; Brice Allen, Northwest Nazarene University; Duke Mejia Bulanon, Northwest Nazarene University; Abigail Stutz,, Northwest Nazarene University; Mallory Garner, Northwest Nazarene University

Tagged Topics

Diversity

Tagged Divisions

Manufacturing

agricultural automation, image pro- cessing, machine vision, and robotics.Abigail Stutz, , Northwest Nazarene University Department of Physics and EngineeringMallory Garner, Northwest Nazarene University Department of Physics and Engineering c American Society for Engineering Education, 2017 Teaching Mechanics of Materials with Lost 3D Print Casting (RapidCast)AbstractMany students find that a hands-on experience enhances the learning process, especially whenteaching engineering concepts. One of the challenges for integrating a hands-on component in anengineering class is the cost associated with the specialized equipment and processes associatedwith producing custom

Conference Session

Green and Susainable Manufacturing Practices

Collection

2017 ASEE Annual Conference & Exposition

Authors

Tzu-Liang Bill Tseng, University of Texas, El Paso; Yirong Lin, University of Texas at El Paso; Norman Love, University of Texas, El Paso; Aditya Akundi, University of Texas, El Paso; Duke Mejia Bulanon, Northwest Nazarene University; Hugh Jack P. Eng. P.E., Western Carolina University

Tagged Divisions

Manufacturing

. Additionally, they hadto interpret the data and discuss their results of the experiment. The experimental setup and datagathering procedure are illustrated in Figure 3. Figure 3: Experimental setup: A) Experimental apparatus, B) shows student using LabView for data gathering Figure 4: Project group presentation during Module III.Survey A survey was conducted at the beginning of the first module to understand how familiarstudents were with topics covered in the Green Energy Materials course. From the survey, only27% preferred project-based learning (flipped classroom) over face to face learning. However,many stated that mixing both teaching styles would be the better solution, as they

Conference Session

Green and Sustainable Manufacturing Education

Collection

2016 ASEE Annual Conference & Exposition

Authors

Tzu-Liang Bill Tseng, University of Texas, El Paso; Aditya Akundi, University of Texas, El Paso; Richard Chiou, Drexel University; Arturo Olivarez Jr., University of Texas, El Paso; Eric D. Smith, University of Texas, El Paso

Tagged Topics

Diversity

Tagged Divisions

Manufacturing

Seventh Annual 2015 Industrial, Manufacturing, and Systems Engineering Day (a) (b) Figure 2. (a) Discussion sessions, (b) Practice sessions during the presentationOn the first day of event, a technical seminar was held to address key issues currently debated anddiscussed at a broad perspective in organizations and also in defense. Four seminars were conductedrelated to energy issues in defense, energy efficiency in buildings, and in engineering leadership relatedissues. The planned workshops held on the second day of event were coordinated to address importantissues and topics relevant to sustainable manufacturing education and required leadership skills

Conference Session

Lean Manufacturing and Six Sigma in Manufacturing Education 2

Collection

2008 Annual Conference & Exposition

Authors

Susana Lai-Yuen, University of South Florida

Tagged Divisions

Manufacturing

andevaluations assessing the efficacy of the proposed approach on student conceptual understandingand learning motivation.2. MethodsThe objective of this paper is to incorporate LEGO 3D design programs and systems inundergraduate industrial engineering courses to provide students with hands-on team labactivities that will help them better understand the challenging principles of micromanufacturingand industrial automation. These hands-on team activities were designed to achieve thefollowing pedagogical objectives: a) Increase student conceptual understanding by integrating theory with practice using LEGO 3D programs and systems b) Development of personal skills such as communications, technical writing and team working skills c

Conference Session

Design & Development Projects and Practices

Collection

2018 ASEE Annual Conference & Exposition

Authors

Richard Chiou, Drexel University (Eng. & Eng. Tech.); Michael G Mauk P.E., Drexel University; Tzu-Liang Bill Tseng, University of Texas, El Paso; Sanjay Jayadev, Drexel University (Eng. & Eng. Tech.); Carlos Michael Ruiz, Drexel University (Eng. & Eng. Tech.)

Tagged Divisions

Manufacturing

powered when the switch is in its second position. (a) (b) Figure 6. (a) The first half of the circuit and (b) The second half of the circuit to be designed.The operation of the second half of the circuit is much simpler. The goal of this half is simply toutilize to supply voltage to make two LEDs blink in an alternating pattern. The main componentis a 555 timer. This timer converts the DC voltage input into a square wave that supplies power toonly one LED at a time. As is the case with most LEDs, they all have a resistor in series. With theconcept of the circuit to be designed and laid out, the last step is the selection for the solar paneldesign.PCB Design and 3-D

Conference Session

Green and Sustainable Manufacturing Education

Collection

2014 ASEE Annual Conference & Exposition

Authors

Tzu-Liang Bill Tseng, University of Texas, El Paso; Richard Chiou, Drexel University (Eng. & Eng. Tech.); Paras Mandal, University of Texas, El Paso; Eric D Smith, University of Texas, El Paso; Radian G Belu, Drexel University (Tech.); Oscar H. Salcedo, University of Texas, El Paso

Tagged Divisions

Manufacturing

evaluation scale consisted of 15 separate itemsthat addressed the particular aspects of the four symposium’s workshops, see Appendix A. Inorder to assess the utility of each workshop four content-based or “knowledge-based” tests weredeveloped for each workshop presentation addressing the key concepts delivered by the Page 24.635.7workshop presenters. A pre-test and a post-test research design were implemented to assess theamount of information acquired by the workshops’ participants. Appendix B presents these testsfor each of the delivered workshops.Data Analyses. Descriptive and inferential statistics were performed to address both the qualityof

Conference Session

Development of Manufacturing Engineering Laboratories I

Collection

2012 ASEE Annual Conference & Exposition

Authors

Richard Y. Chiou, Drexel University; Michael G. Mauk, Drexel University; Tzu-Liang Bill Tseng, University of Texas, El Paso; Bret Alan Davis

Tagged Divisions

Manufacturing

. http://www.eng.fsu.edu/~kroth/teaching.htm http://www.mee.unt.edu/public/traum/courses/2008spring/meen4110/8. Sage, Daniel; Unser, Michael. "Teaching Image-Processing Programming in Java." IEEE SIGNAL PROCESSING MAGAZINE, Nov. 2003. .9. Bloechle, Walter. "Measuring Surface Roughness with an Optical Sensor." Hohner Corp, 8 July 2009 .10. Green, M. A. " Solar Cells: Operating Principles, Technology, and System Applications" NJ, Prentice-hall, Inc., 1982.11. Rudolf Hezel “Progress in Manufacturable High-Efficiency Silicon Solar Cells.” B. Kramer (Ed.): Adv. In Solid State Phys. 44, 39-49 (2004). Springer-Verlag Berlin Heidelber 2004

Conference Session

Manufacturing Division Technical Session - Robotics and Manufacturing

Collection

2021 ASEE Virtual Annual Conference Content Access

Authors

Hayder Zghair P.E., Pennsylvania State University

Tagged Divisions

Manufacturing

stands for the positionformat which describes the position data. The third describes the feed rate of the code for the giveninstruction block. This could be programmed for 1 to 100% for any feed rate programmed into therobot. Finally, the fourth describes the positioning path that the robot will take depending on themotion format being either labeled as FINE or CNT. Defining the variables for motion programming canbe resulted to analyze the cycle times and consistency variables.3. Results and AnalysisIn this study, two factors were considered, the speed of the manipulator (factor A) and the terminationbath (factor B). The levels of interest for factor (Speed A) have been used as follows: 1000 mm/sec aslow level, and 2000 mm/sec as high level

Conference Session

Emerging Technologies in Manufacturing Education II

Collection

2007 Annual Conference & Exposition

Authors

David Wells, North Dakota State University

Tagged Divisions

Manufacturing

our wishlist, and (b) begin in-house fabrication of a micro-milling machine of our own design with a 400,000 rpm spindle capability. … modest machining envelope. Our estimation is that a very wide range of highly relevant applications can be addressed within a 150 millimeter square planform area. Practical z- dimensions for micromachining are likely to be quite small. Fifty millimeters may be adequate. … modest machine feeds. At a spindle speed of 100,000 rpm, machine feeds are fairly small, as the chip loads that can be supported by cutting tools on the order of tens-to-a few hundreds of microns in diameter are quite small. For example, machining a soft stainless steel (e.g., AISI 316L) with a two

Conference Session

Integrated Activities for Green Energy and Manufacturing Education

Collection

2017 ASEE Annual Conference & Exposition

Authors

Irina Nicoleta Ciobanescu Husanu, Drexel University (Tech.); Yalcin Ertekin, Drexel University (Tech.); Richard Chiou, Drexel University (Eng. & Eng. Tech.); Michael G. Mauk, Drexel University

Tagged Topics

Diversity

Tagged Divisions

Manufacturing

air, superconducting magnet, and ultra-capacitors. Batteries are generally the mostpractical form of energy storage for the project due to their size to weight ratio and their cost.This is the most commonly used energy storage device and has a charging and dischargingefficiency of 80% to 90%. For this project there was no specified load, as many different loadswere to be tested. The load would also be interchanged depending if a gird-tie inverter or a non-grid-tie inverter was being used.Assessment: The project scored an average score range between 3.6 to 4.5 for criteria a, b, d, fand g and a score of 5 on criterion “e”, while for the remaining criteria they had lower scores ona LIKERT scale from 1 to 5. The students had more difficulty on

Conference Session

Manufacturing Division Technical Session 1

Collection

2019 ASEE Annual Conference & Exposition

Authors

Asghar Rezasoltani, Western Kentucky University

Tagged Divisions

Manufacturing

fracture toughness and impact toughness of laser rapid manufactured Inconel-625 structures and their co-relation," Materials & Design, vol. 59, pp. 509-515, 2014.[11] D. A. Roberson, A. R. T. Perez, C. M. Shemelya, A. Rivera, E. MacDonald, and R. B. Wicker, "Comparison of stress concentrator fabrication for 3D printed polymeric izod impact test specimens," Additive Manufacturing, vol. 7, pp. 1-11, 2015.[12] A. J. Brooks et al., "Neutron interferometry detection of early crack formation caused by bending fatigue in additively manufactured SS316 dogbones," Materials & Design, vol. 140, pp. 420-430, 2018.[13] A. Haghshenas and M. Khonsari, "Evaluation of fatigue performance of additively

Conference Session

Projects in Manufacturing Curriculum

Collection

2017 ASEE Annual Conference & Exposition

Authors

Roby Lynn; Kathryn W. Jablokow, Pennsylvania State University, Great Valley; Christopher Saldana; Thomas Marshall Tucker, Tucker Innovations; Thomas Kurfess, Georgia Institute of Technology

Tagged Divisions

Manufacturing

were present on the target part, which wasimpossible to realize with the given tooling. The profiles of the cutting tools that were providedto the students for this exercise are shown in Figure 4. Figure 3. Target Part for Visualization Exercise b. Neutral-Lead a. Neutral-Lead 35° c. 15°-Lead 75° Right- d. R.1mm Straight 35° Left-Handed Right-Handed Insert Handed Insert Profiling Insert Insert Figure 4. Turning Tool Profiles for Visualization ExerciseThe procedure for simulating the turning operation in SculptPrint is as follows

Conference Session

Capstone Projects in Manufacturing

Collection

2018 ASEE Annual Conference & Exposition

Authors

Richard Chiou, Drexel University (Eng. & Eng. Tech.); Michael G Mauk P.E., Drexel University; Tzu-Liang Bill Tseng, University of Texas, El Paso; Carlos Michael Ruiz, Drexel University (Eng. & Eng. Tech.); Jean Carlo Espaillat; Senyu Wang

Tagged Divisions

Manufacturing

width of the traces independently (Figure 8).Design rules can be defined by net classes, class-to-class rules, and detailed settings by object types for eachclass or layer. DipTrace features a design process withreal-time DRC, which reports errors before makingthem. Students are then able to determine errors withtheir design to save costs on error prints, which reducesproject time and material waste. The board can bepreviewed in 3D and exported for mechanical CAD FIGURE 8 ROUTING TRACE   modeling (Figure 9). Design Rule Check (DRC) with (CONTROL B OARD) in-depth detailing, net connectivity verification, andcomparing to source schematic ensure maximum quality of

Conference Session

Simulation and Programming

Collection

2013 ASEE Annual Conference & Exposition

Authors

Derek M Yip-Hoi, Western Washington University

Tagged Divisions

Manufacturing

-20.8. Jerrard, R.B., Drysdale, R.L., Hauck, K., Schaudt, B., Magewick, J., “Methods for detecting errors in sculptured surface machining”, IEEE Computer Graphics and Applications, Vol. 9 (1), 1989, pp. 26-89.9. Oliver, J., Goodman, E.D., “Direct dimensional NC verification”, CAD, Vol. 22 (1), 1990, pp. 3-10.10. Ong, S.K., Jiang, L., Nee, A. Y. C., “An Internet-Based Virtual CNC Milling System”, International Journal of Advanced Manufacturing Technolology, Vol. 20, 2002, pp. 20–30.11. Wang, X., Zheng, P., Wei, Z., Sun Y., Luo, B., Li, Y., “Development of an Interactive VR Training for CNC Machining”, VRCAI 2004 - ACM SIGGRAPH, International Conference on Virtual Reality Continuum and its Applications in Industry, pp. 131-133.12. He

Conference Session

Innovations in Manufacturing Education

Collection

2009 Annual Conference & Exposition

Authors

Robert Creese, West Virginia University; Deepak Gupta, Southeast Missouri State University

Tagged Divisions

Manufacturing

would be 90 for thatstudent. Four questionnaires were given to the students, one each time they handed in a report. Page 14.1065.3Each questionnaire used a scale of “1” to “5”, with “1” being “Completely Disagree” or“Definitely NO” and “5” being “Completely Agree” or “Definitely Yes”. The first threequestionnaires were strictly rating the degree of fulfillment of an activity, but the lastquestionnaire had open ended questions regarding the project and software. The firstquestionnaire and the average response values are presented in Table 1. In Assessment Questionnaire 1, questions A and B were to determine if the studentsopened

Conference Session

Innovative Project-Based Learning Practices in Manufacturing

Collection

2016 ASEE Annual Conference & Exposition

Authors

Tzu-Liang Bill Tseng, University of Texas - El Paso; Aditya Akundi, University of Texas - El Paso; Teresa Wu, Arizona State University; Yirong Lin, University of Texas - El Paso

Tagged Divisions

Manufacturing

) (B) (C) (D) Figure 1. Example of different design stages in the mechanical shaft design project: (A) Initial design stage, (B) addition of forces and constraints for FEA, (C) stress distribution in component, (D) Shaft deformation under applied load. In order to assess the effectiveness of the project setup, the students were instructed towork in groups for the Spring 2015 class, while working individually in the Fall 2015 course.These projects had the following objectives: [1] Apply and extend the theoretical concepts learned in class regarding the design of mechanical components to a real world design problem in an interesting and challenging

Conference Session

Manufacturing Division Technical Session 2

Collection

2019 ASEE Annual Conference & Exposition

Authors

Vukica M. Jovanovic, Old Dominion University; George McLeod, Old Dominion University ; Thomas E. Alberts, Old Dominion University; Cynthia Tomovic, Old Dominion University; Otilia Popescu, Old Dominion University; Tysha Batts; Mary Louise Sandy, Virginia Space Grant Consortium

Tagged Divisions

Manufacturing

, vol. 56, no. 1, pp. 64-69, 2018.[11] B. R. Jordan, "A bird’s-eye view of geology: The use of micro drones/UAVs in geologic fieldwork and education," GSA Today, vol. 25, no. 7, pp. 50-52, 2015.[12] S. G. Zwaan and E. I. Barakova, "Boxing against drones: Drones in sports education," in Proceedings of the The 15th International Conference on Interaction Design and Children, 2016, pp. 607-612: ACM.[13] I. Lindsay, "Drone Panel Presentation: Using drones in archaeological research: Kasakh Valley Archaeological Survey (KVAS), Armenia," 2016.[14] A. Bruzzone et al., "Disasters and Emergency Management in Chemical and Industrial Plants: Drones Simulation for Education and Training," in International Workshop on

Conference Session

Manufacturing Division Technical Session 6

Collection

2019 ASEE Annual Conference & Exposition

Authors

Hamid Eisazadeh, Old Dominion University; Milan Rakita, Purdue University; Mona Torabizadeh, Old Dominion University; Vukica M. Jovanovic, Old Dominion University

Tagged Divisions

Manufacturing

schools has to focus on professional skills and certificates that are acceptedby industry [5]. Some suggest that welding learning process have to include interaction of studentsand their teacher and that it has to include the following: a) the melt (the most central aspect); b)metal transfer mode (weight drop and how the melt flows in relation to welding mode, as here,position B); c) the base material; d) the arc length; e) the movement; e) travel speed; f) the bodyposition; g) the current (amperage); e) the distance to the welding material; and f) the base material[6]. It is also important to define the ways that student and a trainer will interact [6]. Hands onwelding happens in the environment with different visual and audio observations and

Conference Session

Automation Subjects in Manufacturing Education

Collection

2011 ASEE Annual Conference & Exposition

Authors

Richard Chiou, Drexel University; Yalcin Ertekin, Drexel University, Engineering Technology; Michael G Mauk P.E., Drexel University; Robin Kizirian, Drexel University

Tagged Divisions

Manufacturing

computer assembly industry,” International Journal of Computer Applications in Technology, Vol. 17, No. 4, pp. 202 – 212, 2003.12. Kwon, Y., Rauniar, S., Chiou, R. & Sosa, H., “Remote Control of Quality Using Ethernet Vision and Web-enabled Robotic System” J. of Concurrent Engineering: Research and Applications, Vol. 14, No. 1, pp. 35-42, 2006.13. Richard Chiou, Michael Mauk, Sweety Agarwal, and Yueh-Ting Yang, “Development of E-quality Laboratory Modules for use in Engineering Quality Control Courses,” ASEE Annual Conference & Exposition, Austin, TX, June 14-17, 2009.14. G. Al-Kindi, B. Shirinzadeh, Y. Zhong, “A Vision-based Approach for Surface Roughness Assessment at Micro and Nano scales,” ICARCV

Conference Session

Incorporating Innovative Technologies into the Curriculum

Collection

2011 ASEE Annual Conference & Exposition

Authors

Arif Sirinterlikci, Robert Morris University; Tony Lee Kerzmann, Robert Morris University

Tagged Divisions

Manufacturing

://moonbuggy.msfc.nasa.gov/compete.html[7] http://etidweb.tamu.edu/faculty/hung/ASEE/competition.html[8] http://www.sme.org/cgi-bin/getsmepg.pl?/communities/techgroups/ddm/ddm_competition.htm&&&SME&[9] Cox, J., Lutty, A., Hatok, C., Toman, J., Mathers, B., 2009 SAE Baja Series Design Report for Milwaukee,Wisconsin.[10] Cox, J., Mathers, B., 2010 SAE Baja Series Design Report for Greenville, South Carolina. Page 22.137.9