Welding Engineering Technology - Inspection
(Optional Co-op)

Description: This series of modules will prepare students for job searching for their co-op work terms with the guidance of a Coop Advisor. Students will familiarize themselves with the co-operative education policies and procedures and will learn the expectations, rules, and regulations that apply in the workplace regarding social, organizational, ethical, and safety issues while developing an awareness of self-reflective practices. Students will reflect on their skills, attitudes, and expectations and examine available opportunities in the workplace. Successful completion of these modules is a requirement for co-op eligibility.

• Hours: 14
• Credits: 1
• Pre-Requisites:
• CoRequisites:

Description: This course builds on knowledge and skills acquired in Technical Mathematics I and II. The topics covered in this course include the application of algebraic and trigonometric functions, exponents and radicals, analytic geometry, statistics, and data analysis. The course introduces numerous technical applications pertaining to welding engineering technology and is designed to improve the students' analytical and problem solving skills.

• Hours: 42
• Credits: 3
• Pre-Requisites: MATH1635
• CoRequisites:

Description:

This course will introduce industrial robots, how they work and their applications. Robot operation and communication with peripheral equipment will be studied. Emphasis will be placed on effective operation of teach pendants to safely test-run existing programs and to efficiently jog the robot to desired positions to correct existing robot paths.

• Hours: 28
• Credits: 2
• Pre-Requisites:
• CoRequisites:

Description: This course introduces the student welding codes and standards as they are applied to pressure vessel and structural applications. Welding procedure development, documentation, and qualification will be studied in depth. The qualification of welding personnel will also be studied. Supporting laboratory activities provide an opportunity to develop a new welding procedure and test it destructively as per code requirements.

• Hours: 42
• Credits: 3
• Pre-Requisites: WELD1700
• CoRequisites:

Description: This laboratory based course develops proficiency in industrial welding and joining processes. Simulated industrial situations provide the student with welding procedure development experience and a thorough understanding of the operating variables of welding processes including GTAW, GMAW, FCAW, MCAW, SAW and RSW. The importance of procedural documentation is stressed by requiring written procedures and laboratory reports documenting the process applications.

• Hours: 84
• Credits: 6
• Pre-Requisites: WELD1670
• CoRequisites:

Description:

This course is designed to further enhance the students’ knowledge of welding processes as taught in Welding Processes Technology I and II. The major areas of study will include: Arc Welding Power Sources, Gas Metal Arc Welding and Flux Cored Arc Welding.

• Hours: 28
• Credits: 2
• Pre-Requisites: WELD1670
• CoRequisites:

Description:

This course will develop basic robotic programming skills with a variety of robotic systems. Selection of jog system, positional teaching, specifying appropriate motion type and velocity, input/output commands, jumps, labels and counters will be studied for effective robot programming strategies. Safe operation and test running of programs will be emphasized.

• Hours: 42
• Credits: 3
• Pre-Requisites:
• CoRequisites:

Description: This course continues to develop applications in welding and weldment Visual Inspection (VT). The functions of the visual inspector prior to, during, and after the welding process will be explored. The student will practice interpreting mechanical, structural, pressure vessel and piping drawings as it relates to the quality planning and inspection processes. The student will create and utilize various inspection documents for monitoring and controlling the fabrication process. The student will create weldments and provide detailed visual inspection reports by evaluating the end product against the acceptance criteria.

• Hours: 42
• Credits: 3
• Pre-Requisites: WELD2155
• CoRequisites:

Description:

This course introduces the study of statics, the mechanics of solids, and the properties of sections. Topics such as forces, vectors and resultants, moments of forces and couples, equations of equilibrium, free-body diagrams, two-force members, coplanar concurrent, parallel and non-concurrent force systems, structures and members. Elementary mechanics of materials topics such as stress, strain, Hooke’s Law, Young’s Modulus of Elasticity, Centroids, Moment of Inertia, beam bending and stress will be covered. Fundamental concepts in the allowable strength of welded connections will also be introduced.

• Hours: 42
• Credits: 3
• Pre-Requisites: MATH2285
• CoRequisites:

Description: This course is designed to provide the student with an introduction to basic metallurgical concepts through the study of welding related metallurgical considerations. The areas of study will include steel making, the structure and properties of plain carbon steel, stainless steel and aluminum as well as the classifications of steels. The student will be taught basic metallography which includes specimen preparation and etching. In addition, the student will study phase diagrams, the iron-carbon diagram and the effect of heat input upon a weldment.

• Hours: 42
• Credits: 3
• Pre-Requisites:
• CoRequisites:

Description: This introductory course will enable the student to use non-destructive inspection methods to assess the structural integrity of weldments and metals. Lab demonstrations and extensive practice will enable the student to inspect weldments and interpret test results using the Liquid Penetrant (PT) and Magnetic Particle (MT) methods.

• Hours: 42
• Credits: 3
• Pre-Requisites:
• CoRequisites:

Description:

This course is designed to provide the student with knowledge of the basic principles and laws of electricity and the measurement of electrical quantities as required safely working with and understanding the operation of welding equipment and processes. The student will become familiar with industrial electrical power systems, the conversion of electrical power for welding, the measurement of electrical quantities, control interfacing between power sources, wire-feeders, and ancillary equipment, and the troubleshooting of welding circuits. A primary focus of this course will be the development of safe work practices in the welding lab for the purpose of process measurement and troubleshooting, not welding machine repair or installation wiring.

• Hours: 42
• Credits: 3
• Pre-Requisites:
• CoRequisites:

Description: This laboratory based course further develops proficiency in industrial welding and joining processes. Simulated industrial situations provide the student with welding procedure development experience and a thorough understanding of the operating variables of welding processes including GTAW, GMAW, FCAW, MCAW, SAW and RSW. The importance of procedural documentation is stressed by requiring written procedures and laboratory reports documenting the process applications.

• Hours: 42
• Credits: 3
• Pre-Requisites: WELD2235
• CoRequisites:

Description:

This course is designed to further enhance the students’ knowledge of welding processes as taught in Welding Processes Technology I, II and III. The major areas of study will include: Submerged Arc Welding, Gas Tungsten Arc Welding, Plasma Arc Welding, Plasma Cutting, Plasma Gouging and Resistance Welding. Other related welding processes such as Stud Welding and Laser Beam Welding will also be studied.

• Hours: 28
• Credits: 2
• Pre-Requisites: WELD2250
• CoRequisites:

Description: This co-op work term will provide students with college-approved work experience in an authentic, professionally relevant work environment. Students will be provided the opportunity to connect theory and practice by leveraging their academic training to develop a broad base of vocational skills. The practical applications of this work term will promote students’ awareness of key concepts and terminology in their field, cultivate their problem-solving and decision-making capabilities, encourage their development of professional autonomy and collaboration, and enhance their capacity to analyze and reflect on their demonstrated abilities in the workplace.

• Hours: 420
• Credits: 14
• Pre-Requisites: CDEV1020 OR CEPR1020
• CoRequisites:

Description: This co-op work term will provide students with college-approved work experience in an authentic, professionally relevant work environment. Students will be provided the opportunity to connect theory and practice by leveraging their academic training to develop a broad base of vocational skills. The practical applications of this work term will promote students’ awareness of key concepts and terminology in their field, cultivate their problem-solving and decision-making capabilities, encourage their development of professional autonomy and collaboration, and enhance their capacity to analyze and reflect on their demonstrated abilities in the workplace.

• Hours: 420
• Credits: 14
• Pre-Requisites: CDEV1020 OR CEPR1020
• CoRequisites:

Description: This co-op work term will provide students with college-approved work experience in an authentic, professionally relevant work environment. Students will be provided the opportunity to connect theory and practice by leveraging their academic training to develop a broad base of vocational skills. The practical applications of this work term will promote students’ awareness of key concepts and terminology in their field, cultivate their problem-solving and decision-making capabilities, encourage their development of professional autonomy and collaboration, and enhance their capacity to analyze and reflect on their demonstrated abilities in the workplace.

• Hours: 420
• Credits: 14
• Pre-Requisites: CDEV1020 OR CEPR1020
• CoRequisites:

Description: This co-op work term will provide students with college-approved work experience in an authentic, professionally relevant work environment. Students will be provided the opportunity to connect theory and practice by leveraging their academic training to develop a broad base of vocational skills. The practical applications of this work term will promote students’ awareness of key concepts and terminology in their field, cultivate their problem-solving and decision-making capabilities, encourage their development of professional autonomy and collaboration, and enhance their capacity to analyze and reflect on their demonstrated abilities in the workplace.

• Hours: 420
• Credits: 14
• Pre-Requisites: CDEV1020 OR CEPR1020
• CoRequisites:

Description:

This course will examine all production processes to effectively plan product manufacturing. Process planning and costing for manufacturing methods including cutting, stamping, machining, casting, assembly and coating will be studied. Knowledge of these processes will be used to effectively plan for manufacturing including sequence, resources, equipment and facilities required.

• Hours: 28
• Credits: 2
• Pre-Requisites:
• CoRequisites:

Description:

The basics of welded structural design including allowable stress, limit state, and plastic design will be introduced. The student will learn to calculate the required size of welds using the allowable stress method and the selection of filler metals of various strength levels to match the requirements of weld design codes such as CSA W59. Special emphasis will be placed upon identifying issues with designs or welding discontinuities that can affect the integrity of welded structures with an introduction fracture mechanics. The issues around the ductile to brittle fracture transition of structural steels, brittle fracture, and the special requirements of fatigue-loaded structures will be discussed.

• Hours: 28
• Credits: 2
• Pre-Requisites: WELD2115
• CoRequisites:

Description: The goal of this course is to build upon the basic metallurgical concepts with a thorough study of the metallurgical considerations for welding a variety of metals and the performance of welds in service. Specifically, the welding metallurgy of the following metals will be covered: carbon and low-alloy steels, modern HSLA steels, the stainless steel alloy family, cast irons, nickel, copper, aluminium and titanium based alloys. The effect of the welding process, heat input, and consumable selection will be investigated through lab experiments on sample welds.

• Hours: 70
• Credits: 5
• Pre-Requisites: WELD2175
• CoRequisites:

Description:

Students must undertake a self directed technical project in their 3rd year of study. The purpose of this project is to expose the student to a typical project that would be undertaken by a Technologist in industry. Topics could include solving a manufacturing problem, developing a new welding procedure or evaluating the weldability of a unique material (or any other topic as mutually agreed to by the student and the faculty advisor). The purpose of this course is to research possible topics and to develop a comprehensive plan for implementation in Technical Project II. The student will develop experience in the processes of Project Management (planning phase) and additional skills in technical research.

• Hours: 14
• Credits: 1
• Pre-Requisites:
• CoRequisites:

Description:

This course will include a review of advances in conventional welding processes including arc and resistance welding methods. Application of new consumables, power sources and equipment will be studied. Another component in this course will include a presentation project for a non-conventional welding process such as laser, ultrasonic or explosion welding for joining and non-joining applications.

• Hours: 56
• Credits: 4
• Pre-Requisites: WELD2260
• CoRequisites:

Description: This course will further develop the basic principles of the Liquid Penetrant Inspection (PT) and Magnetic Particle (MT) techniques through theoretical and practical applications. In addition, the Radiographic Testing (RT) process will be introduced with a theoretical understanding of the principles, safety and applications. An analysis and interpretation of RT film will be used to further develop an understanding of this inspection method.

• Hours: 56
• Credits: 4
• Pre-Requisites: WELD2185
• CoRequisites:

Description:

This course will introduce the student to the process of manufacturing and how manufacturing operations are planned and managed. Special emphasis will be placed upon the process of bringing new products to market and relating the involvement of welding technology to this task. Topics will include: the concept of “Value-Adding”, production strategies and processes, concurrent engineering, design for manufacturability, “lean manufacturing”, plant and work-cell layout, process flowcharting and operation analysis, labour force planning, total productive maintenance, and health and safety management. A major student project will be included that will develop skills in the process of technical project management through the use of a welding manufacturing case study.

• Hours: 56
• Credits: 4
• Pre-Requisites:
• CoRequisites:

Description: This course introduces the concept of Total Quality Management as it relates manufacturing processes in general, and specifically to the welding process. Topics of discussion include: the history of the modem quality philosophies (Demming/Juran), the true cost of quality, root cause analysis and quality assurance systems (ISO9000, QS9000, CSA Z299, and ASME). Special emphasis will be placed upon learning applications Ishikawa’s seven tools of quality. (e.g. Pareto Charts, Control Charts and Cause and Effect Diagrams). Equipment calibration (including welding machines, tools, gauges, etc.) will also be discussed.

• Hours: 42
• Credits: 3
• Pre-Requisites:
• CoRequisites:

Description:

The course will develop knowledge in a wide range of technologies applicable to welding automation. Sensors such as limit switches and proximity switches will be studied as will their integration with a weldment fixturing, clamping and transfer tooling. Students will learn to apply automation including torch manipulators and carriages, weldment positioners, dedicated and flexible automation with both robotic and non-robotic technologies. The student will be able to utilize various locating, clamping, indexing and tool guiding devices as used in jigs and fixtures for the successful design of fabrication, welding and inspection operations.

• Hours: 28
• Credits: 2
• Pre-Requisites:
• CoRequisites:

Description: In their 3rd year of study, students will be exposed to a typical project undertaking by Technologist in industry. This self-directed technical project could be solving a manufacturing problem, developing new welding procedures, designing new product or equipment, evaluating the weldability of a unique material or other special topics as mutually agreed to by the student and the faculty advisor. In this course, students will implement and complete the project proposed in Technical Project I. In addition, there is a strong emphasis on the student’s written and oral communication skills via a comprehensive final report and project presentation.

• Hours: 42
• Credits: 3
• Pre-Requisites: WELD3170
• CoRequisites:

Description: This course will develop a basic understanding of Ultrasonic Inspection (UT) through theoretical and practical applications. In addition, the principles and applications of Eddy Current (ET) and Acoustic Emission Testing (AE) processes will be introduced.

• Hours: 56
• Credits: 4
• Pre-Requisites: WELD3250
• CoRequisites:

Description: This course will include a detailed overview and applications with the commonly used welding codes and standards including the ASME Boiler and Pressure Vessel Code Section IX, and the CSA Standards W47.1 and W59. Other welding industry codes and standards will also be considered for specific welding applications including ships, piping, and oil & natural gas transmission. Through a review of welding process and inspection technology the student will also be prepared for and given the opportunity to seek certification to the CSA standard W178.2 as Welding Inspectors (Level 1). Additional fees payable to the Canadian Welding Bureau will be required for students seeking this optional certification.

• Hours: 42
• Credits: 3
• Pre-Requisites: WELD2020
• CoRequisites:

Description:

Applications of welding design in steel and aluminum structures, welded pressure vessels, and machinery will be covered. The performance of welds in service and welding failure analysis will also be introduced. Topics of discussion here include: lamellar tearing, hydrogen embrittlement, corrosion and weld cladding, stress corrosion cracking, wear and wearfacing and elevated temperature failures. The course will include the study of cases of welding design, materials selection, inspection technology, in industrial systems and welded structural failure for student evaluation and corrective action recommendations.

• Hours: 28
• Credits: 2
• Pre-Requisites: WELD3070
• CoRequisites: