Additive Manufacturing

Many companies are starting to recognize the benefits additive manufacturing (AM) offers in terms of speed, simplicity, reliability, and cost. Additive manufacturing is a process in which a three-dimensional computer model design is built into a physical object by joining thin layers of material. AM is a versatile field that encompasses a variety of methods, materials, and applications.

These classes explain the fundamental concepts of additive manufacturing, including the main principles behind AM and the safety precautions to take during the process. These courses also introduce the basic steps in additive manufacturing and discuss the variety of methods and materials that are used to create AM products.


Class Functional Area Format Difficulty Version Department
1
Classes 1 to 9 of 9
Design for Additive Manufacturing 201

Design for Additive Manufacturing (DFAM) discusses how to conceptualize and create a part design for an additive manufacturing (AM) process. DFAM provides engineers with an incredible degree of freedom. AM processes are capable of creating prototypes or parts with increased ...

Additive Manufacturing Online Beginner 2.0 Additive Manufacturing
Additive Manufacturing Materials Science 211

Additive Manufacturing Materials Science provides a comprehensive overview of the materials that can be used with additive manufacturing (AM) processes. AM materials include a variety of polymers, metals, composites, and ceramics. Each material is distinguished from another material by microstructure, ...

Additive Manufacturing Online Intermediate 2.0 Additive Manufacturing
Integrating Additive Manufacturing with Traditional Manufacturing 221

Integrating Additive Manufacturing with Traditional Manufacturing discusses the factors manufacturers should consider when adding an additive manufacturing (AM) component to a traditional manufacturing operation, including cost, logistics, and best uses of AM with traditional manufacturing, among other concerns. Originally used ...

Additive Manufacturing Online Intermediate 2.0 Additive Manufacturing
Additive Manufacturing as a Secondary Process 231

Additive Manufacturing as a Secondary Process provides a comprehensive overview of the way in which manufacturers can use additive manufacturing (AM) as a secondary, or indirect, process. AM methods can make a variety of tooling, such as molds and patterns, ...

Additive Manufacturing Online Intermediate 2.0 Additive Manufacturing
Intro to Additive Manufacturing 110

This class introduces users to additive manufacturing (AM) processes by outlining the history of AM, describing AM technology, and exploring current and future additive manufacturing applications.

Additive Manufacturing Online Beginner 1.0 Additive Manufacturing
Additive Manufacturing Safety 120

Additive Manufacturing Safety describes how users can protect themselves against common mechanical, electrical, thermal, and airborne hazards associated with AM processes. This class also provides an overview of personal protective equipment (PPE), lockout/tagout procedures, Hazard Communication Standards (HCS), and Safety ...

Additive Manufacturing Online Beginner 1.0 Additive Manufacturing
The Basic Additive Manufacturing Process 130

This class provides an overview of the build process used in additive manufacturing. Upon completing The Basic AM Process, users should know the eight basic steps involved in creating an AM product.

Additive Manufacturing Online Beginner 1.0 Additive Manufacturing
Additive Manufacturing Methods and Materials 140

Additive Manufacturing Methods and Materials provides users with an overview of the different processes used in additive manufacturing. This class also details the materials used in each process and any additional considerations specific to those materials.

Additive Manufacturing Online Beginner 1.0 Additive Manufacturing
Overview of Additive Manufacturing (3D Printing) Technologies

Additive manufacturing, or commonly referred to as 3D Printing, is a manufacturing process that supports all aspects of the product development cycle; from prototype to end-use production parts. It reduces your time to market, improves product quality, enhances collaboration and ...

Additive Manufacturing Instructor-Led Additive Manufacturing
FormatFunctional AreaDepartment IDDepartmentClass IDClass NameDescriptionDifficultyVersionLanguageRelated Classes
OnlineAdditive Manufacturing510Additive Manufacturing510150 Design for Additive Manufacturing 201 Design for Additive Manufacturing (DFAM) discusses how to conceptualize and create a part design for an additive manufacturing (AM) process. DFAM provides engineers with an incredible degree of freedom. AM processes are capable of creating prototypes or parts with increased complexity, functionality, and integration. AM also allows for other unique manufacturing opportunities, such as mass customization.Though there are some design limitations with DFAM, such as part size and material choice, the process is mainly characterized by the opportunities it provides engineers. After taking this course, users will understand key DFAM concepts, such as functional complexity and hierarchical complexity, the basics of AM production processes, and how DFAM concepts related to basic AM production.Beginner2.0English
OnlineAdditive Manufacturing510Additive Manufacturing510160 Additive Manufacturing Materials Science 211 Additive Manufacturing Materials Science provides a comprehensive overview of the materials that can be used with additive manufacturing (AM) processes. AM materials include a variety of polymers, metals, composites, and ceramics. Each material is distinguished from another material by microstructure, mechanical and physical properties, and life cycle. Different AM processes require the use of different AM materials. Therefore, an individual must understand materials’ science to ensure proper material selection.Understanding the materials that are compatible with additive manufacturing processes is an essential part of AM process success. After completing this class, users will not only be able to distinguish between thermoplastic and thermoset polymers, ferrous metals and nonferrous alloys, and ceramic and composite materials, but users will also be able to determine which material type is most appropriate for use with a specific AM process.Intermediate2.0English
OnlineAdditive Manufacturing510Additive Manufacturing510170 Integrating Additive Manufacturing with Traditional Manufacturing 221 Integrating Additive Manufacturing with Traditional Manufacturing discusses the factors manufacturers should consider when adding an additive manufacturing (AM) component to a traditional manufacturing operation, including cost, logistics, and best uses of AM with traditional manufacturing, among other concerns. Originally used for prototyping, AM has increasingly found more roles in traditional manufacturing processes, such as creating tooling or end-use parts. However, because the procedures and tools are so different, combining the two kinds of manufacturing requires considerable adjustments.Logistical concerns of integrating AM with traditional manufacturing include purchasing the correct machines and updating safety protocols. Design concerns involve upskilling engineers so that they can take full advantage of AM capabilities. After taking this course, users will understand how to take full advantage of AM as a tool to augment a traditional manufacturing operation.Intermediate2.0English
OnlineAdditive Manufacturing510Additive Manufacturing510180 Additive Manufacturing as a Secondary Process 231 Additive Manufacturing as a Secondary Process provides a comprehensive overview of the way in which manufacturers can use additive manufacturing (AM) as a secondary, or indirect, process. AM methods can make a variety of tooling, such as molds and patterns, for use in several different casting, forming, and molding processes. Using AM as a secondary process benefits traditional manufacturing processes by reducing costs associated with lead time, tooling, and labor. An individual must understand the different advantages and disadvantages associated with AM as a secondary process prior to determining whether or not to utilize it.Knowledge about AM secondary processes and their benefits is important in order to understand the full impact that AM has upon traditional manufacturing. After completing this class, users will be able to identify the traditional manufacturing areas that benefit from using AM as a secondary process and the advantages and disadvantages of doing so.Intermediate2.0English
OnlineAdditive Manufacturing510Additive Manufacturing510110 Intro to Additive Manufacturing 110 This class introduces users to additive manufacturing (AM) processes by outlining the history of AM, describing AM technology, and exploring current and future additive manufacturing applications.Beginner1.0English
OnlineAdditive Manufacturing510Additive Manufacturing510120 Additive Manufacturing Safety 120 Additive Manufacturing Safety describes how users can protect themselves against common mechanical, electrical, thermal, and airborne hazards associated with AM processes. This class also provides an overview of personal protective equipment (PPE), lockout/tagout procedures, Hazard Communication Standards (HCS), and Safety Data Sheets (SDS).Beginner1.0English
OnlineAdditive Manufacturing510Additive Manufacturing510130 The Basic Additive Manufacturing Process 130 This class provides an overview of the build process used in additive manufacturing. Upon completing The Basic AM Process, users should know the eight basic steps involved in creating an AM product.Beginner1.0English
OnlineAdditive Manufacturing510Additive Manufacturing510140 Additive Manufacturing Methods and Materials 140 Additive Manufacturing Methods and Materials provides users with an overview of the different processes used in additive manufacturing. This class also details the materials used in each process and any additional considerations specific to those materials.Beginner1.0English
Instructor-LedAdditive Manufacturing510Additive Manufacturing918116 Overview of Additive Manufacturing (3D Printing) Technologies Additive manufacturing, or commonly referred to as 3D Printing, is a manufacturing process that supports all aspects of the product development cycle; from prototype to end-use production parts. It reduces your time to market, improves product quality, enhances collaboration and streamlines parts integration. In this multi-level program, you will learn about the current technologies, how they work, and how best to use them to improve your operations.  English