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Materials Degradation in Mechanical Design: Wear, Corrosion, Fatigue, and Their Interactions Web Course RePlay

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Materials degradation from environmental conditions is a common factor that will often occur in mechanical equipment used in every type of environment. These processes can frequently materialize in unpredicted and harmful ways, especially when they interact and lead to early component damage or failure. Captured from five, two-hour sessions, this course summarizes the mechanisms that cause materials and mechanical components to degrade in service through exposure to deleterious mechanical and environmental conditions.

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Metals Bundle

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Almost 75% of all elements are metals. Metals can be classified as either ferrous or non-ferrous and generally conduct electricity and heat well. Most metals are malleable and ductile and are, in general, heavier than other elemental substances. The following six eLearning courses are included in the Materials bundle. Each course is approximately one-hour in duration. See topics/outline for additional details. Introduction to Metals, Ferrous Metals, Nonferrous Metals, Classification of Steel, Essentials of Heat Treatment of Steel Exotic Alloys

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Aluminum Metallurgy

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There are a wide variety of wrought aluminum alloys, each developed to provide specific properties. Getting the strength participants need in an aluminum alloy requires knowledge of the effects of alloy composition, cold-working, and heat treating on aluminum metallurgy and properties. A good understanding of how aluminum alloys behave and what can be done to modify their properties is critical for being more productive and profitable. The course takes about one hour to complete and consists of one module and a final exam. Also, quizzes and problems provide participants opportunities to apply the concepts taught.

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Metallurgy of Steel: Principles

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Getting the strength and hardness you need in your steel requires knowledge of the effects of alloy composition and heat treating on steel properties. With knowledge of steel metallurgy you’ll be better able to: Select the most appropriate alloy and heat treating process for your application Evaluate suppliers Develop manufacturing processes Solve quality problems A good understanding of what can be done to modify the properties of steel is critical for being more productive and profitable.

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Ferrous Metals Bundle: Steel and Cast Iron

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Ferrous metals contain iron and are prized for their tensile strength and durability. Most are magnetic and contain a high carbon content which generally makes them, with the exception of wrought iron and stainless steel, vulnerable to rust. The following seven eLearning courses are included in the Ferrous Materials Bundle: Steel and Cast Iron. Each course is approximately one-hour in duration. Modules include: Introduction to Physical Properties, Introduction to Mechanical Properties, Introduction to Metals, Hardness Testing, Ferrous Metals, Classification of Steel, Essentials of Heat Treatment of Steel.

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FEA Beyond Basics: Thermal Analysis Web Course RePlay

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Finite Element Analysis (FEA) is a powerful and well recognized tool used in the analysis of heat transfer problems. However, FEA can only analyze solid bodies and, by necessity thermal analysis with FEA is limited to conductive heat transfer. The other two types of heat transfer: convection and radiation must by approximated by boundary conditions. Modeling all three mechanisms of heat transfer without arbitrary assumption requires a combined use of FEA and Computational Fluid Dynamics (CFD).

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Foundations for Implementing Root Cause Analysis

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Effective problem solving isn't just a quality function, and it's not just for operations or engineering. Effective problem solving is a valuable skill set needed throughout an organization. By working through a plausible scenario, you'll assess your own problem-solving skills and experience how tempting it is to jump to solutions or try to fix the problem without investigating and understanding all the underlying causes. Though sometimes effective in the short-term, jumping to solutions can be unreliable, wasting time, money, and effort.

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Introduction to Design Review Based on Failure Modes (DRBFM) Web Course RePlay

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This course will explain all phases of the DRBFM methodology and provide details on how to accomplish the specific steps. With the Design Review Based on Failure Modes (DRBFM) and Design Review Based on Test Results (DRBTR) Process Guidebook that is bundled with the course, the instructor will provide specific information on each step. Formats, examples, notes and homework slides will be used to illustrate the defined steps of the new SAE J2886 DRBFM Recommended Practice. Similarities in content between DRBFM and FMEA will be discussed, however the focus will be on conducting DRBFM methodology.

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Additive Manufacturing Bundle

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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 s 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. The one-hour courses in this bundle explain the fundamental concepts of additive manufacturing, including the main principles behind AM and the safety precautions to take during the process.

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Out-Innovate the Competition

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Well-intentioned leaders, in their attempts to boost innovation, are inadvertently destroying it. Based on Stephen Shapiro’s bestselling book, Best Practices are Stupid: Ways to Out-Innovate the Competition, this online learning experience offers counterintuitive yet proven strategies for boosting innovation and making it a repeatable, sustainable, and profitable process. He teaches that innovation isn't just about generating occasional new ideas; it's about staying consistently one step ahead of the competition.

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Battery Management Connection and Control

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Introduction to Power Electronic Converters: In this course, you will learn why we need power converters. We will discuss the basic principles of power conversion and you will receive a brief overview of the various types of power converters. You will learn how to recognize different voltage, current, and power levels, as well as the AC or DC character of electrical power, through examples of common, present-day electrical applications. Power conversion and efficiency in battery systems: In this course, you will be taken into the lab to get acquainted with power conversion principles and efficiency measurements.

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Doing the Right Things Right

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Based on the book by bestselling author/award-winning speaker Laura Stack, Doing the Right Things Right: How the Effective Executive Spends Time, this course focuses on to obtain profitable, productive results by managing two critical values: effectiveness and efficiency. Stack describes her 3T Leadership model, 12 practices to enable executives to apply these values, grouped into three areas where leaders spend time: strategic thinking, teamwork, and tactics. Following an assessment of personal productivity practices, learn how to build and apply these practices to situations that require making tough choices about managing time.

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AS7489: Aerospace Coating Fundamentals for ACAS Personnel

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This introductory AS7489 certification course provides both new and tenured aerospace coatings application specialists (ACAS) with technical training on safety and engineering compliance. Topics specific to the successful preparation and coatings application of aircraft substrates will be the central focus. This course is approved by Probitas Authentication and the successful completion of this course fulfills the training requirements for SAE AS7489 ACAS Course I Certification.

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Introduction to Weibull Solution Methods

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Weibull Analysis is the starting point for solving most issues related to product reliability, maintainability, supportability, quality, safety, test planning, and cost control. Weibull Analysis is popular worldwide as the best method for modeling and predicting variability and failure of designs, products, and systems. Instructor Wes Fulton will provide a solid overview of Weibull Solution Methods including an explanation of 16 additional Weibull Analysis capabilities, or Weibull Extensions.

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Electrodes to Cells

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This course explains how a lithium-ion cell can be designed, sized, and produced for a specific capacity and energy. The key steps in the selection and production of the main components of the cell, i.e. electrodes, separator, and electrolyte, are discussed. The slurry formulation, mixing, coating, drying, calendaring, cutting, stacking, electrolyte formulation/injection, sealing/packing, and formation cycles are detailed both in terms of machineries and the processing parameters.

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Adhesives Bundle

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Manufacturers increasingly rely on adhesives to assemble a variety of products, such as cars, computers, furniture, and toys. An adhesive is a substance used to join two or more materials. Adhesive bonding is the process of placing an adhesive between two surfaces, or substrates, and allowing it to harden, or cure. Structural adhesives are most commonly used in adhesive bonding, since they can easily withstand heavy loads. Epoxies, anaerobics, acrylics, silicones, urethanes, and cyanoacrylates are commonly used structural adhesives. These courses explain the fundamental concepts of adhesive bonding as they apply to product assembly.

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Introduction to FMEA: What, Why, When, and How

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Failure Mode and Effects Analysis (FMEA) is an essential part of any product design or redesign activity. FMEA is a proactive, quantitative, qualitative, step-by-step approach for identifying and analyzing all potential points of failure in any product or service. This team-based activity can dramatically improve product performance. It can also reduce manufacturing issues at the component, system, and processing levels. This module gives a high-level overview of FMEA facts: WHAT an FMEA is, WHY they are used, WHEN an FMEA is created, WHO is on the FMEA development team, and HOW the FMEA form is completed.

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Introduction to Design of Experiments (DOE) for Engineers

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Design of Experiments (DOE) is a methodology that can be effective for general problem solving, as well as for improving or optimizing product design and manufacturing processes. Specific applications of DOE include, but are not limited to, identifying root causes to quality or production problems, identifying optimized design and process settings, achieving robust designs, and generating predictive math models that describe physical system behavior. This introductory eLearning course provides an example scenario to give learners the opportunity to discover situations that may warrant a designed experiment.

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Design of Experiments (DoE) for Engineers

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How do you determine the root cause of a problem or identify which variable settings will make the product or process more "robust"? What if you need to gain a better understanding of a complicated system? Can you identify which variables most affect performance and obtain a well-correlated regression equation that explains how those selected system variables and their interactions affect performance?   Design of Experiments (DOE) is an excellent, statistically based tool used to address and solve these questions in the quickest, least expensive, and most efficient means possible.

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Principles of Metallurgy

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This online course teaches the basic microscopic structures present inside of metals, how these structures and metal composition influence metal strength, and how these structures can be modified using common manufacturing processes to obtain specific mechanical properties. Several examples are presented to demonstrate how common alloying and manufacturing methods are used to modify the microscopic structures and properties of metals. It includes twelve modules that are five to 25 minutes in length, followed by a quiz.