MATERIALS AND MANUFACTURING
• Articulate and utilize corrosion prevention strategies and estimate corrosion behavior of materials and components • Describe the role of ion-diffusion, crystal structure, and grain size on corrosion of metals and alloys • Design and engineer corrosion resistive components for different industries • Define methods of corrosion protection and interpret corrosivity maps • Perform standard corrosion tests, in-depth analyses of test results • Define anodic/cathodic protections and coatings specifications for various components • Formulate corrosion prevention coatings materials for metallic and non-metallic structures Who Should Attend This course is designed for engineers working in automotive, commercial vehicle, off-road, aerospace, marine, rail, energy sectors, electronics and related industries who are interested in corrosion and corrosion prevention. Engineers working for chemical companies on the production of corrosion resistive materials and chemicals and scientists working for government and national laboratories working in the area of conservation, national infrastructures, and advanced energy technologies, as well as academicians will benefit from this course. Prerequisites Individuals should have an engineering or science degree and a basic understanding of electrochemistry. Topical Outline DAY ONE • Fundamentals of Corrosion and Corrosion Prevention −− Overview of corrosion problems and their economic impacts −− Basic electrochemical principles of corrosion and corrosion prevention −− Types of corrosion and role of electromotive force, ion diffusion, crystal structure, and grain size −− Corrosion of composite materials and impact of combined cyclic loading and corrosion −− Standard corrosion tests, and recent software and hardware for corrosion testing • Mechanisms and Prevention of Corrosion
−− Anodic and cathodic protections and engineering principles −− Application of metal oxides, carbides, nitrides and composite coating • Supply and Manufacturing of Corrosion Prevention Materials −− Inorganic base coating materials and their applications −− Organic based coating materials and mode of operation −− Composite coatings and their applications in auto and aerospace industries • Corrosion and Corrosion Prevention of EVs and HEVs with Batteries, Supercapacitors and Fuel Cells −− Corrosion prevention and role of high voltage, electromagnetic sources −− Corrosion in fuel cells and component design to optimize corrosion −− Corrosion in renewable alternative energy sectors
Instructor: Fee: $1415
Gholam-Abbas Nazri
1.3 CEUs
URL:
sae.org/learn/content/c1217/
Corrosion of Metals 5 Hours | On Demand Course I.D.# PD261328ON
This online course teaches about corrosion of metals. The physics of corrosion is explored as a background for the discussion of seven common types of corrosion (uniform, galvanic, crevice, pitting, intergranular, stress corrosion cracking, and dealloying). Students will learn why and how corrosion occurs and methods for controlling corrosion. It includes eleven modules followed by a quiz. Learning Objectives By participating in this course, you will be able to: • List the four parts of a corrosion cell • Explain the anode and cathode reactions that occur in a corrosion cell • Describe the seven common types of corrosion that occur in metals • List at least one significant metallurgical or mechanical design factor that influences corrosion rate for each of type of corrosion • Distinguish between different types of corrosion by appearance • Explain the mechanism for the different types of corrosion • Identify at least one method for controlling the corrosion rate for each of the seven types of corrosion Who Should Attend This course is targeted to design engineers, manufacturing engineers, and quality engineers. It is suggested that, as a prereq- uisite, you either take our Principles of Metallurgy online course or have basic knowledge of the following topics: grains, grain
−− Automotive components −− Aerospace components
−− Marine and underwater infrastructures −− Electronics and energy related systems • Corrosion Engineering and Coating Technologies
−− Design principles to minimize corrosion −− Passive and active coating technologies
DAY TWO • Surface Coating Technologies for Corrosion Prevention −− In-situ surface coating and coating optimization
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3 ways to get a no-obligation price quote to deliver a course to your company: Call SAE Corporate Learning at +1.724.772.8529 | Fill out the online quote request at sae.org/corplearning | Email us at corplearn@sae.org
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