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Introduction to Steel

This course is an introduction to steel, exploring its history and cultural context, where it comes from, how it works, why we use so much of it, and how we might use it in the future.

It is delivered in a lively manner using everyday examples, demonstrations, and film footage of steel making.

"I have finished the course, and I would like to thank the staff of TenarisUniversityX for this excellent production, and also for the learning material and the opportunity to participate, sending best regards from Venezuela." - Fabian Robledo

What you'll learn

The following concepts will be covered:

The basics of steel smelting;
The properties of steel and their origins;
Its relationship with society;
The sustainability of a world underpinned by steel.

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What's inside

Learning objectives

The basics of steel smelting;
The properties of steel and their origins;

Its relationship with society;
The sustainability of a world underpinned by steel.

The basics of steel smelting;
The properties of steel and their origins;
Its relationship with society;
The sustainability of a world underpinned by steel.

Good to know

Know what's good

, what to watch for

, and possible dealbreakers

This course offers a thorough investigation of steel, a pivotal component in society and the modern world

The incorporation of vivid examples, live demonstrations, and footage within the course enhances learner engagement and comprehension

Individuals with a desire to delve into the fascinating history, properties, and applications of steel will find this course enriching

Learners from beginner to intermediate levels can benefit from the clear explanations and engaging delivery of the course content

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Introduction to Steel with these activities:

Explore the History of Steel

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Reading this book helps you gain a deep understanding of the history and cultural context of steel.

View Sport, Power, and Society: Institutions and... on Amazon

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Read the introduction and first two chapters.
Summarize the key points of each chapter.
Identify the different ways steel has been used throughout history.

Create a Steel Resource Compilation

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A resource compilation can serve as a valuable reference for reviewing and expanding your understanding of steel.

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Gather resources related to the course, such as articles, videos, and websites.
Organize the resources into a logical structure.
Create a document or presentation to share your compilation with others.

Form a Steel Study Group

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Forming a study group can provide support, accountability, and different perspectives on the course material.

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Identify a group of students who are interested in forming a study group.
Decide on a meeting time and place.
Create a study schedule and stick to it.
Discuss the course material, ask questions, and help each other learn.

Two other activities

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Solve Steelmaking Problems

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Solving practice problems helps you understand the different techniques used in steelmaking and its chemical processes.

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Go to the course website and download the practice problems.
Solve at least 10 problems.
Check your answers with the solutions provided.
Review the problems you got wrong.

Create a Steel Infographic

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Creating an infographic can help you summarize and retain the key concepts related to steel.

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Gather information about the properties and sustainability of steel.
Choose a design tool and template for your infographic.
Create your infographic, including visuals and text.
Share your infographic with other students or on social media.

Career center

Learners who complete Introduction to Steel will develop knowledge and skills that may be useful to these careers:

Steelworker

Steelworkers fabricate, erect, and install steel structures. They use their knowledge of steel to create structures that are both safe and durable. This course will help Steelworkers understand the properties of steel and how it can be used in construction projects.

See salaries and explore the career path for Steelworker

Materials Engineer

Materials Engineers develop and test new materials for use in a variety of applications. This course will help Materials Engineers understand the properties of steel and how it can be used in different applications.

See salaries and explore the career path for Materials Engineer

Metallurgical Engineer

Metallurgical engineers design new metals and determine how existing metals can be used more efficiently. A Metallurgical Engineer's work has widespread effects on our modern infrastructure and technology. They also create alloys, which are made from mixing different metals, in order to adjust the properties and performance of the material. This course will help a Metallurgical Engineer build a foundation in steel and enable them to understand and apply its properties to their designs. Understanding the sustainability of steel and its production processes will also be vital for Metallurgical Engineers to inform their decision making.

See salaries and explore the career path for Metallurgical Engineer

Corrosion Engineer

Corrosion Engineers develop and implement strategies to prevent corrosion in metal structures. This course will help Corrosion Engineers understand the properties of steel and how it can be protected from corrosion.

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Metallurgist

Metallurgists study the properties of metals. They use their knowledge to develop new alloys and improve existing ones. This course will help Metallurgists understand the properties of steel and how it can be used in different applications.

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Welder

Welders join metal parts together using heat. They use their knowledge of steel to create welds that are strong and durable. This course will help Welders understand the properties of steel and how it can be welded.

See salaries and explore the career path for Welder

Architect

Architects design buildings and other structures. They use their knowledge of materials to create structures that are both beautiful and functional. Architects often use steel in their designs because it is a strong and versatile material. This course will help Architects understand the properties of steel and how it can be used in architectural projects. Additionally, this course will help Architects understand how the sustainability of steel impacts the environment and how they can design more sustainable buildings.

See salaries and explore the career path for Architect

Automotive Engineer

Automotive Engineers design, build, and test cars, trucks, and other vehicles. They use their knowledge of materials to create vehicles that are safe, efficient, and affordable. Automotive Engineers often use steel in their designs because it is a strong and lightweight material. This course will help Automotive Engineers understand the properties of steel and how it can be used in automotive engineering projects.

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Project Manager

Project Managers plan, execute, and close out projects. They work with teams of people to achieve project goals. Project Managers often work on construction projects, where steel is a common material. This course will help Project Managers understand the properties of steel and how it can be used in construction projects. Additionally, this course will help Project Managers understand the sustainability of steel and how it impacts project timelines and budgets.

See salaries and explore the career path for Project Manager

Construction Manager

Construction Managers oversee the construction of buildings, bridges, and other structures. They work with architects, engineers, and contractors to ensure that projects are completed on time, within budget, and to specification. Construction Managers often use steel in their projects because it is a strong and versatile material. This course will help Construction Managers understand the properties of steel and how it can be used in construction projects.

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Mechanical Engineer

Mechanical Engineers design, build, and test mechanical systems. They work with a variety of materials to create products and systems that solve problems and improve our lives. Mechanical Engineers use their knowledge of the properties of different materials to design systems that are strong, durable, and efficient. This course will help Mechanical Engineers understand the properties of steel and how it can be used in mechanical systems.

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Manufacturing Engineer

Manufacturing Engineers design, build, and operate manufacturing systems. They use their knowledge of materials to create systems that are efficient and productive. Manufacturing Engineers often use steel in their designs because it is a strong and durable material. This course will help Manufacturing Engineers understand the properties of steel and how it can be used in manufacturing systems.

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Civil Engineer

Civil Engineers design, build, and maintain roads, bridges, buildings, and other structures. They use their knowledge of materials to create structures that are safe and durable. Civil Engineers often use steel in their designs because it is a strong and versatile material. This course will help Civil Engineers understand the properties of steel and how it can be used in civil engineering projects.

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Aerospace Engineer

Aerospace Engineers design, build, and test aircraft, spacecraft, and other vehicles that fly. They use their knowledge of materials to create vehicles that are lightweight, strong, and efficient. Aerospace Engineers often use steel in their designs because it is a strong and lightweight material. This course will help Aerospace Engineers understand the properties of steel and how it can be used in aerospace engineering projects.

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Materials Scientist

Materials Scientists research and develop new materials for a variety of applications. Different materials have unique material properties, and professionals in this field are responsible for researching these properties for new applications. Materials Scientists may also develop and improve existing materials to make them stronger, lighter, or more durable. This course may be useful for Materials Scientists who wish to learn about steel, a popular material used in a variety of industries.

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Reading list

We've selected 16 books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Introduction to Steel.

ASM Handbook

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This handbook comprehensive resource on the properties and selection of ferrous and non-ferrous metals. It valuable reference for engineers and other professionals who work with steel.

Introduction to Steel

What you'll learn

Two deals to help you save

What's inside

Learning objectives

Good to know

Save this course

Activities

Career center

Reading list

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