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Савилов Андрей Владиславович, Сергей Тарасов, Колесникова Ксения Александровна, Николаева Елена, Ефременков Егор Алексеевич, Андрей Савилов, Елена Николаева, Ксения Колесникова, and Егор Ефременков
The course involves the study of the main types of metallic materials used in the manufacture of aerospace parts, their properties and technological aspects of production. The course examines the dependence of strength and other properties of titanium, aluminum alloys and high-strength steels on their composition, production and machining technologies. The course is aimed at developing competencies required when selecting and using modern aerospace materials, equipment and quality control tools. A number of issues, including the choice of materials for aircraft and spacecraft parts and additive powder-based technologies, will be...
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The course involves the study of the main types of metallic materials used in the manufacture of aerospace parts, their properties and technological aspects of production. The course examines the dependence of strength and other properties of titanium, aluminum alloys and high-strength steels on their composition, production and machining technologies. The course is aimed at developing competencies required when selecting and using modern aerospace materials, equipment and quality control tools. A number of issues, including the choice of materials for aircraft and spacecraft parts and additive powder-based technologies, will be studied. The course provides: - key information about aerospace materials used in aircraft (classification, properties, etc.) - description of the most common aerospace metallic materials such as aluminum and titanium alloys, high-strength steels and metal powders. The course is intended for students of engineering specialties, for engineers of aviation and mechanical engineering enterprises, and other students wishing to study aerospace materials.
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Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Examines standard industry aerospace materials
Develops skills for choosing aerospace materials and using equipment and quality control tools
Taught by industry professionals in aerospace materials
Requires background knowledge in engineering

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Reviews summary

Exceptional aerospace materials

Based on 55 reviews,  “Aerospace Materials” is exceptional, earning high marks for the depth and quality of its content. Reviewers consistently praise the course for its comprehensiveness and thoroughness, highlighting its usefulness for those in the aerospace industry and those interested in learning more about aerospace materials. The course covers a wide range of topics related to aerospace materials, including their properties, manufacturing, and applications.
The course is well-structured and the instructors are knowledgeable.
"Excellent course and effective methodology"
"Excellent video presentation and explanations"
The course is highly informative and provides valuable knowledge.
"Contents are very good and in depth."
"It is an interesting course. Learnt a lot"
The subtitles are not always accurate.
"It has good material and information, but the subtitles need a complete review as many technical words are replaced with others creating non sense sentences."
"The only drawback in my opinion was the scarcity of visual aids like graphs and pictures. The subtitles were really lacking as there was a great deviation from what was being said."
The pronunciation of the instructor can be difficult to understand.
"good material, only pronunciation of English language is a problem"
"Pronunciation and incorrect subtitiles which was making extreme deviations in terms of technical words."

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 Aerospace materials with these activities:
Practice Technical Writing
Brush up on your technical writing skills to effectively communicate concepts related to aerospace materials.
Browse courses on Technical Writing
Show steps
  • Review the basics of technical writing, including structure, style, and clarity.
  • Write short technical reports or summaries on topics related to aerospace materials.
  • Seek feedback on your writing from peers or instructors.
Review Fatigue of Metallic Materials
Fatigue failure is one of the common failure mechanisms in aerospace materials. Watching these videos can provide a good preparation for fatigue related topics in the class
Browse courses on Fatigue
Show steps
  • Watch tutorial videos on fatigue of metallic materials
  • Take notes on the key concepts and mechanisms
Review Aerospace Materials
Review the basics of aerospace materials to prepare for the course and refresh your knowledge of their properties and applications.
Browse courses on Aerospace Materials
Show steps
  • Read the course syllabus and course overview materials to identify key topics and concepts.
  • Review your notes and assignments from previous courses in materials science or engineering.
  • Complete practice problems or questions related to aerospace materials.
16 other activities
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Show all 19 activities
Review Aviation Materials Science and Technology
Review core knowledge from this textbook prior to beginning the course to ensure a foundational knowledge for course content
Show steps
  • Read each chapter summary and skim each chapter
  • Refresh yourself on key concepts such as the mechanical properties of materials
Read 'Aerospace Materials Handbook'
Enhance your understanding by reviewing a comprehensive reference on aerospace materials.
Show steps
  • Obtain a copy of the 'Aerospace Materials Handbook'.
  • Read through the handbook, focusing on chapters relevant to the course topics.
  • Take notes and highlight key concepts, properties, and applications of aerospace materials.
Practice Phase Diagrams
Understanding phase diagrams is essential for selecting and processing aerospace materials. These exercises can enhance your ability to analyze and interpret phase diagrams
Browse courses on Phase Diagrams
Show steps
  • Solve practice problems on phase diagrams
  • Analyze the effect of alloying elements on phase transformations
Learn About Titanium Alloys
Enhance your understanding of titanium alloys by exploring online tutorials and resources.
Show steps
  • Search for online tutorials or courses on titanium alloys and their properties.
  • Follow the tutorials and complete any practice exercises or assessments.
  • Take notes on key concepts and applications of titanium alloys.
Practice applying principles on different materials
Reinforce and expand on the learned principles by applying them on diverse materials to deepen understanding
Show steps
  • Select materials with distinct properties
  • Apply principles of strength and property dependence on composition
  • Analyze results and compare predictions
Solve Strength Calculations
Reinforce your understanding of strength calculations by practicing solving problems.
Browse courses on Material Properties
Show steps
  • Gather practice problems or questions related to strength calculations.
  • Solve the problems using appropriate formulas and concepts.
  • Check your solutions against provided examples or solutions manuals.
Practice applying materials science principles to aerospace engineering
Practice applying materials science principles to aerospace engineering to improve understanding and retention.
Browse courses on Materials Science
Show steps
  • Review the basics of materials science, such as the structure and properties of materials.
  • Identify the different types of materials used in aerospace engineering, such as metals, composites, and ceramics.
  • Learn about the properties of these materials, such as their strength, weight, and resistance to corrosion.
  • Apply these principles to the design and analysis of aerospace structures.
Solve problems related to aerospace materials
Solving problems related to aerospace materials will reinforce the concepts learned in the course and improve problem-solving skills.
Browse courses on Aerospace Materials
Show steps
  • Identify the problem and gather the necessary information.
  • Analyze the problem and develop a solution.
  • Test the solution and make any necessary adjustments.
Explore advanced materials processing techniques
Gain specialized knowledge in advanced processing techniques to enhance understanding of materials production
Browse courses on Additive Manufacturing
Show steps
  • Identify and research advanced processing techniques
  • Follow tutorials and online resources
  • Experiment with different processing parameters
Create a Presentation on Aerospace Joining Techniques
Joining is a critical process in aerospace manufacturing. Creating a presentation can help you understand and communicate the different joining techniques used in the industry
Show steps
  • Research different aerospace joining techniques
  • Summarize the advantages and disadvantages of each technique
Design an Experiment to Test the Properties of an Aerospace Material
Designing an experiment can deepen your understanding of the material properties and testing methods used in aerospace engineering
Browse courses on Aerospace Materials
Show steps
  • Identify the material property to be tested
  • Select appropriate testing methods
Design and simulate a component using aerospace materials
Apply knowledge of aerospace materials to design and simulate a component, enhancing practical understanding
Browse courses on Materials Selection
Show steps
  • Define project specifications
  • Select appropriate materials based on properties
  • Design and model the component
  • Simulate component performance
  • Evaluate and refine the design
Design an Aerospace Component
Apply your knowledge by designing an aerospace component using appropriate materials and design principles.
Browse courses on Material Selection
Show steps
  • Identify a specific aerospace application or component to design.
  • Research and select suitable aerospace materials based on their properties and requirements.
  • Use computer-aided design (CAD) software to create a 3D model of your design.
  • Analyze the design for strength, durability, and other relevant factors.
Build a Model Aircraft Using Aerospace Materials
Building a model aircraft can provide a hands-on experience in selecting,加工ing, and assembling aerospace materials
Browse courses on Aerospace Materials
Show steps
  • Design the model aircraft
  • Select appropriate materials for different components
  • Fabricate and assemble the aircraft
  • Test the aircraft's performance
Tutor in Aerospace Materials
Deepen your understanding by mentoring other students in aerospace materials.
Browse courses on Aerospace Materials
Show steps
  • Volunteer or find opportunities to tutor or assist other students in understanding aerospace materials.
  • Prepare materials and resources to support your tutoring sessions.
  • Provide guidance, support, and feedback to students as they learn about aerospace materials.
Attend Aerospace Industry Events
Expand your knowledge and build connections by attending aerospace industry events.
Browse courses on Networking
Show steps
  • Research and identify upcoming aerospace industry events, conferences, or webinars.
  • Attend the events and actively participate in discussions and networking opportunities.
  • Connect with professionals, learn about industry trends, and explore career opportunities.

Career center

Learners who complete Aerospace materials will develop knowledge and skills that may be useful to these careers:
Aerospace Engineer
An Aerospace Engineer designs, analyzes, and tests aircraft, missiles, and spacecraft. They ensure that these vehicles are safe, efficient, and meet performance requirements. This course can help an Aerospace Engineer gain a better understanding of the materials used in aerospace applications, which can help them to make better design decisions. Additionally, the course can help an Aerospace Engineer to understand the manufacturing processes used to create aerospace components, which can help them to identify potential problems and develop solutions.
Metallurgical Engineer
A Metallurgical Engineer develops and improves metal alloys and other materials used in a variety of industries, including aerospace. They study the properties of metals and how they are affected by different factors, such as heat treatment and alloying. This course can help a Metallurgical Engineer gain a better understanding of the properties of aerospace materials, which can help them to develop new and improved materials for use in aerospace applications.
Materials Scientist
A Materials Scientist researches and develops new materials for a variety of industries, including aerospace. They study the properties of materials and how they are affected by different factors, such as temperature and stress. This course can help a Materials Scientist gain a better understanding of the properties of aerospace materials, which can help them to develop new and improved materials for use in aerospace applications.
Mechanical Engineer
A Mechanical Engineer designs, analyzes, and tests mechanical systems, including those used in aerospace applications. They ensure that these systems are safe, efficient, and meet performance requirements. This course can help a Mechanical Engineer gain a better understanding of the materials used in aerospace applications, which can help them to make better design decisions. Additionally, the course can help a Mechanical Engineer to understand the manufacturing processes used to create aerospace components, which can help them to identify potential problems and develop solutions.
Chemical Engineer
A Chemical Engineer designs, analyzes, and operates chemical plants and processes. They ensure that these plants and processes are safe, efficient, and meet environmental regulations. This course can help a Chemical Engineer gain a better understanding of the materials used in aerospace applications, which can help them to design and operate chemical plants and processes that produce these materials.
Civil Engineer
A Civil Engineer designs, analyzes, and constructs infrastructure systems, such as roads, bridges, and buildings. They ensure that these systems are safe, efficient, and meet environmental regulations. This course can help a Civil Engineer gain a better understanding of the materials used in aerospace applications, which can help them to design and construct infrastructure systems that are used in aerospace applications.
Electrical Engineer
An Electrical Engineer designs, analyzes, and tests electrical systems, including those used in aerospace applications. They ensure that these systems are safe, efficient, and meet performance requirements. This course can help an Electrical Engineer gain a better understanding of the materials used in aerospace applications, which can help them to make better design decisions. Additionally, the course can help an Electrical Engineer to understand the manufacturing processes used to create aerospace components, which can help them to identify potential problems and develop solutions.
Industrial Engineer
An Industrial Engineer designs, analyzes, and improves industrial processes. They ensure that these processes are safe, efficient, and meet environmental regulations. This course can help an Industrial Engineer gain a better understanding of the materials used in aerospace applications, which can help them to design and improve industrial processes that are used to produce these materials.
Manufacturing Engineer
A Manufacturing Engineer designs, analyzes, and improves manufacturing processes. They ensure that these processes are safe, efficient, and meet environmental regulations. This course can help a Manufacturing Engineer gain a better understanding of the materials used in aerospace applications, which can help them to design and improve manufacturing processes that are used to produce these materials.
Project Engineer
A Project Engineer plans, organizes, and manages engineering projects. They ensure that these projects are completed on time, within budget, and to specification. This course can help a Project Engineer gain a better understanding of the materials used in aerospace applications, which can help them to make better decisions about the materials to use on their projects. Additionally, the course can help a Project Engineer to understand the manufacturing processes used to create aerospace components, which can help them to identify potential problems and develop solutions.
Quality Engineer
A Quality Engineer ensures that products and services meet quality standards. They develop and implement quality control procedures and monitor production processes to identify and correct defects. This course can help a Quality Engineer gain a better understanding of the materials used in aerospace applications, which can help them to develop and implement quality control procedures for these materials. Additionally, the course can help a Quality Engineer to understand the manufacturing processes used to create aerospace components, which can help them to identify potential problems and develop solutions.
Sales Engineer
A Sales Engineer sells technical products and services to customers. They provide technical support to customers and help them to choose the right products and services for their needs. This course may be useful for a Sales Engineer who sells aerospace materials. The course can help them to gain a better understanding of the properties of aerospace materials, which can help them to answer customer questions and provide technical support.
Technical Writer
A Technical Writer creates technical documentation, such as user manuals, technical reports, and white papers. They explain complex technical information in a clear and concise manner. This course may be useful for a Technical Writer who writes about aerospace materials. The course can help them to gain a better understanding of the properties of aerospace materials, which can help them to write accurate and informative technical documentation.
Product Manager
A Product Manager plans and manages the development and marketing of products. They work with engineers, designers, and marketers to create products that meet customer needs. This course may be useful for a Product Manager who works on aerospace products. The course can help them to gain a better understanding of the properties of aerospace materials, which can help them to make better decisions about the materials to use on their products.
Materials Buyer
A Materials Buyer purchases materials and components for use in manufacturing. They negotiate prices with suppliers and ensure that materials meet quality standards. This course may be useful for a Materials Buyer who purchases materials for aerospace applications. The course can help them to gain a better understanding of the properties of aerospace materials, which can help them to make better decisions about the materials to purchase.

Reading list

We've selected nine 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 Aerospace materials.
Provides a broad overview of materials used in aviation, including metals, composites, and ceramics. It also covers manufacturing processes and systems used in the aviation industry.
This textbook provides a comprehensive overview of the additive manufacturing technologies used in aerospace applications. It covers the different types of additive manufacturing technologies, the materials that can be used with them, and the design considerations that must be taken into account when using them.
Provides an overview of composite materials, with a focus on their design and analysis. While this book does not specifically focus on aerospace applications, it provides valuable insights into the use of composite materials in engineering.
This textbook provides a comprehensive overview of the lightweight materials used in aerospace applications. It covers the properties of different materials, the manufacturing processes used to produce them, and the design considerations that must be taken into account when using them.
This textbook provides a comprehensive overview of the materials used in high-temperature applications. It covers the properties of different materials, the manufacturing processes used to produce them, and the design considerations that must be taken into account when using them.
This textbook provides a comprehensive overview of the corrosion of aerospace alloys. It covers the different types of corrosion, the factors that affect corrosion, and the methods that can be used to prevent corrosion.
This textbook provides a comprehensive overview of the science of engineering materials. It covers the properties of different materials, the manufacturing processes used to produce them, and the design considerations that must be taken into account when using them.
This textbook provides a comprehensive overview of the materials used in aerospace applications. It covers the properties of different materials, the manufacturing processes used to produce them, and the design considerations that must be taken into account when using them.

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