Picture this: you’re the brain behind the next groundbreaking innovation, a sustainable material that changes the game in technology or eco-friendly products. Sounds amazing, right? Thanks to the incredible field of material science, this dream can become a reality! Embracing this multidisciplinary science is now easier than ever with the help of online courses tailored to your interests and learning pace. Ready to dive into the world of material science and explore its endless possibilities? I’ve got you covered with some of the best online courses out there!
In today’s fast-paced, interconnected world, you don’t need to be physically present to soak up knowledge from top-notch professors and industry professionals. Online courses have not only made learning convenient and accessible, but have also managed to make it fun and engaging, too! I’ve scoured the web for the best material science courses that you can take, no matter if you’re a seasoned scientist wanting a refresher, or a rookie ready to kickstart your career. With that, it’s time to grab your lab coat and goggles and dive into this adventure together—shall we?
Material Science Courses – Table of Contents
- Materials Science and material processing, part 1
- Materials Science and Engineering – ESE GS
- Material Science & Engineering (Hindi)
- The Data Science Course: Complete Data Science Bootcamp
- Manufacturing & Material Science
- Basics of Material selection for mechanical design engineers
- Material Science and Engineering
- Structure of Materials
Materials Science and material processing, part 1
Platform:
Udemy
Rating:
4.7 out of 5
I wanted to give you the lowdown on this awesome online course that’s focused on materials science and nanotechnology. It’s jam-packed with cutting-edge scientific research, and by the time you finish, you’ll be well-versed in the history of materials science. You’ll be able to use technical terms, understand the properties of different materials, and know why and how defects happen.
But wait, there’s more! The course also offers a bunch of hands-on experience in areas like thermal treatment of steel, creating smart materials, and working with nanomaterials in diverse applications like sensors and medicine. So, not only will you come out of this course with a solid understanding of the concepts, you’ll also have some pretty valuable practical skills. This combo will totally boost your chances of landing a job in materials science and nanotechnology, with opportunities all around the world. Trust me, you don’t want to miss out on this one!
Skills you’ll learn in this course:
- Understanding the history of materials science.
- Comprehending complex terms and concepts in the field.
- Analyzing the composition, structure, and properties of materials.
- Identifying and addressing defects in materials.
- Executing thermal and chemical-heat treatment of steel.
- Developing smart materials and nanomaterials.
- Applying materials science knowledge in sensors, medicine, and other industries.
- Preparing for job opportunities in materials science and nanotechnology.
Materials Science and Engineering – ESE GS
Platform:
Udemy
Rating:
4.2 out of 5
This online course in Materials Science is perfect for engineering students and those preparing for ESE general studies. It covers a range of topics to help learners understand the properties of various solid materials and the ways in which these properties are influenced by composition and structure. The course delves into metals, polymers, semiconductors, and ceramics and is comprehensive in its syllabus coverage.
Throughout the course, students will learn crucial aspects of materials science like crystal structures and defects, conducting materials, dielectric materials, magnetic materials, iron-carbon diagrams, steel alloys, material properties and testing, non-destructive testing methods, nanomaterials, composite materials, ceramics, and polymers. Combining elements of physics, chemistry, and engineering, this course not only focuses on the discovery and design of new materials but also on how their history and processing impacts their properties and performance. Understanding these processing-structure-properties relationships is critical in advancing fields such as nanotechnology, biomaterials, and metallurgy. Additionally, the course highlights the significance of materials science in forensic engineering and failure analysis.
Skills you’ll learn in this course:
- Crystal structures and defects
- Conducting materials
- Dielectric materials
- Magnetic Materials
- Iron-carbon diagram and steel alloys
- Material properties and testing
- Non-destructive testing methods
- Nano materials
Material Science & Engineering (Hindi)
Platform:
Udemy
Rating:
5 out of 5
Get ready to dive into the fascinating world of materials science! This comprehensive online course will equip you with the knowledge of the science behind materials, metallurgy, and non-destructive materials. Designed to develop your intuitive understanding of the subject, the course presents a wealth of real-world engineering examples to help you grasp how materials science is useful in engineering practices.
Throughout the course, you’ll explore a wide array of topics, such as types of materials, mechanical properties of materials, stress-strain curves, solidification of metals, crystallization, crystallography, and various bonds in different metals. You’ll also learn about the elastic, anelastic, and viscoelastic behavior of materials, heat treatment of metals, alloying, and characteristics of alloying elements. Additionally, the course will cover metallographic studies, optical and electron microscopy, and essential non-destructive testing techniques like dye penetrant, visual, magnetic particle, ultrasonic, eddy current, radiography, and acoustic emission testing. So, buckle up and get ready to become a materials science whiz!
Skills you’ll learn in this course:
- Understanding the science behind materials and metallurgy
- Identifying different types of materials and their properties
- Analyzing stress-strain curves and mechanical properties of materials
- Gaining knowledge about solidification, crystallization, and crystallography
- Exploring bonding types in metals and the iron-carbon phase diagram
- Learning various heat treatment techniques and their applications
- Performing metallographic studies using optical and electron microscopes
- Conducting non-destructive testing, including dye penetrant, magnetic particle, ultrasonic, and radiography techniques
The Data Science Course: Complete Data Science Bootcamp
Platform:
Udemy
Rating:
4.6 out of 5
Introducing “The Data Science Course 2023,” a comprehensive online training program designed to address the challenges of entering the data science field. This program ensures that students acquire the necessary skills in the right order, taking you from an absolute beginner to a qualified data scientist at a fraction of the cost and time of traditional programs. The Data Science Course 2023 covers a broad range of topics, including data science fundamentals, mathematics, statistics, Python programming, data visualization with Tableau, advanced statistics, machine learning with TensorFlow, and deep learning.
The course is structured to flow smoothly and complement previous topics, starting with an introduction to data and data science, progressing through essential mathematics and statistics concepts, Python programming, Tableau visualization, advanced statistical techniques, and ultimately machine learning and deep learning. Not only will you gain the practical knowledge needed to become a data scientist, but you’ll also develop a strong foundation in thinking like a scientist with a focus on problem-solving and hypothesis testing. So why wait? Click the “Buy Now” button and begin your journey to becoming a data scientist from scratch today.
Skills you’ll learn in this course:
- Comprehensive understanding of data science concepts and methods
- Proficiency in mathematics, particularly calculus and linear algebra
- Strong foundation in statistics and hypothesis testing
- Python programming skills for data manipulation and analysis
- Data visualization using Tableau for effective storytelling
- Mastery of advanced statistics for predictive modeling
- Practical knowledge of machine learning techniques
- Deep learning methods implementation with TensorFlow
Manufacturing & Material Science
Platform:
Udemy
Rating:
4.1 out of 5
Are you an engineering student looking for a solid understanding of Material Science or Engineering Materials? Look no further! This concise yet comprehensive course consists of 40+ lectures, all packed into just 3 hours. It’s perfect for engineering students who want to master this subject amidst the many other subjects they’re juggling.
The topics covered in the course include atomic and crystal structures, crystal imperfections, grain theory, multiphase structure, heat treatment of steel, mechanical properties of material, and engineering metals. The course is ideal for mechanical and civil engineering undergraduates and graduates, as well as students preparing for academic or competitive engineering examinations. Make sure to check out the preview lectures to ensure compatibility with the instructor’s accent – but don’t worry, clear captions (subtitles) have been added throughout the course to address any language barrier issues. So dive in and expand your knowledge of Material Science and Engineering Materials!
Skills you’ll learn in this course:
- Understanding atomic and crystal structures
- Identifying crystal imperfections
- Grasping the grain theory
- Comprehending multiphase structures and phase diagrams
- Mastering heat treatment of steel
- Evaluating mechanical properties of materials
- Familiarity with engineering metals and alloys
- Applying Material Science concepts to engineering projects
Basics of Material selection for mechanical design engineers
Platform:
Udemy
Rating:
4.3 out of 5
I came across this fantastic online course on material selection in mechanical design and engineering – and oh, is it packed with useful insights! The course aims to provide an understanding of materials and their properties, which is super crucial for any engineer designing products. You’ll learn about the role of material selection in the design process, the importance of materials, and the different types of materials.
The cherry on top? The course also covers mechanical and thermal properties, such as modulus, ductility, brittleness, strength, hardness, resilience, and so much more! Plus, you’ll get introduced to various base materials and composites, material charts, and the material selection process itself. Are you a design engineer looking to refresh your material knowledge or a student just starting in mechanical design for product development? Then this course is definitely a fabulous starting point! It’s designed to be precise and focused on concepts – not just the facts. Get ready to dive into the world of materials and improve your expertise in this essential aspect of engineering!
Skills you’ll learn in this course:
- Understanding the role of material selection in the design process.
- Gaining knowledge about the importance and types of materials in mechanical engineering.
- Learning various mechanical properties, such as modulus, ductility, strength, and hardness.
- Grasping thermal properties like conductivity, thermal expansion, and heat capacity.
- Developing an understanding of different base materials and composites.
- Becoming familiar with material charts and the material selection process.
- Understanding and applying material indices in the context of loading applications and material selection.
- Building a strong foundation for a deeper study into material selection and its importance in mechanical design and product development.
Material Science and Engineering
Platform:
Udemy
Rating:
3.2 out of 5
If you’re looking to dive into the world of steel production and materials science, then this online course has got you covered! The course touches on various aspects of mechanical properties of materials, including yield strength, ultimate tensile strength, modulus of elasticity, and ductility. You’ll learn about the importance of hardness and the various methods used to measure it. Additionally, the course will provide valuable information on different types of materials such as ferrous and non-ferrous metallic materials, ceramics, and plastics.
The second part of the course focuses on heat treatment processes, teaching you how to read iron carbon equilibrium and TTT (Time-Temperature-Transformation) diagrams. You’ll gain insights into various heat treatment processes and how they affect the properties of steel. So, grab a comfy seat and get ready to immerse yourself in the fascinating world of material science with this comprehensive course!
Skills you’ll learn in this course:
- Understanding mechanical properties of materials, including yield strength, ultimate tensile strength, and modulus of elasticity.
- Learning about ductility and hardness of materials.
- Exploring methods for measuring material hardness.
- Identifying different types of materials, such as ferrous and non-ferrous metallic materials, ceramics, and plastics.
- Gaining knowledge about heat treatment processes and their effects on steel properties.
- Working with iron-carbon equilibrium and TTT (Time-Temperature-Transformation) diagrams.
- Getting familiar with different types of heat treatment processes.
- Developing a deeper understanding of material science for practical applications.
Structure of Materials
Platform:
Udemy
Rating:
4.5 out of 5
I stumbled upon an online course that digs deep into the world of atomistic structure of materials and the impact of defects on them. It starts at the very beginning, the angstrom length scale, and builds up from there. The course explores the difference between intramolecular and intermolecular interactions, as well as energy of interactions and electronegativity. To make it even more practical, they apply these concepts to X-Ray diffraction. It sounds like a fantastic way to learn about the nitty-gritty details behind the materials we use daily.
But their fascination with the tiny doesn’t stop there! The course goes on to analyze structural motifs in crystalline materials, including simple cubic, body-centered cubic, and face-centered cubic unit cells. Then, they move on to all sorts of defects, from 0D to 3D, covering vacancies, interstitials, intrinsic and extrinsic defects, edge and screw defects, and more. With a mix of theoretical knowledge and practical applications, this course seems like a fantastic opportunity to get a comprehensive understanding of the complex world of materials science and defects.
Skills you’ll learn in this course:
- Understanding the atomistic structure of materials and the effects of defects
- Differentiating between intramolecular and intermolecular interactions
- Analyzing the energy of interactions and electronegativity
- Applying X-Ray diffraction principles to materials analysis
- Developing unit cells of simple cubic, body centered cubic, and face centered cubic structures
- Examining defects like vacancies, interstitials, and their equilibrium concentrations
- Identifying defects like edge and screw dislocations using Burger’s circuits
- Investigating and defects such as grain boundaries and voids in materials
In conclusion, investing your time in Material Science online courses is a smart choice for those eager to expand their knowledge in this fascinating field. Not only do these courses provide the flexibility and convenience so often required in our busy lives, but they also offer an engaging and immersive learning experience. With the variety of options available, you can easily find a course tailored to your specific interests and professional goals.
Don’t hesitate to take the plunge and embark on a journey of discovery in the world of Material Science. The knowledge and skills you’ll acquire will undoubtedly open doors to new opportunities and give you an edge in your career. So, go ahead and explore the myriad of online offerings – you may just find yourself captivated by the wonders of Material Science and inspired to create a brighter future.