The top 10 Mechanical Design courses you need to take

1. Mechanical Design a Comprehensive Course

4.5

(64)

This course introduces a comprehensive discussion for various mechanical design topics. The course consists of two sections and 35 lectures. The course is thought to be helpful for mechanical students and anyone who seek for a course that starts from beginner level. The theoretical background is combined with practical implementation through various projects such as:[Section1]: Design of Pipe vice, Design of Globe valve, Design of Shop press, Design of Floor and wall mounted cranes, Design of Couplings, and Design of centrifugal pumps.[Section2]: Design of Clutch brake unit, Design of Conveyor system, Design of Internal gear drive, and Design of other gear units. Through those projects, calculations of various mechanical components are introduced, such as: Design of bolted connections, Design of power screws, Stress analysis on frames, Design of gears, Design of V-belts, Design of compression springs, Design of keys, and Shaft analysis. As one of the targets of this course is to qualify the attendees to be professional users for mechanical software, some lectures contain a comparison between the hand calculations and the results generated from software to achieve a better understanding for how the design works in practical life. Useful material is attached with each lecture for students to help them to cope with the recording...

2. Designing Mechanisms using Fusion 360

4.1

(224)

Testimonials from students of Designing Mechanisms using Fusion 360: Video content is high quality and very professional. Subject matter is relevant and is backed up with real world examples. Narrator is easy to understand with a good grasp of the English language. The content is perfect for designers wishing to expand their toolbox of mechanical design knowledge. This allows designers to engineer complex mechanism that would normally be the realm of professional engineers. The design practices can be used with any CAD system and is not just a AutoCAD (Fusion) 360. Keep up the good work. Ward Holloway PE ========================================================================================== In this course you will learn the basics of Mechanism Design. This course is based on two textbooks: Kinematics and Dynamics of Machinery by Robert L. Norton. Machines and Mechanisms: Applied Kinematic Analysis by David H. Myszka This course is equivalent to what is taught in Mechanical Engineering course in universities around the world. By building on the same excellent textbooks in this course I will teach you not only the theory but also the applications in Fusion 360. At first, you will learn about the exciting field of Mechanism Design and its applications that surround us. This is followed by an overview of the different branches of Mechanism Design: Kinematics and Kinetics. Afterwards, you will earn about the theory of Kinematics before you apply your knowledge to design projects in section three.  This course covers Kinematics with focus on Graphical Mechanism Design methods using Fusion 360. In section two you will learn about the basic concepts of Kinematics: Types of motion, Links, Mobility, Joints and so on. This section will focus on four-bar linkage's types and categories. Four-bar linkages are widely used in everyday life; from window pivots to windscreen wipers. Four-bar linkages are very flexible and can produce a huge variety of motions. This section will build up your basic knowledge that will be utilised in section three to solve complex Mechanism Design tasks. Section three is where the magic happens. This section is focused on the actual design process and how to approach design problems. The section is focused on Graphical Design Methods that are easily utilised using Fusion 360. By using Fusion 360 powerful sketching engine, complex Kinematic Diagrams can easily be simulated. You will learn how to solve two-position design problems like Crank-Slider and Crank-Rocker. Also you will learn how to solve three-position design problems in Fusion 360 by designing a material handling mechanism that carries boxes of a conveyor belt to a lower platform. This mini project will show you how to design a six-bar linkage that has one DOF to achieve a very specific motion. In each of these design problems, I will show you the method to solve the problem first then you will learn how to apply this method in Fusion 360. In Fusion 360 we will use the sketching constraints to construct geometrical relationships between sketch elements. It's exactly like using a pencil and paper but easier! This is followed by 3D Modelling the Mechanism and Animating it to check if the output is the required motion. All of this happens within Fusion 360 and the method I will show you is 100% parametric. This means you can go back to change the requirements and everything will update automatically to give you a new mechanism...

3. How to become Mechanical Designer

3.9

(73)

Over the years I have seen students not able to get break in design industry even after learning CAD softwares or sometimes students are not able to switch to design from other domains such as production, manufacturing, quality, etc so in this course I am going to share our industrial and training experience and give you suggestions on how to get job in design industry and start career as Mechanical Designer. Course is divided into two  sectionsFirst Section: How to get job as a Designer?For getting job you need to have experience and for experience you need job so what to do when you face similar scenario. How to remove the fresher tag?. We will advise you on how to get experience without working in industry. What are  skills you must have to get design job?  Which CAD software you should learn and how you should practice? Skills:   Here we will discuss about the skills required to be in the design industry. CAD Software: Here we will discuss how you should learn CAD software. What are the important modules you should learn and what is the best way to practice and become skilled in CAD software. Experience: Almost all freshers face this issue. To get job you need experience and to get experience you need job. Here we will share our experience what you can do in such scenario? Mechanical Engineers mostly do projects in their final semesters only. Whether they are of any use or not. How to get commercial projects on freelance websites. What are the benefits of doing these projects? We will be discussing about all these things. Portfolio: What is a portfolio and why it important for getting design job? How to start? How it will help you in getting job?Strategy: Here we will suggest to you what you can do as a fresher, as a student or when you have manufacturing or other domain experience. Section 2- Design GuidelinesIn this section you wil learn the most important thing i. e design rules. What the CAD considerations  a designer should keep in the mind while making a CAD Model.  You will learn design rules for 1, Injection Molding Process2. Sheet Metal 3. Laser Cutting4. Forging...

4. Mechanical Engineering Design - Overview

4.6

(60)

Do you want to learn the most significant concepts of Engineering Drawing/Design?From the comfort of your home, at your own pace, without attending classes, or push your way through endless textbooks/online guides… Then boom! you are at the right place:)Even if you have NO knowledge about Drawing… this course will make you learn to understand all the aspects of Engineering Design. The course is divided into two parts. Additionally, from this course, you'll learn and get acquainted with ANSYS software for Numerical Simulation, ORIGIN software for data analysis, Tecplot 360 for results, and visualization. You will find videos in the course specially created for making you understand these! By the end of this course, you will be confident and proficient with the concepts of Engineering Design. The complete package will give you an opportunity to understand the methodology followed by the research organizations in developing novel designs. MAKING YOU AN EXPERT AND A PROFESSIONAL ENGINEERSign up today, and here's what you'll get:· All the knowledge you need to start building any DESIGN you can dream of· 500 dollars' worth of design assets· Assistance for your researchYou do not need to have any prerequisites for completing this course, we will teach you everything from the scratchRookie to Pro in Engineering DesignBy the end of this course you will be familiar with these concepts:· Engineering Drawing and its types- Orthographic Projections- First Angle and Third Angle of Projections- Symbol of Projection- View Selection- Basic Dimensions in Engineering Drawing - Tangencies and Intersections- Types of Lines used in Engineering Drawing- Basic Information in Engineering Drawing- Drawing Layout - Types of Drawing- Introduction to CAD (Computer Aided Designing)- Engineering Design Process- Features of CAD- Types of Modelling- Sample CAD modelling ExercisesDon't waste your time! Don't waste another minute of your precious life on poor quality videos on YouTube. Or instructors with accents you can't understand. Or teachers who have no real-world in-person teaching experience. Your learning and your time's worth more than that. As you sit there contemplating the sea of different courses, you'll realize that there's no reason to deliberate. The best course is right in front of your eyes. I am looking forward to Teaching you all About the concepts of Engineering Design from the Technical Drawing to the Computational Aided Designing...

5. Intro to Mechanical Design engineering skillset

4.3

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DIsclaimer: This course is  made from the perspective of a mechanical engineer entering into the field of Design engineering as a graduateDesign engineering is the core function of any product development effort in manufacturing. This course aims to build a holistic understanding of the profession of design engineering by covering Role of design engineer in developing products with 3 examplesThe Engineering Design process Insightful understanding of skills and knowledge required from design engineerUnderstand concept development, prototyping and research and why they are importantTeams in Mechanical product development The Design Life-cycle of a partUnderstanding Engineering analysis and how it fits into design engineeringLevels of engineering analysis and why computation is requiredThe various Design considerations to be made during design Engineering drawing importance, Cost of Bad design Why use GD & T in engineering drawings?take this course ifYou are aspiring to be a design engineer and want to understand more in detail as to what design engineers do You are enthusiastic about engineering and design and want to design your own products...

6. Mechanical design and Product development process

4.2

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Product development is the process through which  a mechanical product is realized from just an idea into a fully detailed entity ready for production. This course is an attempt to cover that process at an introductory level covering all the key concepts, ideas and details from a perspective of a Mechanical design engineer. The course is structured in a way as to build on the product development process step by step. From the way an Idea is generated, incubated, to how a concept is generated, evaluated, how specifications are created and set  towards the system design of a product , followed by a overview of  activities in Detailed design and prototyping. Topics covered: Opportunity identification and product idea generationWhat are customer needs?What are specifications and when are they set ? how are they set?How are concepts generated?How to select and score concepts?Techniques for Generating ideas and conceptsWhat is modularity? and difference between modular designs and integral designsWhat is product architecture  along with the example of a Vehicle architectureImportance of the Engineering drawing in Detail designDesign for X and Design for manufacturing and Assembly Types of prototypes and the purpose of prototypingWhat you will learn from this course?To understand the overall process of product development and develop a Holistic understanding of how products are developedTo learn ways of developing ideas, opportunities for new product developmentTo understand concepts like product architecture, modularity  and Interfaces relating to mechanical design...

7. Basics of Sheet metal design for Mechanical design engineers

4.3

(793)

Sheet metal design is an important skill in industry today and will be in the future. Due to its versatility designing with sheet metal finds applications in almost all major industries where physical products are manufacturedThis course covers the essential basic theoretical and practical knowledge required for Designing Sheet metal parts aimed at Design engineers who are designing products The common processesMaterials and the properties which matter for designWhat is anisotropyComparison between hardness, toughness and strengthWhat happens to the Material when it is formed or Bent?The Theory behind Forming and BendingForm-ability and Bend-ability of metal sheets and what factors affect themWhat are underlying principles which make a metal formable? Forming limit diagrams and how they are createdBending Parameters  in designBending direction and its affect on qualityK factor, Neutral axis, Bend allowanceThe concept of Spring-back and ways to reduce itWhat is wrinkling and why does it occur? Deep drawing process and PracticeRolling, hydroforming, Stretch formingJoining processes and their comparisonEquipment used to perform operationsDesign Guidelines to create cost- effective designs which are suitable for manufacturing. Design projects with considerations So if you are a student exploring the world of product design  or a design engineer who wants to make products with sheet metal then this courses will be a good value addition. The course is designed with short to the point explanations with focus on right understanding towards thoughtful design...

8. Introduction to Mechanical Engineering Design and Manufacturing with Fusion 360

Design for manufacturing is the process of designing parts, components, or products with the understanding surrounding design requirements for a specific manufacturing method. This course explores the design for manufacture workflow and shows how to validate models and create the G code, the programming language needed to instruct the CNC machine on how to move. We practice the basics of part and assembly design, and tools such as animation, rendering, and simulations using Autodesk Fusion 360. We learn the basics in each of these areas which are to be fully developed in later courses that apply these principles and Fusion 360 skills. After taking this course, you'll be able to: - Explain the design to manufacturing process used to take a digital model to a physical part through CNC programming. - Summarize the toolset available in Fusion 360. - Demonstrate knowledge and skills in Fusion 360 applying design and manufacturing workflows to take digital parts to physical prototypes. Looking for Autodesk Fusion 360 certification prep courses? Check out additional learning resources to help you uplevel your skills: https://www.autodesk.com/learning...

9. Basics of Material selection for mechanical design engineers

4.4

(542)

Materials are an integral part of mechanical design and engineering. Understanding of properties , how they matter for product performance are a key knowledge set for any engineer designing products big or small. This course attempts to provide insights into the following topicsRole of material selection in Design processThe importance of materials Types of materialsThe Mechanical propertiesModulusDuctility and brittlenessStrengthHardnessResilience and ToughnessFracture toughnessFatigue strengthWearCreepInternal damping - loss coefficientThermal properties - Conductivity, Thermal expansion  and heat capacity Introduction to peculiar nature of various base materials and compositesMaterial chartsMaterial selection processMaterial indicesDerivation of indices for various loading applicationApplying indices on the Ashby charts for material selectionThe course is intended to be a starting point for deep study into material selection. Materials is of course a very vast subject. This course can be a good reference to get a taste for the field of material selection. If you are a design engineer and looking to refresh and maybe pickup on new concepts regarding materials this course will be for you. If you are a student who is looking to start their learning journey in area of materials of mechanical design  for product development then this should be a good starting point. Course is designed to be precise and to the point and focuses on concepts and not only the facts...