Master SOLIDWORKS 3D CAD using real-world examples
A Complete Training Course for Modeling Assembly & Analysis of Engineering Components using SolidWorks
What you'll learn
Gain a comprehensive understanding of SolidWorks, a leading 3D CAD software used in engineering, manufacturing, product design, and architecture.
Develop proficiency in creating complex designs and models using SolidWorks, leveraging its extensive features and functionalities.
Acquire the skills to transform 2D sketches into detailed and realistic 3D models, ensuring precision and accuracy in your designs.
Learn to analyze and optimize designs using SolidWorks, enhancing their performance and efficiency.
Explore real-world examples across various industries to understand how SolidWorks can be applied in practical scenarios.
Master the creation of engineering drawings, enabling clear communication of design intent and specifications.
Enhance your skills in assembly, motion study, and mechanism analysis, providing a deeper understanding of product functionality and performance.
Improve your problem-solving abilities by conducting static structural analysis and motion studies using SolidWorks.
Boost your productivity and efficiency by leveraging SolidWorks' time-saving tools and workflows.
Stay up-to-date with the latest features and updates in SolidWorks, ensuring you remain at the forefront of design innovation.
Requirements
Students should have basic knowledge of Engineering Drawing.
Description
Unlock the power of SOLIDWORKS 3D CAD and elevate your design skills with our comprehensive course, "CFD Analysis of Complex Industrial Problems with SolidWorks." Designed to cater to students across various industries such as engineering, manufacturing, product design, and architecture, this course will empower you to create intricate designs and models while gaining a deep understanding of SOLIDWORKS' features and functionalities.
Throughout this engaging and practical course, you'll be immersed in real-world examples that demonstrate the diverse applications of SOLIDWORKS in different industries. You'll learn to effortlessly transform 2D sketches into stunning 3D models, analyze and optimize your designs, and create meticulous engineering drawings.
With SOLIDWORKS as your tool, you'll be equipped to tackle complex challenges head-on.
Section 1: Mastering Mechanical Component ModelingIn this section, we lay the foundation for your SOLIDWORKS journey, guiding you through the creation of intricate mechanical components.
Each lecture presents a unique modeling challenge, enabling you to develop your skills and proficiency in using SOLIDWORKS.
Lecture 01: Introduction: Embark on your SOLIDWORKS adventure and get acquainted with the software's interface and key concepts.
Lecture 02: Modeling of a Single-Pass Shell-Tube Heat Exchanger - Create a detailed 3D model of a single-pass shell-tube heat exchanger, understanding the complexities of its design.
Lecture 03: Modeling of a Condenser Heat Exchanger - Dive into the intricacies of condenser heat exchangers and master their modeling techniques.
Lecture 04: Modeling of a Quad-Rotor Radiator - Explore the dynamic world of quad-rotor radiators and bring them to life in a realistic 3D model.
Lecture 05: Modeling of a Quad Rotor Propeller - Unleash your creativity as you model a quad rotor propeller, honing your skills in SolidWorks.
Lecture 06: Modeling of a Bicycle Wheel: Discover the art of modeling a bicycle wheel, paying attention to detail and precision.
Lecture 07: Modeling the Geneva Wheel: Unravel the intricacies of modeling a Geneva wheel, and master its unique features.
Lecture 08: Modeling Cryogenic Pressure Vessels: Venture into the realm of cryogenic pressure vessels and create a realistic 3D model.
Lectures 09–15: Explore a series of captivating mechanical component models, each offering new challenges and opportunities to enhance your skills.
Lecture 15: Modeling & CFD Analysis of Fluid through Venturi-meter - Take your modeling skills to the next level as you learn to analyze fluid flow through a venturi meter using CFD techniques.
Section 2: Assembly, Motion Study & Mechanism AnalysisIn this section, you'll delve into the realm of assembly, motion study, and mechanism analysis, further expanding your SOLIDWORKS expertise.
Lecture 16: Assembly of a Bicycle: Bring the various components of a bicycle together, assembling them seamlessly and understanding their functional interactions.
Lecture 17: Assembly and Functioning of a Plate-type Heat Exchanger: Gain hands-on experience in assembling and understanding the functioning of a plate-type heat exchanger.
Lecture 18: Assembly and Motion Study of a Quad-Rotor: Dive into the world of quad-rotors, assemble their intricate components, and conduct motion studies to analyze their performance.
Lecture 19: Assembly and Static Structural Analysis of a Table: Explore the practical application of SOLIDWORKS as you assemble and analyze the static structural performance of a table.
Lecture 20: Motion Analysis of a Mechanical Gripper - Unleash your problem-solving skills as you analyze the motion of a mechanical gripper, gaining insights
Who this course is for
Engineering students who want to start their career as a Design Engineer can have enough confidence from this course.
Last updated 9/2021
Created by Sabyasachi Majumder
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English + subtitle | Duration: 20 Lectures ( 6h 22m ) | Size: 4.42 GB
Download
*
A Complete Training Course for Modeling Assembly & Analysis of Engineering Components using SolidWorks
What you'll learn
Gain a comprehensive understanding of SolidWorks, a leading 3D CAD software used in engineering, manufacturing, product design, and architecture.
Develop proficiency in creating complex designs and models using SolidWorks, leveraging its extensive features and functionalities.
Acquire the skills to transform 2D sketches into detailed and realistic 3D models, ensuring precision and accuracy in your designs.
Learn to analyze and optimize designs using SolidWorks, enhancing their performance and efficiency.
Explore real-world examples across various industries to understand how SolidWorks can be applied in practical scenarios.
Master the creation of engineering drawings, enabling clear communication of design intent and specifications.
Enhance your skills in assembly, motion study, and mechanism analysis, providing a deeper understanding of product functionality and performance.
Improve your problem-solving abilities by conducting static structural analysis and motion studies using SolidWorks.
Boost your productivity and efficiency by leveraging SolidWorks' time-saving tools and workflows.
Stay up-to-date with the latest features and updates in SolidWorks, ensuring you remain at the forefront of design innovation.
Requirements
Students should have basic knowledge of Engineering Drawing.
Description
Unlock the power of SOLIDWORKS 3D CAD and elevate your design skills with our comprehensive course, "CFD Analysis of Complex Industrial Problems with SolidWorks." Designed to cater to students across various industries such as engineering, manufacturing, product design, and architecture, this course will empower you to create intricate designs and models while gaining a deep understanding of SOLIDWORKS' features and functionalities.
Throughout this engaging and practical course, you'll be immersed in real-world examples that demonstrate the diverse applications of SOLIDWORKS in different industries. You'll learn to effortlessly transform 2D sketches into stunning 3D models, analyze and optimize your designs, and create meticulous engineering drawings.
With SOLIDWORKS as your tool, you'll be equipped to tackle complex challenges head-on.
Section 1: Mastering Mechanical Component ModelingIn this section, we lay the foundation for your SOLIDWORKS journey, guiding you through the creation of intricate mechanical components.
Each lecture presents a unique modeling challenge, enabling you to develop your skills and proficiency in using SOLIDWORKS.
Lecture 01: Introduction: Embark on your SOLIDWORKS adventure and get acquainted with the software's interface and key concepts.
Lecture 02: Modeling of a Single-Pass Shell-Tube Heat Exchanger - Create a detailed 3D model of a single-pass shell-tube heat exchanger, understanding the complexities of its design.
Lecture 03: Modeling of a Condenser Heat Exchanger - Dive into the intricacies of condenser heat exchangers and master their modeling techniques.
Lecture 04: Modeling of a Quad-Rotor Radiator - Explore the dynamic world of quad-rotor radiators and bring them to life in a realistic 3D model.
Lecture 05: Modeling of a Quad Rotor Propeller - Unleash your creativity as you model a quad rotor propeller, honing your skills in SolidWorks.
Lecture 06: Modeling of a Bicycle Wheel: Discover the art of modeling a bicycle wheel, paying attention to detail and precision.
Lecture 07: Modeling the Geneva Wheel: Unravel the intricacies of modeling a Geneva wheel, and master its unique features.
Lecture 08: Modeling Cryogenic Pressure Vessels: Venture into the realm of cryogenic pressure vessels and create a realistic 3D model.
Lectures 09–15: Explore a series of captivating mechanical component models, each offering new challenges and opportunities to enhance your skills.
Lecture 15: Modeling & CFD Analysis of Fluid through Venturi-meter - Take your modeling skills to the next level as you learn to analyze fluid flow through a venturi meter using CFD techniques.
Section 2: Assembly, Motion Study & Mechanism AnalysisIn this section, you'll delve into the realm of assembly, motion study, and mechanism analysis, further expanding your SOLIDWORKS expertise.
Lecture 16: Assembly of a Bicycle: Bring the various components of a bicycle together, assembling them seamlessly and understanding their functional interactions.
Lecture 17: Assembly and Functioning of a Plate-type Heat Exchanger: Gain hands-on experience in assembling and understanding the functioning of a plate-type heat exchanger.
Lecture 18: Assembly and Motion Study of a Quad-Rotor: Dive into the world of quad-rotors, assemble their intricate components, and conduct motion studies to analyze their performance.
Lecture 19: Assembly and Static Structural Analysis of a Table: Explore the practical application of SOLIDWORKS as you assemble and analyze the static structural performance of a table.
Lecture 20: Motion Analysis of a Mechanical Gripper - Unleash your problem-solving skills as you analyze the motion of a mechanical gripper, gaining insights
Who this course is for
Engineering students who want to start their career as a Design Engineer can have enough confidence from this course.
Last updated 9/2021
Created by Sabyasachi Majumder
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English + subtitle | Duration: 20 Lectures ( 6h 22m ) | Size: 4.42 GB
Download
*