Master Engineering Design with SOLIDWORKS 2016 and Video Instruction: Tips, Tricks, and Best Practices
Engineering Design with SOLIDWORKS 2016 and Video Instruction download pdf 5
If you are looking for a comprehensive guide to learn engineering design with SOLIDWORKS 2016, you have come to the right place. In this article, we will introduce you to SOLIDWORKS, a powerful software for creating 3D models and designs. We will also explain what engineering design is and why SOLIDWORKS is an ideal tool for it. Moreover, we will show you the features of SOLIDWORKS 2016, the latest version of the software, and how they can help you improve your design skills and productivity. Finally, we will tell you how you can download a pdf file that contains the complete text of the book "Engineering Design with SOLIDWORKS 2016" by David C. Planchard, as well as video instruction files that accompany each chapter of the book. These resources will provide you with a step-by-step tutorial on how to use SOLIDWORKS 2016 for various engineering design projects.
Engineering Design with SOLIDWORKS 2016 and Video Instruction download pdf 5
Before we dive into the details of SOLIDWORKS 2016 and its features, let us first understand what SOLIDWORKS is and what engineering design is.
What is SOLIDWORKS?
SOLIDWORKS is a computer-aided design (CAD) and computer-aided engineering (CAE) software that allows you to create, edit, analyze, and optimize 3D models of any shape and size. It is widely used by engineers, designers, architects, manufacturers, and students across various industries and disciplines. With SOLIDWORKS, you can design anything from simple parts and assemblies to complex systems and structures. You can also simulate how your designs will perform under different conditions and scenarios, such as stress, strain, heat, fluid flow, motion, vibration, etc. Furthermore, you can manage your data and collaborate with other users through cloud-based services and platforms.
What is Engineering Design?
Engineering design is the process of applying scientific principles, mathematical methods, and creative thinking to solve real-world problems and meet specific requirements. It involves defining the problem, researching existing solutions, generating ideas, selecting the best option, developing a prototype, testing and evaluating the results, and communicating the solution. Engineering design is not only about making things work, but also about making them work better, faster, cheaper, safer, more efficiently, more sustainably, more aesthetically pleasing, etc.
Why use SOLIDWORKS for Engineering Design?
SOLIDWORKS is an ideal software for engineering design because it offers many advantages over traditional methods of designing. Some of these advantages are:
It saves time and money by reducing errors, rework, and waste.
It increases quality and accuracy by eliminating manual calculations and measurements.
It enhances creativity and innovation by enabling rapid prototyping and iteration.
It facilitates communication and collaboration by supporting multiple file formats and online platforms.
It improves learning and teaching by providing interactive and visual tools and resources.
Now that you have a basic understanding of what SOLIDWORKS is and what engineering design is, let us move on to the next section, where we will explore the features of SOLIDWORKS 2016.
Features of SOLIDWORKS 2016
SOLIDWORKS 2016 is the latest version of the software, released in September 2015. It introduces many new and improved features that make it easier, faster, and more fun to use. Some of these features are:
User Interface Improvements
SOLIDWORKS 2016 has a redesigned user interface that is more modern, intuitive, and customizable. You can change the color scheme, icon size, font style, and layout of the toolbars, menus, and windows according to your preference. You can also access frequently used commands and functions through the Quick Access Toolbar, the Command Manager, the Context Toolbar, and the Mouse Gestures. Additionally, you can use the breadcrumbs feature to navigate through the hierarchy of your model without leaving the graphics area.
SOLIDWORKS 2016 has several sketching enhancements that make it easier to create and edit sketches. You can use the Style Spline tool to draw smooth curves with control points and handles. You can use the Segment tool to divide a sketch entity into equal or unequal segments. You can use the Midpoint Line tool to draw a line from its midpoint. You can use the Convert Entities tool to convert edges, faces, loops, or curves into sketch entities. You can also use the Offset Entities tool to create an offset of a sketch entity or a region.
Modeling and Assembly Tools
SOLIDWORKS 2016 has many modeling and assembly tools that help you create complex shapes and structures. You can use the Sweep tool to create a solid or surface by sweeping a profile along a path. You can use the Loft tool to create a solid or surface by blending multiple profiles along a guide curve. You can use the Boundary tool to create a solid or surface by defining boundary conditions for each direction. You can use the Thicken tool to create a solid from a surface by adding thickness. You can also use the Intersect tool to create a solid from overlapping regions of solids, surfaces, or planes.
For assemblies, you can use the Mate Controller tool to create and animate multiple mate positions for your assembly components. You can use the Component Preview Window tool to view and edit a component in isolation without opening it in a separate window. You can use the Magnetic Mates tool to snap components together along predefined points and orientations. You can also use the SpeedPak tool to create a simplified configuration of your assembly that improves performance and memory usage.
Simulation and Analysis Capabilities
SOLIDWORKS 2016 has powerful simulation and analysis capabilities that allow you to test and optimize your designs before manufacturing them. You can use the SOLIDWORKS Simulation suite to perform various types of analyses, such as static, dynamic, thermal, fluid, frequency, buckling, fatigue, drop test, etc. You can also use the SOLIDWORKS Flow Simulation suite to perform computational fluid dynamics (CFD) analyses, such as internal or external flow, heat transfer, fluid-structure interaction, etc. Furthermore, you can use the SOLIDWORKS Plastics suite to perform injection molding analyses, such as fill time, pressure, temperature, warpage, etc.
Data Management and Collaboration Options
SOLIDWORKS 2016 has several data management and collaboration options that help you organize and share your files and information with others. You can use the SOLIDWORKS PDM (Product Data Management) system to store, manage, and control your data in a secure and centralized location. You can also use the SOLIDWORKS MBD (Model Based Definition) system to create and communicate your design information using 3D annotations instead of 2D drawings. Moreover, you can use the SOLIDWORKS Visualize suite to create photorealistic images and animations of your models for marketing and presentation purposes.
As you can see, SOLIDWORKS 2016 has many features that make it an ideal software for engineering design. However, learning how to use these features effectively requires practice and guidance. That is why we recommend you to download the pdf file and video instruction files that accompany this article.
Benefits of Video Instruction
How to Download the PDF and Video Files
If you want to download the pdf file and video instruction files that accompany this article, you need to follow these steps:
Step 1: Visit the Official Website
The first step is to visit the official website of the book "Engineering Design with SOLIDWORKS 2016" by David C. Planchard. The website is http://www.sdcpublications.com/Textbooks/Engineering-Design-SOLIDWORKS-2016/ISBN/978-1-58503-996-5/. On this website, you will find more information about the book, such as the table of contents, the author's biography, the reviews, etc.
Step 2: Enter Your Email Address and Access Code
The second step is to enter your email address and access code in the fields provided on the website. The access code is a unique code that comes with your purchase of the book. You can find it on the inside front cover of the book or on the receipt of your online order. The access code will allow you to download the pdf file and video instruction files for free.
Step 3: Download the Files to Your Device
The third and final step is to download the files to your device. You can choose to download them individually or as a zip file. The pdf file is about 100 MB in size and contains 752 pages. The video instruction files are about 4 GB in size and contain 228 videos. The videos are organized by chapter and topic and have a duration of 5 to 15 minutes each. You can watch them online or offline using any media player that supports mp4 format.
In conclusion, SOLIDWORKS 2016 is a powerful software for engineering design that offers many features and benefits. It allows you to create, edit, analyze, and optimize 3D models of any shape and size. It also helps you save time and money, increase quality and accuracy, enhance creativity and innovation, facilitate communication and collaboration, and improve learning and teaching. To learn how to use SOLIDWORKS 2016 effectively, we recommend you to download the pdf file and video instruction files that accompany this article. They will provide you with a comprehensive guide and a step-by-step tutorial on how to use SOLIDWORKS 2016 for various engineering design projects.
We hope you enjoyed reading this article and found it useful. If you have any questions or feedback, please feel free to contact us. Thank you for your attention and interest.
Here are some frequently asked questions about SOLIDWORKS 2016 and engineering design:
What are the system requirements for SOLIDWORKS 2016?
SOLIDWORKS 2016 requires a Windows operating system (7, 8, or 10), a processor (Intel or AMD) with SSE2 support, a RAM memory (8 GB or more recommended), a disk space (5 GB or more), a graphics card (certified or tested by SOLIDWORKS), an internet connection (for online services), and a DVD drive or broadband internet connection (for installation).
What are some examples of engineering design projects that can be done with SOLIDWORKS 2016?
Some examples of engineering design projects that can be done with SOLIDWORKS 2016 are: designing a bicycle frame, a coffee maker, a robot arm, a wind turbine, a bridge, a car engine, a solar panel, etc.
What are some resources for learning more about SOLIDWORKS 2016 and engineering design?
Some resources for learning more about SOLIDWORKS 2016 and engineering design are: the official website of SOLIDWORKS https://www.solidworks.com/, the official blog of SOLIDWORKS https://blogs.solidworks.com/solidworksblog/, the official YouTube channel of SOLIDWORKS https://www.youtube.com/user/SolidWorks, the official forum of SOLIDWORKS https://forum.solidworks.com/, the official certification program of SOLIDWORKS https://www.solidworks.com/sw/support/mcad-certification-programs.htm, the official training courses of SOLIDWORKS https://www.solidworks.com/sw/support/training.htm, etc.
What are some tips and tricks for using SOLIDWORKS 2016 efficiently and effectively?
Some tips and tricks for using SOLIDWORKS 2016 efficiently and effectively are: using keyboard shortcuts, customizing your settings and preferences, using templates and macros, using design tables and equations, using configurations and display states, using smart mates and smart dimensions, using feature recognition and feature works, using design checker and design advisor, using design for manufacturing (DFM) and design for assembly (DFA) tools, etc.
What are some challenges and limitations of SOLIDWORKS 2016 and engineering design?
Some challenges and limitations of SOLIDWORKS 2016 and engineering design are: compatibility issues with other software and file formats, performance issues with large and complex models, accuracy issues with numerical calculations and simulations, ethical issues with intellectual property and plagiarism, environmental issues with sustainability and waste management, social issues with user needs and expectations, etc.