Computer-aided design is a highly potent technology used across various engineering domains. Computer-aided design (CAD) employs 2D drawing and 3D modeling for developing virtual structures & models, simplifying the entire modeling and optimization process.
SolidWorks is a proprietary CAD software application and one of the most feature-rich & prominent ones among them all. A parametric modeler, SolidWorks employs different parameters such as dimensions & relationships to develop & manipulate virtual structural models in two & three dimensions. Central to many graduate & post-graduate programs in architecture, electrical, and mechanical engineering, assignments in SolidWorks can be vast and intricate, and the substantially steep learning curve of the application compels many to seek professional SolidWorks assignment help.
If you are also searching for quality SolidWorks Assignment Help Online, this article can aid you big time. It offers a crisp but informative look at crucial aspects of the application.
NOTE: Before we get started, keep in mind that the following instructions are compatible with SolidWorks 2016 & haven’t been tested on subsequent versions.
Creating A New 2D Drawing & Selecting Drawing Plane
Developing 2D drawings is a rudimentary task in SolidWorks that every user needs to master. Here’s a quick rundown of the whole process.
- Click on the New icon on the primary toolbar at the top of the drawing space.
Once you do that, the New SolidWorks Document dialog box will pop up. You can create a Part, Assembly, or Drawing. SolidWorks also allows users to develop drawings & models in either the Novice or Advanced formats.
Part drawings are solid three-dimensional models of individual parts of a particular object. Assembly drawings comprise several parts assembled, while a Drawing offers an orthographic view of Assembly & Part drawings.
2 Select the kind of document or design that you want. Then, a separate screen will open up consisting of different features: the drawing area, the task panel, and the Features Tab.
As the name suggests, the Features toolbar displays a wide variety of application features and functionalities for developing different kinds of models with other specifications.
Selecting the right drawing plan is another crucial aspect with which all SolidWorks users must be thorough. The application defines three fundamental planes for any design: front, top, and right.
These three fundamental orientations are used to define orthographic views, which, in turn, are two-dimensional views utilized to describe three-dimensional models. To select a particular drawing plane, follow the steps below.
- Suppose you want to choose the Top plane. Then, select from the Feature Manager on the drawing screen.
- SolidWorks displays an outline of the plane along with its trigonometric orientation.
- Next, click on the Sketch tool—the overall orientation of the Top plane changes to a 90-degree view of the plane.
- Now select the Line tool. Locate the cursor and move it to the origin. You will find the origin marked on the drawing space at the confluence of two axes.
You will also find the coincident relationship icon that signifies the coincidence of the origin and the line’s starting point.
- Start moving the cursor away from the origin towards the right, horizontally. A distance and angle value will appear as soon as you start doing that.
- Click to define the endpoint of the line.
- If you want, you can move the line downwards, using the endpoint of the horizontal line to draw a vertical line downwards. New distance and angle values will appear accordingly.
- Right-click to deselect the drawing pane and then click the Select option.
- Next up, click on the Smart Dimension Tool, select the line that you have drawn, and then move the cursor away from the line. SolidWorks will display a dimension; click the mouse on the location where you want to place the dimension.
The Modify dialog box will then appear.
- Enter the distance value for the line and then click the green check mark. Then click on the drawing screen to finish your line drawing. Next, drag the dimension by pressing and holding the mouse button, then moving the cursor anywhere you want.
SolidWorks offers an extensive array of features and options to draw different kinds of 2D & 3D figures & models, which can be used to design parts, assemblies, and multi-part drawings.
Practice makes perfect, so the best way to learn & master all the different options is to fiddle around with the application. Also, solve more & more SolidWorks problems and, if you need more help, look for professional SolidWorks assignment help services.
Next, here’s a glimpse of how to design 3D models from 2D shapes.
Creating 3D Models
Shapes with detailed definitions (sketch relations, smart dimensions, etc.) can be used to design three-dimensional models.
- Once you have a clearly defined shape in the drawing pane, click on the Features tab.
- Next, click the Extrude Boss/Base tool
- and watch the view change to trimetric orientation.
- Define the depth or thickness value. For example, it’s 20 mm. in the above image.
- Click on the green tick mark to wrap things up.
As we draw close to wrapping up this article, we look at the generic design process followed by architects & engineers in SolidWorks.
The Nuances of SolidWorks Design
Ask genuine SolidWorks assignment help experts, and you will learn how SolidWorks streamlines a typical design process in SolidWorks. Of course, the whole process starts with a clear understanding of the design intent.
- The Design Intent
The intent and objectives behind any design & development process dictate the path to be traversed. Your design intent will determine the initial steps, the sketch relations, dimensions, orientations, and all subsequent modifications.
Design intents are all about planning. What you intend to do with the model defines how you want to create the model & its implementation. The closer your design implementations and intent, the more effective & greater the integrity of the model.
Once you are clear about the design intent, the next steps are pretty systematic. They involve:
- Identifying Model Requirements
- Conceptualization Based On Requirements
- Development & Analysis
- Constructing & Editing (If Necessary)
Once you are clear with your intent, chalked out a plan to create the model, and identified needs & the concepts necessary to implement them, it is time to develop.
- The Design Method
Sketches, features, and assemblies are three central aspects of any diagram or model.
- Craft sketches to define dimensions and apply sketch relations.
- Choose appropriate features per requirements, and determine in what order to apply them.
- Select the components with which to mate different components and assemble the entire thing.
Sketches form the basis of all 3D models. All models begin with a sketch, from whence features are created. Features can then be combined to define parts, and parts can be combined as per design objectives to develop an assembly.
Both two-dimensional and three-dimensional sketches exhibit features such as origins, planes, dimensions, sketch definitions & relations, and sketch complexity.
- Features, Assemblies & Drawings
Once your sketch is complete, turn it into a three-dimensional model by extruding or revolving. The design process generally involves developing feature-based 3D models or parts from sketches and then adding on any applied parts.
Assemblies involve combining different parts that mate or fit together. The Mate option defines how two different parts fit together and the allowable direction of movement of components. You can even add assembly features such as Collision Detection to ensure proper assembly.
Drawings can be crafted from parts or assembly models. In addition, they can be viewed in multiple modes, such as standard 3 or isometric.
Well, that’s all the space we have for today. I hope it was an informative read and offers some solid assignment help. If you have a SolidWorks assignment due and need urgent assistance, remember to look for genuine my assignment help writing services.