Effective Methods to Complete SolidWorks Design and Assembly Tasks

Before opening SolidWorks, read the assignment carefully.

Ask yourself:

• How many parts does the assignment require?
• Do I need to assemble them?
• Is motion study, stress analysis, or technical drawing required?
• Does the assignment mention material selection, tolerances, or manufacturing constraints?

Tip: If the assignment seems complex, write down a sequence of what you need to do. Students who plan first usually finish faster.

Break the Assignment into Mini Tasks

Instead of modeling everything in one go, divide the model into smaller parts or features.

Start with the main base structure, then add cutouts, extrusions, fillets, and holes.

Make the Sketch the Strongest Part of the Model

Think of the sketch as the foundation of your design.

• Fully define all sketches
• Use relations like horizontal, vertical, symmetric
• Apply proper dimensions (mm or inches as per assignment)
• Don’t add unnecessary constraints—avoid overdefining

Remember: If your sketch is wrong, the entire model may fail later.

Use the Right SolidWorks Tools Based on Geometry

Instead of trying random features until it works, choose features based on what you’re trying to build.

If you're unsure what feature to use, look at real engineering references or part catalogs.

Assembly Tips – Avoid Mating Mistakes!

Assembly is usually where most students get stuck.

Use these mates:

• Coincident – for surfaces touching
• Concentric – for shafts and holes
• Distance or Angle mate – to control spacing
• Limit mate – to restrict movement if needed

Avoid using too many mates. If parts start turning red or cause rebuild errors, stop and correct the previous step.

Motion Study or Simulation (If Assignment Includes This)

Some assignments require you to show how the model works, or analyze load and stress.

• Use Motion Study for movement (gears, sliders, motors)
• Use Simulation / FEA to check strength
• Apply materials exactly as specified
• Add loads and supports realistically

If your simulation shows extreme stress, your model or constraints may be wrong. Sometimes small geometry edits solve big problems.

Create Drawings the Examiner Will Love

Even if the model is perfect, marks are often lost due to weak drawings. Here's how to get full marks:

• Include front, top, side & isometric views
• Add all required dimensions
• Use GD&T symbols if mentioned
• Add material, tolerance, title block & scale
• For assemblies → include Exploded View + BOM

Export as PDF if the submission requires.

Organize Assignment Files Smartly

A neat folder not only helps during submission but also makes your work professional.

Final Submission Folder:

• Parts (.SLDPRT files)
• Assembly (.SLDASM)
• Drawings (.SLDDRW / PDF)
• Simulations / Motion Study
• Final Report or Instruction Sheet

Also export STEP/IGES files if your professor needs external viewing.

Final Check Before Submission

If most boxes are unchecked… you still have work to do.

Most Common Mistakes (Avoid These!)

• Starting with complex geometry instead of a base
• Forgetting to switch units (mm/inches)
• Not fixing under-defined sketches
• Adding fillets in early stages
• Over-mating and breaking assemblies
• Skipping exploded view or report

About 60% of SolidWorks assignment marks are lost due to these issues.

Bonus: Smart Tricks to Save Time

When Should You Ask for Help?

• If you’ve spent more than 2–3 hours solving assembly errors
• When simulation keeps failing
• If the model doesn’t update correctly after changes
• If you're unsure whether it meets grading criteria
• Just before submission deadline (but sooner is better!)

That’s when many students choose to get professional guidance.

Final Words of Motivation

Don’t worry if your current model isn’t perfect—SolidWorks is something you master with practice and the right guidance. Every engineer has been where you are right now.

Think like an engineer, plan like a designer, and model like a pro.

Your assignment is not just about passing—it’s preparing you for real-world design problems.