An extruded skull design created using Blender.

Intermediate 3D Modeling In Blender

Section Navigation
Brandon Bunnie

Brandon Bunnie

About the author

Brandon Bunnie is a 3D artist and game designer. He builds and textures 3D objects for game environments as well as virtual reality and augmented reality experiences. He is well versed in the Unity and Unreal engines. Brandon graduated from the 3D Game Art program at Centennial College and holds a degree in Graphic Design from George Brown College.

Introduction

Students will be introduced to a technique for 3D modeling using Blender. Students will be encouraged to take these skills and model their own ideas. At the end of the module students should be able to create something symmetrical in 3D.

Learning Goals

With this course we will learn how to:

  • Navigate in 3D space
  • Create and model a mesh
  • Use modifiers to optimize time

Vocabulary

ViewPort
This is where we see all of the objects of our scene.
Axis
Axis’ are imaginary lines that help us and the computer navigate 3D space.
Orbiting
Rotating our view around a fixed point or object.
Panning
Sliding the view up down left and right.
Pivot Point
The red blue and green arrows that appear on an object when it is selected. Usually the center of an object and is where the object is moved, rotated or scaled from.
Translate
Sliding an object in 3D space.
Mesh
A mesh is a collection of vertices, edges, and faces that describe the shape of a 3D object.
Vertex
A vertex is a single point (the plural of vertex is “vertices”).
Edge
An edge is a straight line segment connecting two vertices.
Face
A face is a flat surface enclosed by edges (some other applications call these “polygons”).
Polygon
A shape consisting of 4 or more sides.
Increment
Snap to grid points.

Guiding Questions

  1. Can anyone give an example of when they’ve seen a 3D character in a film, television show or video game?
  2. How did you know it was in 3D?

Curriculum Links

This module provides an opportunity to address curriculum expectations in the Science, Computer Studies and Math Grade 9 to 12 expectations. In particular, students will have an opportunity to develop spatial thinking skills, investigate geometric relationships and use a new software program (Blender). This assignment will also demonstrate how art and engineering come together to create 3D characters and objects when telling a story.

Materials

Non-Computer Activity

Complete The Drawing

With a piece of paper have the students draw a line down the center of it. Then have students draw only half of an object. I can be any object or a geometric pattern. Then place the mirror along the line. This object will be what students will create in Blender.

Computer Activity

The following is a list of short-cuts or ‘hotkeys’ for the keyboard when using Blender for this lesson.

  • Select Objects: RMB (right mouse button)
  • Orbiting: MMB (middle mouse button (the scroll wheel clicked)) and drag
  • Panning: shift + MMB
  • Zooming: middle scroll wheel (or CTRL + MMB + drag)
  • Select All: A
  • Remove Objects: X
  • Toolbar: T
  • Translate: G
  • Undo: CTRL + Z
  • Redo: shift + CTRL + Z
  • Add Objects: shift + A
  • Edit Mode: tab
  • Switch Between Vert/Edge/Face: CTRL + tab
  • Knife Tool: K
  • Extrude: alt + E
  • Toggle Snaps: shift + tab
  • Snap Element: shift + CTRL + tab

A Quick Primer

Before we move forward the first tip I can give is that Ctrl+Z And Ctrl+S are your best friends.

Ctrl+Z is undo, it can take us back many steps if we happen to make a mistake. It however has some limits. The number of undos is set by the preferences (Ctrl+Alt+U) under the Editing Tab. By default the Undo steps are set to 32. I like to run it at 200, but this will depend on the machine and our confidence.

Side note, if you make a mistake, and have undone too far we can step forward, so long as you have not made any changes since pressing Ctrl+Z. Just Press Shift+Ctrl+Z to redo that edit.

Ctrl+S the command to save quickly. Saving often is a great idea, 3D modeling programs have a reputation to suddenly shutdown and users can lose any progress made. If you want to experiment or try something new, it is best to save before you do. Let’s save our file now and give it a name.

The save interface in Blender with the file name highlighted.

Now when you press Ctrl+S a prompt will come up to make sure you want to save over our last save. We can either click the blue section, which will have we save over the old file or we can press Shift+Ctrl+S and save a new file by renaming it to something else.

The save over message in Blender.

To begin set Blender to Factory Settings. Under File (top left of our screen) select Load Factory Settings. This should display a camera, light, cube, and a grid.

The scene setup in Blender.

The Viewport

This is our largest window and is where most of the action will happen. Our intuition may have us use the LEFT mouse button (LMB) on these objects to select them. That actually has placers the 3D cursor, which is a powerful tool.

The 3D Cursor

The 3D cursor is very helpful tool. One of its functions is to be the spawn point for objects that are added to the scene. It can also act as a pivot point for the objects.

To put the 3D cursor back we’re going to have to open the Viewport Properties menu. Press N for the tab to appear. This window has some great functionality. Let’s scroll down a bit and find the 3D Cursor options. Under Location set the X, Y and Z to 0.

Scene Navigation

These 3 options will help with navigating through the scene and with viewing the model from any angle:

  • Orbiting – MMB and drag (or Alt + LMB)
  • Panning – Shift+MMB (or Alt + LMB)
  • Zooming – middle scroll wheel (or Ctrl + MMB + drag)

Let’s Make An Object

Most objects are symmetrical on one axis or another. With Blender to save time and the program can do some of the heavy lifting.

To start let’s press the A key to select everything in the scene and press X and click Delete to clear the scene.

Deleting a cube in the Blender interface.

We’ll need a plane to start. Go to the Create tab on the left and press Plane.

The create and plane settings highlighted in the Blender interface.

OR Press Shift+A and select Plane from the menu that pops up.

The mesh menu in Blender.

With the plane object selected (it should be highlighted with orange and have the 3 arrows on it) let’s look at the Properties window.

The properties icon highlighted in the Blender interface.

and switch to the Modifier tab.

The tool icon highlighted in the Blender interface.

Once there left click on the drop down Add Modifier and add a modifier called Mirror.

The modifier icon highlighted in the Blender interface.

A modifier will now be added to the modifier stack, here we can decide:

  1. Which axis to mirror on.
  2. Whether or not the two halves are to be directly connected.
  3. How close vertices need to be before they merge into one.
The axis properties in Blender.

Just leave the default settings for this project. Set up the Viewport to look straight down on the plane. This helps with translating vertices. To adjust the Viewport to a top down view and into orthographic (straight on view without any perspective) open the view menu.

The view keys settings in Blender.

Now if we press G to translate we don’t have to worry about that pesky 3rd dimension.

To start manipulating elements of the plane get into Edit Mode. Change this by clicking the drop down menu that says Object Mode and selecting Edit Mode from the options that appear or press tab and hop right into Edit Mode.

Edit mode highlighted in the Blender interface.

Snap tools make aligning things much quicker. The snap tool looks like a magnet on the Toolbar of the 3d view. Either click the magnet or press Shift+Tab to activate it.

The magnet icon highlighted in the Blender interface.

It has several settings in the drop down that elements can snap to. Stick with Increment (which is the grid spacing size) for now.

The snap element icon highlighted in the Blender interface.

Also, turn on Snap to absolute grid alignment by clicking here:

The grid snapping icon highlighted in the Blender interface.

Use the Knife tool from the Toolbar on the left or press K to have it activate.

The knife tool menu item highlighted in the Blender interface.

Now cut a line straight down the middle, just Left Click once at the top near the middle of the plane and once at the bottom. Vertices are created wherever clicked and an edge is created between 2 vertices. Once the plane is sliced press the Spacebar or Enter to confirm that the line created is what we want. To cancel just Right Click and try again.

Cut plane in Blender.

Now turn off the snaps by clicking the magnet or by pressing Shift+Tab. With the Knife tool draw an image on the plane. After a few cuts notice that nothing has been mirrored.

In the Mirror module click the Adjust edit cage to modifier result button.

The edge cage icon highlighted in the Blender interface.

Now it will look like this.

A mirrored design in Blender.

Make a few more cuts to give the image some teeth.

Teeth cutout in Blender

To get the teeth just right use the translation tool by Right Clicking a vertex, pressing G (or go to Translate in the toolbar on the left) and moving the mouse around to place it in a new spot.

Skull design process in Blender.

To cut in the eyes make a line that builds off of the skull. When finished the program might add a line that was not intended. Correct it later if need be.

Eye hole cut in Blender.

Now do the same for the nose.

Nose cut in Blender.

Now for some prettification with the translation tool.

Skull design progress in Blender.

Turning every shape into either a four sided polygon or at minimum a triangle. This will make Blender and our collective parents/guardians proud. Blender works best with quads (four sided shapes) or triangles.

image

Skull design progress in Blender.

Now switch to Face selection mode either by using the element selection bar.

The face selection icon in Blender.

or by pressing ctrl+Tab

The mesh face selection menu option in Blender.

Now select the skull by holding Shift and Right Clicking all of the faces that made it up.

The skull selected in Blender.

And use the Extrude Region tool in the Toolbar on the left.

The extrude region tool in Blender.

or press Alt+E and click Region

The extrude options in Blender.

And watch as we move our mouse and make our creation rise, Rise, RISE!

New dots in Blender.

Oh wait, no it didn’t rise because we need to move our view a little. These little half dots that appeared do indicate that some form of element has been created (a couple of faces in this case). Right Click to cancel any movement we may have made and then pan the viewport with middle mouse click. Then we can either Left Click the blue arrow of the Pivot Point for translation or press G and then Z to constrain translation to the z axis.

The extruded skull design in Blender

Woohoo! We did it! Now save this puppy and reflect on all that we have done today. Were going to use this model to build into another lesson.

Conclusion

Learning Blender takes time to explore and practice. Take a moment and check out some examples of artist work in the feature reel on the Blender website.

Resources

Additional Resources

  • ArtStation is great to see work from some top 3D/2D professionals (don’t be discouraged, these professionals have been practicing for years to get this good).
  • Blender Tutorials are great for beginners.

Social Media Resources


You might also like