Ball Jointed Doll 3d Model Download __LINK__
Ball jointed dolls (BJDs) are articulated dolls that can be posed in various ways. They are usually made of resin and have realistic features and expressions. BJDs are popular among collectors and hobbyists who enjoy customizing them with different clothes, wigs, eyes, and accessories.
ball jointed doll 3d model download
But did you know that you can also create your own BJDs with 3D modeling and printing? In this article, we will show you how to do it step by step, from designing your doll to assembling and painting it. You will also learn where to find and download free 3D models of BJDs for inspiration or modification.
Step 1: Design your BJD with 3D modeling software
The first step is to design your BJD with 3D modeling software. You can use any software that you are comfortable with, such as Blender, ZBrush, Maya, or SketchUp. You can also use online tools like Tinkercad or SculptGL.
The basic process of 3D modeling a BJD is to create a base mesh of the doll's body and head, then add details such as eyes, nose, mouth, ears, hair, and clothes. You can also sculpt the facial expression and the skin texture. You can use reference images or photos of real BJDs to guide you.
One important thing to consider when designing your BJD is the size and shape of the ball joints. The ball joints are the parts that connect the limbs and the torso and allow the doll to move. They should be proportional to the body and fit snugly together. You can use spheres or cylinders as placeholders for the ball joints and adjust them later.
Step 2: Prepare your BJD for 3D printing
The next step is to prepare your BJD for 3D printing. This involves slicing your 3D model into layers and generating a G-code file that tells the printer how to print it. You can use any slicing software that supports your printer, such as Cura, Simplify3D, or Slic3r.
Some tips for preparing your BJD for 3D printing are:
Scale your model to the desired size. You can use a ruler or a caliper to measure the dimensions of your model and adjust them accordingly.
Orient your model to minimize supports and overhangs. Supports are additional structures that help hold up parts of your model that would otherwise collapse during printing. Overhangs are parts of your model that extend beyond a certain angle from the vertical axis. Both supports and overhangs can affect the quality and appearance of your print, so try to avoid them as much as possible.
Split your model into smaller parts if necessary. Depending on the size of your printer and your model, you may need to split your model into smaller parts that can fit on the print bed. You can use software like Meshmixer or Netfabb to cut your model along seams or joints. Make sure to leave some space or holes for inserting pins or magnets later.
Add holes for stringing and elastic bands. Stringing is the process of connecting the ball joints with elastic bands that hold them together and allow them to move. To do this, you need to add holes in each part of your model where the elastic bands will go through. You can use software like Blender or Meshmixer to create holes or tunnels in your model.
Step 3: Print your BJD with a 3D printer
The final step is to print your BJD with a 3D printer. You can use any type of 3D printer that suits your budget and preference, such as FDM, SLA, or DLP. Each type of printer has its own advantages and disadvantages in terms of cost, speed, accuracy, resolution, and material options.
Some tips for printing your BJD with a 3D printer are:
Choose a suitable material for your BJD. The most common materials for 3D printing are PLA, ABS, PETG, resin, and nylon. Each material has its own properties in terms of strength, flexibility, durability, color, and finish. For example, PLA is c481cea774