We only need to make a downward constraint. The rectangle we created on the XY plane will form the thickness of the chassis. After clicking on the clamp command, we select the holes and confirm the command window. We need to restrict the movements of the 6 holes we created on the YZ plane in the X, Y and Z directions. We open a new sketch on this plane and draw the rectangle shown in the top view. We create a new plane at a distance of 95 mm parallel to the XY plane. By opening a new sketch on this plane, we draw the holes shown in the front view. We create a new plane parallel to the YZ plane and at a distance of 0 mm. In the xDesign login screen, we create a new component called Chassis. In Design Guidance, you need a surface or a plane to apply a restraints or a load. For this, I created the following technical drawing by following the necessary steps. We can obtain these drawings and dimensions from SOLIDWORKS. For this, we need some 2D drawings and dimensions on the Chassis. We will use the New Design command in the Design Guidance. Now that you have obtained a lot of information about Design Guidance, we can move on to our project. We can liken this feature to the topology optimization in SOLIDWORKS Simulation. Redesign, on the other hand, allows us to test the accuracy of the design according to the loads and constraints we have specified on an existing 3D model. We’ll be using the New Design command throughout this tutorial. You don’t even need to have a 3D model when using this feature. It creates a 3D model according to the loads and r estraints we specify. In this way, the user can quickly determine the value they want to apply. Since Design Guidance has a user-oriented interface, it also includes some ready-made values. Torque: You can use torque to simulate torsional or rotational motion. Pressure: You can apply forces perpendicular to the unit surface area or apply atmospheric pressure.ģ. Point: With this option, you can apply the force to the center of the selected surface.Ģ. Distributed: With this option, you can distribute the force evenly on the surface.ī. Force can be applied to the selected plane or surface in two ways.Ī. Force: You can use force to simulate push or pull energy. Allows the selected plane or surface to slide freely outside of constrained directions.ġ. Fixture: Constrains the movement of the selected plane or surface in one or more directions. Clamp: Constrains all movement (in the X, Y and Z axes) of the selected plane or surface.Ģ. With this command, you can take a quick tour of both the xDesign interface and the Design Guidance interface. Throughout this tutorial we will see the commands marked in the picture. There are many command in the Design Guidance menu. The shape created with Design Guidance is created according to the loads and constraints we specify on the sketch or 3D model. The Design Guidance is a design tool for creating the design of a new part or testing and recreating the design of an existing part. In this tutorial, we will use a feature of xDesign in the 3D Creator role, namely the Design Guidance, to make the Chassis lighter and more durable.įirst, let’s learn the basics of Design Guidance together. I learned that I can use Design Guidance to do all these things. Of course, while doing this, I wanted to keep the durability at the same level. These improvements were focused on shortening the printing time. When I discovered the world of 3DEXPERIENCE, I wanted to make improvements in my design. I design ed the Gearbox using SOLIDWORKS. While studying Automotive Engineering at the university, I designed a Gearbox with Locked Synchromesh as my internship assignment and produced it using a 3D printer.
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