Add new non-graphic properties to fully describe a SOLIDWORKS part, assembly, or drawing. Add Custom Properties using user-defined text and SOLIDWORKS special properties. Understand the downstream uses of properties in drawing annotations and tables. Use properties to select assembly components.
Learn how to define cables, create reusable macros, indicate the continuity of wires across multiple drawings, and depict custom components as simple black boxes. Define the cables to be used within a project and assign cable cores to specific component pins. Create macros for reusing specific parts of circuits or entire drawings. Depict the continuation of wires and equipotentials across drawings. Create black boxes for showing custom components with logical connectivity.
本模块是 SOLIDWORKS MBD 概述。 它介绍了在 3D 中定义模型、捕获 3D 视图以及发布 3D PDF 和 eDrawings 文件的流程。 了解如何在 3D 中将产品制造信息 (PMI) 添加到模型。 使用阵列特征工具创建集合阵列。 熟悉 3D PDF 模板编辑器。 如何发布 3D PDF。 如何发布 eDrawings 文件。
Use the Stock Manager to define the material, stock type and size to machine the part from. Select the stock material. Select stock type to define size and shape. Set the stock size options. View the stock preview.
Duplicate dimensions are often grouped together on a drawing but might need to be inspected separately: Extract and identify the quantity. Change the quantity. List characteristics separately.
The following course relates to the features found in SOLIDWORKS Electrical Schematic, each modules provides insight into how to best leverage the available tools to achieve results. Note Download files for this course are quite large, so we are not able to provide every sample file. If you would like to see more of the demonstration files, you can download the complete set of files for the original book. Go to https://www.solidworks.com/support/training/training-files to download the complete set of files.
In this course, you will learn how to use SOLIDWORKS Motion to analyze the kinematic or dynamic behavior of your SOLIDWORKS assembly model. Note Download files for this course are quite large, so we are not able to provide every sample file. If you would like to see more of the demonstration files, you can download the complete set of files for the original book. Go to https://www.solidworks.com/support/training/training-files to download the complete set of files.
In this course, you will learn about what types of dynamic environments exist and the tools available for their simulation. Dynamic problems can be computationally intensive. For that reason, dynamic loads are divided into several basic types. Each will call for a different simulation tool to treat it efficiently. Note Download files for this course are quite large, so we are not able to provide every sample file. If you would like to see more of the demonstration files, you can download the complete set of files for the original book. Go to https://www.solidworks.com/support/training/training-files to download the complete set of files.
In this course you will learn how to solve fluid flow and heat transfer problems using SOLIDWORKS Flow Simulation. SOLIDWORKS Flow Simulation is an easy to use computational fluid dynamics software package. Note Download files for this course are quite large, so we are not able to provide every sample file. If you would like to see more of the demonstration files, you can download the complete set of files for the original book. Go to https://www.solidworks.com/support/training/training-files to download the complete set of files.
The goal of this course is to teach you how to use the Mold Tools in SOLIDWORKS. In addition, manual surface modeling techniques will be introduced which can assist with solving mold making problems. Note Download files for this course are quite large, so we are not able to provide every sample file. If you would like to see more of the demonstration files, you can download the complete set of files for the original book. Go to https://www.solidworks.com/support/training/training-files to download the complete set of files.
The goal of this course is to explore many of the surfacing features inside SOLIDWORKS. Along with how to create and apply these surfacing features, additional features and methods commonly used in ergonomic and industrial designed models are also introduced. Note Download files for this course are quite large, so we are not able to provide every sample file. If you would like to see more of the demonstration files, you can download the complete set of files for the original book. Go to https://www.solidworks.com/support/training/training-files to download the complete set of files.
The goal of this course is to teach you to create Weldment parts and drawings in SOLIDWORKS. Weldment functions are designed for modeling structural members and are especially useful for creating frames and woodworking projects. Note Download files for this course are quite large, so we are not able to provide every sample file. If you would like to see more of the demonstration files, you can download the complete set of files for the original book. Go to https://www.solidworks.com/support/training/training-files to download the complete set of files.
Create some very complex 3D surfaces or geometries by defining a mesh with custom contours and numerous editable points for better control and design. Create basic primitive mesh shapes as a starting point to the design. Generate individual mesh faces using 3D Face tool. Control a network of mesh points by defining an outer perimeter with the Edge Mesh tool to fill it in. Use the 3D Mesh command allowing to define the location of every point in a mesh.
使用认证考试来衡量您有关使用 SOLIDWORKS 软件的知识和能力。 确定认证和专业考试的三个主要级别。 导航 SOLIDWORKS 网页的认证页面。 了解如何创建账号和购买考试。
Use the Sort Operations command to automatically reorder operations. Examine sort operations process options. Set sort by order for operation type.
了解如何将装配体导入到 SOLIDWORKS Treehouse 中,然后对该装配体进行修改。 编辑装配体中的部件的自定义属性、数量和压缩状态。 在 SOLIDWORKS Treehouse 中将子装配体和零件添加到装配体。 在 SOLIDWORKS 中打开装配体并检查在 SOLIDWORKS Treehouse 中所做的修改。
Mesh the Flow Simulation geometry using automated meshing approach. Understand the Basic mesh, and Initial mesh concepts. Control the Global Initial mesh refinement level. Analyze the Minimum Gap Size feature value as the project settings change. Plot mesh on cut plots.
