Getting Started > Getting Started: Adams Machinery > Getting Started Using Adams Machinery
Getting Started Using Adams Machinery
 
Introducing Adams Machinery
Overview
Starting Adams Machinery
Machinery Gear Tutorial
What You Will Create
Creating Gear Pair
Adding Motion/Friction
Simulation
Machinery Gear AT Tutorial
Creating a Single Helical Gear Pair
Prepare Your Working Directory
Load Gear AT Plugin
Load the Workshop Model
Create Pinion Tooth Profile
Mesh the Pinion Tooth
Create Wheel Tooth Profile
Mesh the Wheel Tooth
Create the Pinion Gear AT Element
Create the Wheel Gear AT Element
Create Gear AT Force for the gear pair
Setup Input motion and Output Torque
Review the Torsion Damper
Verify Pinion and Wheel Gear AT Elements
Set the solver settings
Verify Simulation script and run the simulation
Investigate results of linear analysis
Investigate the simulation results
Save your Work
Creating a Bevel/Hypoid Gear Pair
Prepare your Working Directory
Load Gear AT Plugin
Load the Workshop Model
Creating Pinion Tooth Property File
Creating Wheel Tooth Property File
Meshing Pinion Tooth
Meshing Wheel Tooth
Creating Pinion Gear AT Element
Creating Wheel Gear AT Element
Creating Gear AT Force for hypoid gear pair
Reviewing Model
Setup Input Motion and Output Torque
Set the Solver Settings
Verifying Simulation Script and Run the Simulation
Investigating the simulation results
Save your Work
Creating a Cylindrical Worm Gear Pair
Prepare your working directory
Opening Start Model
Loading Gear AT Plugin
Loading Workshop Model
Creating worm tooth property file using Gear AT Shape Definition
Meshing worm tooth using Gear AT Mesh
Creating worm wheel tooth property file using Gear AT Shape Definition
Meshing worm wheel tooth using Gear AT Mesh
Creating Worm Gear AT Element
Creating Worm Wheel Gear AT Element
Creating Gear AT Contact Force for cylindrical worm gear pair
Setup Input motion and Output torque
Set the Solver Settings
Verifying Worm Gear_AT Results Output Settings
Verify simulation script and run the simulation
Investigate the simulation results
Save your work
Creating a Lead Screw Gear Pair
Prepare your working directory
Opening Start Model
Loading Gear AT Plugin
Loading Workshop Model
Creating nut tooth property file using Gear AT Shape Definition
Meshing nut tooth using Gear AT Mesh
Creating spindle tooth property file using Gear AT Shape Definition
Meshing spindle tooth using Gear AT Mesh
Creating Nut Gear AT Element
Creating Spindle Gear AT Element
Creating Gear AT Contact Force for Leadscrew gear pair
Completed Leadscrew gear model
Setup Input motion and Output Torque
Set the Solver Settings
Verify simulation script and run the simulation
Investigating simulation results
Save your Work
Creating an Involute Spline Joint
Prepare your Working Directory
Load Gear AT Plugin
Load the Workshop Model
Create the Shaft Tooth Profile
Mesh the Shaft Tooth
Create the Hub Tooth Profile
Mesh the Hub Tooth
Create the Shaft Gear AT Element
Create the Hub Gear AT Element
Create Gear AT Spline Joint Force
Setup Input motion and Output Torque
Modify Motion
Apply Tooth Modifications on the Shaft Spline
Set the Solver Settings
Verify Simulation Script and Run the Simulation
Investigate Results of Linear Analysis
Investigate the Simulation Results
Save your Work
Optional Tasks
Machinery Belt Tutorial
What You Will Create
Creating Poly-V Grooved Belt System
Simulation
Adams PostProcessor Results
Machinery Chain Tutorial
What You Will Create
Creating Roller Chain System
Simulation
Adams PostProcessor Results
Machinery Bearing Tutorial
What You Will Create
Creating Bearing Module
Simulation
Adams PostProcessor Results
Machinery Bearing AT Tutorial
Creating Axial Cylindrical Roller Bearing
What You Will Create
Prepare your working directory
Start Adams and load Bearing AT Plugin
Loading the Bearing AT Testrig Model
Preprocess FE Mesh of axial cylindrical roller bearing
Preprocess FE Contact of axial cylindrical roller bearing
Creating axial cylindrical roller bearing element
Running a Kinematic Simulation and Saving the Results
Modify axial clearance of the bearing
Run a Kinematic Simulation and Save the Results
Investigating simulation results
Saving your Work
Creating a Ball and Roller Bearing
Prepare your working directory
Start Adams and load Bearing AT Plugin
Load the Workshop Model
Create the Tilt Angle Request
Run a Dynamic Simulation and Save the Results
Investigate simulation results
Preprocess FE Mesh of ball bearing
Preprocess FE Contact of ball bearing
Preprocess FE Mesh of roller bearing
Preprocess FE Contact of roller bearing
Create the ball bearing using Bearing AT
Create the roller bearing using Bearing AT
Run a Dynamic Simulation and Save the Results
Investigate simulation results
Investigate simulation results
Modify the bearing radial clearance
Run a Dynamic Simulation and Save the Results
Animate Bearings Results
Modify bearing graphics
Investigate simulation results
Investigate simulation results using Adams Durability
Machinery Cable Tutorial
What You Will Create
Creating Rudder Module
Adams PostProcessor Results
Machinery Motor Tutorial
Curve Based
What You Will Create
Curve Based Method Motor Model
Simulation
Adams PostProcessor Results
Analytical
What You Will Create
Analytical Method Motor Model
Simulation
Adams PostProcessor Results
External
What You Will Create
External Method Motor Model
Simulation
Adams PostProcessor Results
Machinery Cam Tutorial
What You Will Create
Creating Cam Model
Steps for Running Example
Define Desired Follower Motion
Derive Cam Profile
Cam-Follower System Creation