Adams Car Package > Adams Tire > Tire Models

Tire Models

 
Using the Fiala Handling Force Model
Fiala Tire Assumptions
Fiala Tire Inputs
Tire Slip Quantities and Transient Tire Behavior
Contact Methods
Fiala Tire Force Evaluation
Transient Behavior in the Fiala Tire Model
Fiala Tire Carcass Shape
Fiala Tire Property File Format Example
Using the PAC2002 Tire Model
When to Use PAC2002
Modeling of Tire-Road Interaction Forces
Axis Systems and Slip Definitions
Contact Methods and Normal Load Calculation
Basics of the Magic Formula in PAC2002
Steady-State: Magic Formula in PAC2002
Transient Behavior in PAC2002
PAC2002 with Belt Dynamics
Parking Torque
Gyroscopic Couple in PAC2002
Non-rolling vertical tire stiffness and damping properties
Left and Right Side Tires
USE_MODES of PAC2002: from Simple to Complex
The local Tire Solver for increasing simulation speed
High Performance switch in Adams Car
PAC2002 support for DOE
Quality Checks for the Tire Model Parameters
Standard Tire Interface (STI) for PAC2002
Definitions
References
Example of PAC2002 Tire Property Files
Using the PAC-TIME Tire Model
When to Use PAC-TIME
Modeling of Tire-Road Interaction Forces
Axis Systems and Slip Definitions
Contact Methods and Normal Load Calculation
Basics of the Magic Formula in PAC-TIME
Steady-State: Magic Formula in PAC-TIME
Transient Behavior in PAC-TIME
Gyroscopic Couple in PAC-TIME
Left and Right Side Tires
USE_MODES of PAC-TIME: from Simple to Complex
Quality Checks for the Tire Model Parameters
Standard Tire Interface (STI) for PAC-TIME
Definitions
References
Example of PAC-TIME Tire Property File
Using Pacejka '89 and '94 Models
About Pacejka '89 and '94
Using Pacejka '89 Handling Force Model
Using Pacejka '94 Handling Force Model
Combined Slip of Pacejka '89 and '94
Transient Behavior in Pacejka '89 and '94
Left and Right Side Tires
Using the PAC MC Tire Model
When to Use PAC Motorcycle
Modeling Tire-Road Interaction Forces
Axis Systems and Slip Definitions
Contact-Methods and Normal Load Calculation
Basics of the Magic Formula in PAC MC
Steady-State: Magic Formula for PAC MC
Transient Behavior in PAC MC
Gyroscopic Couple in PAC MC
Left and Right Side Tires
USE_MODES of PAC MC: from Simple to Complex
Contact Methods
Quality Checks for the Tire Model Parameters
Standard Tire Interface (STI) for PAC MC
Definitions
References
Example of PAC MC Tire Property File
Using the 521-Tire Model
About 521-Tire
Definition of Tire Slip Quantities
Force Calculations
Combined Slip of 5.2.1
Transient Behavior in the 5.2.1 Tire Model
Smoothing
Changing the Operating Mode: USE_MODE
Converting Slip Ratio Data to Velocity Data
Contact Methods
521-Tire Tire and Road Property Files
Using the UA-Tire Model
Background Information for UA-Tire
Tire Model Parameters
Contact Methods
Force Evaluation in UA-Tire
Transient Behavior in the UA-Tire Model
Operating Mode: USE_MODE
Tire Carcass Shape
UA-Tire Property File Format Example
Using FTire Tire Model
About FTire
Installation of FTire
Using FTire with Road Models
Using FTire with Adams
FTire Animation
Choosing FTire Operating Conditions
Statics with FTire
FTire support for DOE
Inflation Pressure during runtime
FTire Modeling Requirements and Checklist
Cosin Tire Interface
Using the FTire Soft Soil model
Live Animation in Adams View
Live Animation and post processing in Adams Car
Updating FTire from cosin website
FTire HIL with Adams
Using the Soft-Soil tire model
Definition of Tire Slip Quantities
Elastic-plastic tire-soil contact
Transient tire response
Visco-elastic tire-soil contact
References:
Feature and property overview of the Adams Tire Soft Soil Tire model
Specific requests for the Soft-Soil Tire Model
Example of an Adams Dataset section with these requests:
Example of the tire property file for the Soft-Soil Tire model:
Example of the required Soil properties in the Road Data File:
Symbols
Using Aircraft Tire Models
About Axis Systems and Sign Conventions
Using the Aircraft Basic Tire Model
Using the Aircraft Enhanced Tire Model
Using the Aircraft TRR64 Tire Model