Rotational Mass Damper System
Simscape simulation of a Rotational Mass-Damper system to analyze angular position and velocity response under physical constraints.
이 제출물을 팔로우합니다
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- 정보 수신 기본 설정에 따라 이메일을 받을 수 있습니다
This project demonstrates the physical modeling of a Rotational Mechanical System using the Simscape environment. Unlike traditional signal-based Simulink blocks, this model uses physical connections to represent the exchange of energy between an inertia (mass) and a rotational damper.
System ComponentsThe model consists of the following key physical blocks:
- Inertia (Rotational Mass): Represents the rotating body with a specific moment of inertia.
- Rotational Damper: Introduces viscous friction, where the damping torque is proportional to the relative angular velocity.
- Ideal Rotational Motion Sensor: Measures the mechanical variables (Angular Position and Velocity) without affecting the system dynamics.
- Mechanical Rotational Reference: The fixed "ground" point for the rotational circuit.
- Solver Configuration: The essential f(x) = 0 block that manages the numerical simulation of the physical network.
Key Features
- Dual Output Tracking: Simultaneously monitors Angular Position (Pos) and Angular Velocity (Vel) through a synchronized Scope.
- Physical Domain Modeling: Uses across and through variables (Torque and Angular Velocity) rather than just mathematical signals.
- Dynamic Response: Perfect for studying settling time, damping ratios, and rotational stability in mechanical engineering applications.
How to Use
- Open the .slx file in MATLAB.
- Adjust the Inertia and Damping Coefficient values by double-clicking the respective green blocks.
- Click Run.
- Open the Scope to visualize how the rotational mass reacts over time.
인용 양식
Abd Al-Rhman Reda (2026). Rotational Mass Damper System (https://kr.mathworks.com/matlabcentral/fileexchange/183243-rotational-mass-damper-system), MATLAB Central File Exchange. 검색 날짜: .
| 버전 | 퍼블리시됨 | 릴리스 정보 | Action |
|---|---|---|---|
| 1.0.0 |
