本课程介绍如何使用COMSOL Multiphysics进行静电模块建模,涵盖压电晶体、传感器、加速度计及能量采集器仿真。学习静电场、电势分布与电荷密度求解,适用于工业应用与工程问题解决。

原始标题:Modeling of Electrostatic Module in Comsol Multiphysics

Modeling of Electrostatic Module in Comsol Multiphysics

Published 3/2025
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 52m | Size: 530 MB

Piezoelectric Crystal , Sensors, Accelerometer, Energy Harvester Simulation

What you’ll learn
Develop Proficiency in COMSOL Multiphysics for various Electrostatic applications
Understand the Fundamentals of Electrostatics of industrial applications
Learn to model electrostatic problems, solve for electric fields, potential distributions, and charge densities, and apply solvers for stationary
Understand how to apply electrostatic simulation techniques to solve engineering problems in real-world scenarios, such as capacitors

Requirements
basic Knowledge of Electrostatics ,electrical circuits , Knowledge of Materials

Description
This course provides a comprehensive introduction to the simulation of piezoelectric crystals and electrostatic phenomena using COMSOL Multiphysics. Participants will explore the fundamental principles of piezoelectricity and electrostatics while learning to effectively model and analyze these interactions within the COMSOL environment.Through hands-on tutorials and real-world case studies, the course will cover the essential modules of COMSOL, including Structural Mechanics and Electrostatics, for simulating and understanding the behavior of piezoelectric materials under varying conditions. Key topics include the coupling of mechanical and electrical fields, the impact of electrostatic forces on piezoelectric crystals, and the application of these models to real-world devices such as sensors, actuators, and energy harvesting systems.By the end of this course, students will be proficient in using COMSOL Multiphysics to model piezoelectric crystals and analyze electrostatic fields. They will also gain a deeper understanding of how to optimize simulations, interpret results, and validate models for various engineering applications.Key Learning Objectives:Understand the fundamental principles of piezoelectricity and electrostatics.Gain hands-on experience in modeling piezoelectric crystals in COMSOL.Learn to analyze the coupling of mechanical and electrical behaviors in multiphysics simulations.Use COMSOL’s Electrostatics and Structural Mechanics modules effectively.Apply simulation results to practical applications such as sensors, actuators, and energy harvesting.Develop the skills to perform parametric studies and optimize simulations for more accurate results.Learn best practices for validation and verification of COMSOL models.Who Should Take This Course: This course is ideal for engineers, researchers, and students in materials science, mechanical engineering, electrical engineering, and physics who are looking to enhance their skills in using COMSOL Multiphysics for modeling and simulating piezoelectric and electrostatic phenomena.

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