Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分析了阻尼力与振动速度、外加电场强度、充气压力等的

系,为减振器设计参
的优化研究提
了理论依据。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分析了阻尼力与振动速度、外加电场强度、充气压力等的

系,为减振器设计参
的优化研究提
了理论依据。
声明:以上例句、词性分类

联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分析了阻尼力与振动速度、外加电场强度、充气压力等的数学关系,为减振器设计参数的

究提
了理

。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分析了阻尼力与振动速度、外加电场强度、充气压力等
数学关系,为减振器设计参数
优化研究提
了理论依据。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件
观点;若发现问题,欢迎向我们指正。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分析了阻尼力与振动速度、外加电场强度、充气压力等的数学关系,为减振器设计参数的优化研究提
了理论依据。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观
;
现问题,欢迎向我们指正。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分析了阻尼力与振动速度、外加电场强度、充气压力等的数学关系,为减振

参数的优化研究提
了理论依据。
声明:以

、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分析了阻尼力与振动速度、外加电场强度、充气压力等的数学关系,为减振器设计参数的优化研究提
了理论依据。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表本软件的观
;
现问题,欢迎向我们指正。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分

尼力与振动速度、外加电场强度、充气压力等的数学关系,为减振器设计参数的优化研究提
理论依据。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表

亦不代表本软件的观点;若发现问题,欢迎向我们指正。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.
分析了阻尼力与振动速度、外加电场强度、充气压力等的数学关系,为减振器设计参数的优化研究提
了理论依据。
声明:以上例句、词性分类均由互联网资源自动生成,部分未经过人工审核,其表达内容亦不代表
软件的观点;若发现问题,欢迎向我们指正。
Applying the theory of rheodynamics and hydraulic theory, a relationship of damping vs. vibration velocity, electric field strength and gas-filled pressure has been set up.

了阻尼力与振动速度、外加电场强度、充气压力等的数学关系,为减振器设计参数的优化研究提
了理论依据。
声明:以上例句、词性
类均由互联网资源自动生成,部
未经过人工审核,其表达内

代表本软件的观点;若发现问题,欢迎向我们指正。