1) longitudinal amplitude change bar
纵向变幅杆
1.
Based on the theoretical analysis for the longitudinal amplitude change bar in the supersonic vibration turning test system, the exponent type amplitude change bar is designed, which can resonate reliably with the energy exchanger.
在对超声振动车削试验系统的纵向变幅杆进行理论分析的基础上 ,设计了可与换能器可靠共振的指数型纵向变幅杆。
2) compound longitudinal vibrating horn
复合纵振变幅杆
1.
The method for conventionally designing compound longitudinal vibrating horn is that the undetermined coefficiency are solved and the frequency equation is derived by using continuous boundary conditions with displacement and force at each interface of partial shape function horns.
传统设计复合纵振变幅杆的方法是利用各形状函数杆之间的位移和力连续的边界条件 ,确定方程中的待定系数 ,导出频率方程 。
3) Ultrasonic horn
变幅杆
1.
Unified treatment of ultrasonic horn characteristics based on four-end network approach;
四端网络法统一变幅杆的性能参量
2.
In order to enhance the material removal rate in ultrasonic machining,based on model analysis and harmonic response analysis of ANSYS,the shape and vibration length of the ultrasonic horn was optimized by using optimum design of ANSYS,and a new kind of ultrasonic horn with large amplitude ratio and satisfying promised stress was designed.
以提高超声加工中的材料去除率为目的,基于ANSYS有限元模态分析、谐响应分析模块,利用ANSYS优化设计方法对变幅杆的形状与谐振长度进行优化,完成了在满足许用应力条件下具有大振幅比的新型变幅杆设计。
3.
Ultrasonic horn is one of the most important parts in the ultrasonic oscillation, its primary effect in the oscillation system is to blow up the particle displacement and velocity in the mechanical vibrancy, centralize the ultrasonic energy on a lesser acreage.
超声变幅杆是超声振动系统中一个重要的组成部分,它在振动系统中的主要作用是把机械振动的质点位移或速度放大,并将超声能量集中在较小的面积上,即聚能作用。
4) amplitude transformer
变幅杆
1.
The study of the performance of vibration energy transmission in the ultrasonic amplitude transformer;
功率超声变幅杆振动能量传输性能的研究
2.
Finite element analyses of the ultrasonic amplitude transformer
超声变幅杆的设计及有限元分析
3.
Key parts including piezoelectric transducer and amplitude transformer with a cylindrical hole in the center,and flexural vibration disk are analyzed and calculated.
提出了珩磨杆、珩磨头体均不振动的设计思想,分析计算了中心有圆柱孔的压电换能器和变幅杆,以及弯曲振动圆盘等关键部分。
5) coniform horn
变幅杆
1.
Finite element analysis is made to the baroque coniform horn with software ANSYS in this paper.
本文利用ANSYS软件对复杂结构的圆锥形变幅杆进行有限元分析,提出两种修正设计方案,得出变幅杆固有频率与其结构尺寸的关系,从而确定出变幅杆的最优结构。
6) solid horn
变幅杆
1.
A review of ultrasonic solid horn design;
超声变幅杆设计方法研究
2.
The performance of ultrasonic flexural solid horn with simple shape;
超声弯曲振动变幅杆的特性
3.
The test of transmission losses of high frequency ultrasound in solid horn;
高频超声在变幅杆件中传播损耗的测试
补充资料:L2工业纯铝360℃热轧板中心区域纵向组织
L2工业纯铝360℃热轧板中心区域纵向组织
L2工业纯铝560。0热轧板中心区域纵向组织
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条