3/8-24 thread, copper tail cone
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.
Utilizing a conical stress diffusion design (cone angle 30°-45°), which increases the surface vibration energy transfer efficiency by over 40%.
50 swamp detector casing tail cone
Using a conical stress diffusion design (cone angle 30°-45°), the efficiency of ground vibration energy transfer is increased by over 40%.
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.
PC-801 stainless steel tail cone
Utilizing a conical stress diffusion design (cone angle 30°-45°), the surface vibration energy transmission efficiency is increased by over 40%.
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.
Employing a conical stress diffusion design (cone angle 30°-45°), the efficiency of surface vibration energy transmission is increased by over 40%.