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%.
The node tail cone is a core coupling component of the new generation of intelligent seismic acquisition nodes, using a mechatronics design.
The node tail cone is a core coupling component of the new generation of intelligent seismic acquisition nodes, using a mechatronics design.
The swamp tail cone is a specialized coupling device developed for soft geological environments such as wetlands and tidal flats.
The geophone core is the core sensing unit for seismic signal acquisition, using a five-layer composite structure design.
The geophone core is the core sensing unit for seismic signal acquisition, using a five-layer composite structure design.
The geophone core is the core sensing unit for seismic signal acquisition, using a five-layer composite structure design.