About Tiger Bullets Micro®
Tiger Bullets Micro® is a next-generation lost circulation material developed using patented microfiber and nano-technology engineering. Created through research at the LSU AgCenter, this renewable, plastic-free material is designed to deliver reliable sealing performance across a wide range of drilling environments — from micro-fracture bridging to severe loss zones.
Our Technology
Tiger Bullets Micro® uses a patented renewable microfiber structure that provides powerful bridging and sealing capabilities under high differential pressures. This engineered fiber interacts with both hydrophilic and hydrophobic phases, enabling improved emulsion stability and enhanced performance in complex drilling fluids.
Our material exhibits strong shear-thinning and thixotropic behavior, allowing for improved carrying capacity and rapid dispersion throughout the circulating system. These characteristics contribute to reduced torque, minimized drag, and more efficient cuttings transport.
Research, Development & Field Validation
Developed at LSU’s Renewable Natural Resources program, Tiger Bullets Micro® has been extensively tested in both laboratory and field environments. Controlled studies demonstrate significant reductions in:
– Fluid loss
– Filter cake thickness
– Permeability
– Stuck-pipe tendencies
Advanced high-pressure testing — including fully automated slot tests up to 4000 PSI — confirms the product’s strong bridging efficiency and stable seal formation. Field performance has been equally successful, with Tiger Bullets Micro® helping operators eliminate severe losses, maintain circulation, and drill to total depth without further
complications.
A Growing Industry Network
Tiger Bullets Micro® continues to expand through strong partnerships across research institutions, manufacturing facilities, and drilling industry service providers. With distribution and operational support networks in place, our team works directly with operators to ensure product availability, reliable guidance, and effective implementation.