Organophilic clay for high-temperature thermal stability
Organophilic clay for high-temperature thermal stability – HPHT-grade viscosifier for extreme drilling conditions
Organophilic clay engineered for high-temperature thermal stability, providing consistent rheology and strong suspension in HPHT drilling fluids.
Our organophilic clay for high-temperature thermal stability is engineered to withstand extreme downhole temperatures encountered in HPHT wells. Traditional viscosifiers often lose gel structure or thin excessively at elevated temperatures, leading to sag and unstable mud performance.
This HPHT-grade organoclay maintains gel strength, viscosity and suspension capability at temperatures up to ~230°C. It supports OBM and SBM systems used in deep wells, geothermal operations, high-pressure zones and complex offshore environments.
Drilling operations in extreme-temperature formations require viscosifiers capable of maintaining structure when exposed to intense heat. When engineers evaluate our HPHT organoclay and observe its strong rheology retention and minimal viscosity degradation, their interest grows sharply.
As trials confirm improved suspension stability, reduced sag and extended mud reliability, the desire to integrate this high-performance grade becomes compelling. With proven high-temperature behavior and stable supply, it becomes the preferred viscosifier for extreme wells.
🔹 FAQ – Organophilic clay for high-temperature thermal stability
Q1: What temperature can this organoclay withstand?
Up to approximately 230°C depending on formulation.
Q2: Does it prevent thermal thinning?
Yes — retains viscosity under high-temperature exposure.
Q3: Is it suitable for geothermal drilling?
Yes — ideal for geothermal and deep HPHT wells.
Q4: Does it work with synthetic oils?
Fully compatible with SBM and OBM.
Q5: Will it maintain suspension of barite?
Yes — strong suspension even under thermal stress.
🔹 USP -Organophilic clay for high-temperature thermal stability
HPHT-grade viscosity retention
Strong gel structure at high temperature
Minimizes sag in extreme wells
Designed for OBM & SBM
Compatible with geothermal & deep HPHT drilling
Consistent rheology under pressure & heat