Reslink delivers products and services that cover the current open-hole completion markets in the world. We focus 100% on sand control solutions. The engineering principle of Reslink's products strictly follows the very basic fundamentals, namely, simplicity, reliability and robustness. Reslink believes that whatever the solutions are, they must be simple for installations, minimal risks for operations, and flexible for applications. 

In 1999 Reslink introduced a new wire wrap sand screen which has been tested to be stronger than any other sand screen available in the market. The screens are essentially as strong as casing in terms of the yield force required on bending, compression and distortion. Over 150,000 ft of screens have been installed world wide so far, and there is not a single customer feed back on failures associated with lost sand control or plugged screen. 

Apart from providing an extremely robust sand screen, Reslink employs a unique engineering methodology which has demonstrated exceptionally good results. We have been fortunate to work closely with several international operators over the last several years at various locations in North Sea, Nigeria, Equatorial Guinea and Chad. With Reslink's pre-selection and design processes, we assist clients to develop optimized drilling and completion processes which lead to outstanding performances.

Reslink co-operates with Easywell to offer unique open hole completion systems. The solution offered is based on the Easywell swelling annular flow restrictors (Constrictor(tm)), their open hole zonal isolation device the Swell Packer(tm) together with Reslink's sand screens. The Constrictor(tm) and Swell Packer(tm) swells on contact with various well fluids. Reslink's screens exhibit unsurpassed mechanical robustness and precision. The combination of Easywell and Reslink products provides the industry with an exceptionally simple, robust and reliable open hole completion solutions. In many cases these solutions have proven to outperform both cased, cemented and perforated completion approaches as well as other open hole alternatives.