Showing 37–48 of 109 results
AMC EZEE BORE XTRA™ is high yielding, easy to mix, one-sack drilling fluid system that provides excellent rheological and filtration control properties and is ideally suited for use in horizontal directional drilling, water well, mining and tunnelling applications.
AMC EZEE BORE™ is an easy to mix, one-sack drilling fluid system that provides excellent rheological and filtration control properties and is ideally suited for use in horizontal directional drilling, water well, mining and tunnelling applications.
AMC EZEE CUT™ is a blend of highly refined mineral oils, emulsifiers and surfactants specially formulated to produce a low cost, high performance cutting oil for mineral drilling applications. AMC EZEE CUT™ will provide lubrication and can significantly extend bit and reamer life which will benefit both cost and production.
AMC EZEE DRILL™ is a simple to use liquid product that will help improve drilling efficiency by providing borehole stability and lubrication without the problems associated with mixing powdered polymers. This product is ideally suited to underground drilling operations where only minimal shearing is available.
AMC EZEE MIX SDFC™ is a partially hydrolysed polacrylamide copolymer emulsion used to improve hole stability in reactive clay and shale formations by encapsulation. AMC EZEE MIX SDFC™ may be used to prepare a solids free drilling fluid system with exceptional hole stabilizing characteristics or used to improve the properties of foam injection fluids. AMC EZEE MIX SDFC™ will shear rapidly to achieve good viscosity in fresh to mildly brackish make up water.
AMC EZEE PAC L™ is a new generation, highly dispersive low viscosity polyanionic cellulose polymer used for improving filtration control in most water based drilling fluid systems without appreciably increasing viscosity. AMC EZEE PAC L™ will not fisheye and has been designed to disperse rapidly into any make-up water even under the poorest conditions. The mixing efficiencies of AMC EZEE PAC L™ reduces wastage and promotes lower mud costs and total hole costs.
AMC EZEE PAC R™ is a new generation, highly dispersive high quality polyanionic cellulose polymer used for viscosity and water loss control in most water based drilling fluid systems. AMC EZEE PAC R™ will not fisheye and has been designed to disperse rapidly into any make up water even under the poorest conditions. The mixing efficiencies of AMC EZEE PAC R™ reduces wastage and promotes lower mud costs and total hole costs.
AMC EZEE TROL™ is a new generation, highly dispersive, versatile blend of cellulosic and organic polymers which form a high viscosity fluid that exhibits good hole stabilising characteristics in all types of drilling applications. AMC EZEE TROL™ will not fisheye and has been designed to disperse rapidly into any make-up water, even when only basic mixing equipment is available.
AMC EZYCORE™ is vegetable based oil which was developed specifically for the mineral exploration industry. Its extreme pressure lubrication properties were designed for the operating parameters at the face of a bit giving improved penetration rates and extended bit life.
AMC FILTREX™ is a high molecular weight polymer emulsion. When added to a water-based drilling fluid, it reduces the rate at which drilling fluid pressure invades the borehole wall during drilling. AMC FILTREX™ can also be used when drilling into reactive clays and shales, reducing pore pressure transmission and improving filtrate control. AMC FILTREX™ is effective in brittle, water-sensitive formations.
AMC FLOC BLOCKS™ are an anionic flocculant in the form of a solid block which has been specially designed to slowly dissolve in water flows and to flocculate drill solids and promote them settling in the surface pits.
AMC FLOC DD™ is a specially formulated flocculant designed specifically to promote settlement of fine to colloidal sized drill cuttings in non-dispersed, polymer and low-solids water based drilling fluid systems. The cationic charge found in AMC FLOC DD™ neutralises the surface charges and also attaches to particles causing them to aggregate and form flocs, the flocs then settle quickly when entering the surface pits.