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z <br /> <br /> <br />The Federal Bureau of Mines has been conducting research on the utiliza- <br />tion and stabilization of mineral wastes for many years (2, 4).a The fine <br />wastes represent the most difficult materials to stabilize. Many mining and <br />milling companies have worked independently for many years and, during the <br />past few years, cooperatively with the Bureau in evaluating various stabiliza- <br />tion methods in the field, A free exchange of information has taken place, <br />This paper reviews the various methods and presents cost estimates for stabi- <br />lizing Eine-sized milling wastes, Preliminary results of ongoing research by <br />the Bureau of Mines for lowering maintenance costs and stabilizing special <br />problem areas are reported, <br />STABILIZATION PROCEDURES <br />The principal methods for stabilization of milling wastes include the <br />following: <br />1. Physical--the covering of the tailings with soil or other restraining <br />materials. <br />2. Chemical--the use of a material to interact with fine-sized minerals <br />to form a crust, <br />3. Vegetative--the growth of plants in the tailings. <br /> <br /> <br />1 <br />The vegetative procedure is preferred in that esthetics of the area are <br />improved while obtaining stabilization. Also, if a mineralized waste is to be <br />conserved for possible Later retreatment or if the area is to be used Later <br />for residential construction or recreational purposes, it is beneficial to <br />stabilize the area with vegetation. Vegetation does not hinder retreatment as <br />much as covering the tailings with other foreign materials. <br />Physical Stabilization <br />Many materials have been tried for physical stabilization of fine tail- <br />ings to prevent air pollution, Other than water for sprinkling, perhaps the <br />most used material is rock and soil obtained from nearby areas. The use of <br />soil often offers the advantage of effective cover while providing a habitat <br />for local vegetation, Crushed or granulated smelter slag often has been used <br />to stabilize a variety of fine wastes, notably inactive tailings ponds. On <br />active tailings ponds, however, the slag-covered portions are subject to <br />burial by shifting and newly deposited sands. Slag has the drawback, unlike <br />soils or country rock, of not providing a favorable habitat for vegetation. <br />Other physical methods of stabilization evaluated include the use of bark <br />covering, and the harrowing of straw into the top few inches of tailings to <br />serve as a windbreak, <br />Underlined numbers in parentheses refer to items in the List of references at <br />the end of this report, , <br />