If the weight of the slurry is Q and the specific gravity is △, the volume of the slurry is Q / △; the specific gravity of the ore is δ, and the percentage concentration of the pulp is P, then the volume of the ore in the slurry is (Q × P) / δ; 1; the volume of water in the slurry is Q (1-P). Then we get (Q × P) / δ + Q (1 - P) = Q / △ The percentage concentration after finishing (in percent) is P = {δ(△-1)}/{△(δ-1) }×100% 1
If the weight of the pot used is G (gram), the volume is V (cm 3 ), and the total weight is M (gram) after filling the slurry, the proportion of the slurry is: △=(m—G)/V 2 Substituting the 2 formula into the 1 formula: P={δ(m—G—V)}/{(δ—1)(m—G)}×100% 3 In order to facilitate the operation in production, the 3 formula is often transformed into: M=(v×δ)/{(P+δ)—δP}+G 4 Under the condition that the concentration pot volume V, the self-weight G and the ore specific gravity δ are all known, the corresponding m value can be calculated according to different P values, and the table (ie, the slurry concentration conversion table) is hung on the grinding post. The miners can quickly find the concentration of the slurry from the table based on the value of m. Hot Melt Hose Series
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