Наведено результати досліджень дроблення магнетитових кварцитів у відцентрованих дезінтеграторах і конусній дробарці. Показано переваги використання відцентрованих дезінтеграторів. Розроблена математична модель процесу руйнування матеріалу у відцентрованих дезінтеграторах. З використанням класичного методу гіпотез одержано формулу для визначення швидкості вильоту матеріалу з розгінного ротора дезінтегратора, що забезпечує необхідне руйнування матеріалу Ключові слова: дроблення, кварцити, крупність, відцентрований дезінтегратор, ротор, енерговитрати, математична модель процесу руйнування матеріалу ударом в полі відцентрових сил Приведены результаты исследований дробления магнетитовых кварцитов в центробежных дезинтеграторах и конусной дробилке. Показаны преимущества использования центробежных дезинтеграторов. Разработана математическая модель процесса разрушения материала в центробежных дезинтеграторах. При использовании классического метода гипотез получена формула для определения скорости вылета материала с разгонного ротора дезинтегратора, что обеспечивает необходимое разрушение материала Ключевые слова: дробление, кварциты, крупность, центробежный дезинтегратор, ротор, энергозатраты, математическая модель процесса разрушения материала ударом в поле центробежных сил
Purpose. Determining the rational operating parameters for granite crushing under impact in the field of centrifugal forces to obtain cubiform crushed stone. In order to achieve the purpose set, the task is to determine the operating parameters for obtaining the main grain-size classes: -50.0 + 20.0; -40.0 + 20.0; -20.0 + 10.0; -10.0 + 5.0 and 5.0 mm. Methods. The crushing process of granite crushed stone is studied in the conditions of the Kolomoievskyi Granite Quarry, Dnipropetrovsk region. Granite crushed stone with an initial grain-size of 100.0-0.0 mm and strength grade of M1400 is subjected to crushing. The accelerating rotor rotation frequency is the design value n = 200-1200 min-1. Fine crushing of granite is performed in a centrifugal-impact crusher by a free impact in the field of centrifugal forces. Findings. The optimal speed modes of centrifugal crusher operation, which provide the production of high-quality crushed stone with a maximum content of 90-95% cubiform fractions, have been substantiated. Originality. The yield dependences have been obtained of the grain-size classes: -50.0 + 20.0; -40.0 + 20.0; -20.0 + 10.0; -10.0 + 5.0 and 5.0 mm depending on the speed mode of the centrifugal crusher operation. Practical implications. The operating parameters for obtaining the main grain-size classes of cubiform crushed stone from granite have been determined: -50.0 + 20.0; -40.0 + 20.0; -20.0 + 10.0; -10.0 + 5.0 and 5.0 mm. In particular, it has been determined that for the production of cubiform crushed stone with -50.0 + 20.0 mm grain-size, the rotor rotation reasonable speed is 400-500 min-1 (the speed of material departure from the accelerating rotor is 45-50 m/sec); for cubiform crushed stone of -40.0 + 20.0 mm grain-size, the speed mode is 200 min-1 (25 m/sec); for cubiform crushed stone of -20.0 + 10.0 mm grain-size – 600-650 min-1 (70-80 m/sec), respectively. The maximum content of cubiform fractions in the -20.0 + 10.0 mm grain-size class is 95%, which is achieved at a rotor speed of 650-700 min-1 (departure speed is 75-80 m/sec). The maximum content of cubiform fractions in the -10.0 mm grain-size class is 94-95%, which is achieved at the accelerating rotor speed within 700-800 min-1 (departure speed is 70-80 m/sec). The obtained data make it possible to practically choose a rational speed mode of the centri-fugal-impact crusher operation to obtain the maximum yield of cubiform crushed stone.
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