TY - JOUR
AU - Vlasov, A.
AB - PULVERIZATION OF FERRIC OXIDE IN AN ELECTROMAGNETIC APPARATUS N. B. Mokhon'ko and A. S. Vlasov UDC 666.3.022.2 Pulverization, being one of the main operations in production of ceramics, is a rather energy-consuming and expen- sive process and; therefore, development of an optimum milling technique is of important significance [ 1 ]. It is known that the simplest and most economical method of pulverizing hard particles is the mechanical method. Ball, vibrating, air-pressure, and attrition mills are used extensively in technology for fine milling of materials. Their main disadvantages are the long duration of the grinding process, the low specific energy intensity per unit of chamber vol- ume, and the low homogeneity of the mixtures [2]. The process of grinding ferric oxide in an electromagnetic apparatus (EMG) was investigated to produce ferric ceramics. Experimental electromagnetic grinders of different capacity (from 1 ml to 500 liters), based on the use of the motion of a set of permanent magnets in a variable magnetic field, were developed at the Scientific-Research Laboratory, Physical and Chemical Mechanics of Materials and Production Processes, Main Administration of the Building Materials and Structural Parts Industry, Moscow City Executive Committee. The milling bodies in the EMG are magnetic 
TI - Pulverization of ferric oxide in an electromagnetic apparatus
JF - Glass and Ceramics
DO - 10.1007/BF00702261
DA - 2004-11-11
UR - https://www.deepdyve.com/lp/springer-journals/pulverization-of-ferric-oxide-in-an-electromagnetic-apparatus-G3Vp8hszNU
SP - 341
EP - 344
VL - 39
IS - 7
DP - DeepDyve
ER -