Study on the Stability of VRM with Low-Temperature Treatment and Some Magnetic Characteristics of Granite

Abstract: A comparison between a microscopic observation and magnetic examinations such as thermomagnetic curve, low-temperature characteristics and microscopic coercivity spectrum indicates that the magnetic stability of granites is primarily controlled by the grain size: stable granites abundantly possess extremely fine magnetite grains (grain size<5U), whereas the unstable sample contains mostly coarse magnetite grain (grain size>50ii).Magnetic characteristics of VRM of magnetite grain which is produced at relatively… Show more

“…The memory ratio decreases with increasing strength of the TRM inducing field (Table 1), as noted by Ozima [1966] for stably magnetized granites. The SD-like fraction is largest (in percentage terms) for 50-/aT TRM, decreases for 1.0-mT TRM, and is smallest (about one-half the TRM memory) for saturation remanence.…”

Separating multidomain and single‐domain‐like remanences in pseudo‐single‐domain magnetites (215–540 nm) by low‐temperature demagnetization

“…The memory ratio decreases with increasing strength of the TRM inducing field (Table 1), as noted by Ozima [1966] for stably magnetized granites. The SD-like fraction is largest (in percentage terms) for 50-/aT TRM, decreases for 1.0-mT TRM, and is smallest (about one-half the TRM memory) for saturation remanence.…”

Separating multidomain and single‐domain‐like remanences in pseudo‐single‐domain magnetites (215–540 nm) by low‐temperature demagnetization