Add to ORKGResults of the investigation of the operation of explosive-driven high-voltage shock wave ferromagnetic generators (FMGs) in the open circuit and charging modes are presented. FMGs are based on the transverse (when the shock wave propagates across the magnetization vector M) shock demagnetization of Nd2Fe14B hard ferromagnetic energy-carrying elements of diameter 2.22 cm and length 2.54 cm (volume 8.5 cm3). In the charging mode the capacitance of capacitor banks compatt was varied from 18 to 36 nF. The energy transferred to the capacitor bank reached 0.38 J. FMGs provided pulsed powers of 35-45 kW in times ranging from 10 to 15 ýs. Computer codes were developed to digitally simulate the operation of the transverse FMG in the charging mode. ...
An analytical model of the operation of recently invented ultracompact explosive-driven shock-wave f...
A new concept for compact autonomous completely explosive pulsed power systems is presented. This co...
Systematic experimental studies and digital modeling of a two-stage, compact, completely explosive p...
Novel explosive and conventional pulsed-power technologies were combined, and a series of explosive-...
The design and performance of a compact autonomous completely explosive pulsed power system based on...
Comprehensive studies of explosively driven ferromagnetic generators (FMGs) have been performed. It ...
Ultracompact explosive-driven shock wave ferroelectric generators (FEGs) were used as autonomous pri...
A new concept for constructing compact autonomous pulsed power systems is presented. This concept ut...
A new application of the effect of transverse-shock-wave demagnetization of Nd2Fe14B high-energy har...
We have demonstrated the feasibility of charging a capacitor bank to a high voltage using an autonom...
Results of the investigation of the operation of autonomous ultracompact explosive-driven high-volta...
Investigations of the magnetic phase state of Nd2Fe14B high-energy hard ferromagnets under the actio...
A new design idea for a compact, autonomous, completely explosive pulsed power system is proposed. T...
A conventional pulsed power technology has been combined with an explosive pulsed power technology t...
Completely explosive pulsed power mini-systems based on the transverse shock wave ferromagnetic gene...
An analytical model of the operation of recently invented ultracompact explosive-driven shock-wave f...
A new concept for compact autonomous completely explosive pulsed power systems is presented. This co...
Systematic experimental studies and digital modeling of a two-stage, compact, completely explosive p...
Novel explosive and conventional pulsed-power technologies were combined, and a series of explosive-...
The design and performance of a compact autonomous completely explosive pulsed power system based on...
Comprehensive studies of explosively driven ferromagnetic generators (FMGs) have been performed. It ...
Ultracompact explosive-driven shock wave ferroelectric generators (FEGs) were used as autonomous pri...
A new concept for constructing compact autonomous pulsed power systems is presented. This concept ut...
A new application of the effect of transverse-shock-wave demagnetization of Nd2Fe14B high-energy har...
We have demonstrated the feasibility of charging a capacitor bank to a high voltage using an autonom...
Results of the investigation of the operation of autonomous ultracompact explosive-driven high-volta...
Investigations of the magnetic phase state of Nd2Fe14B high-energy hard ferromagnets under the actio...
A new design idea for a compact, autonomous, completely explosive pulsed power system is proposed. T...
A conventional pulsed power technology has been combined with an explosive pulsed power technology t...
Completely explosive pulsed power mini-systems based on the transverse shock wave ferromagnetic gene...
An analytical model of the operation of recently invented ultracompact explosive-driven shock-wave f...
A new concept for compact autonomous completely explosive pulsed power systems is presented. This co...
Systematic experimental studies and digital modeling of a two-stage, compact, completely explosive p...