The influences of electric field and temperature on properties of strong-coupling bound megnetpolaron in parabolic quantum wires were studied by using the linear combination operator and the unitary transformation methods. The relations of the ground state energy, mean number of megnetphonon and vibrational frequency in parabolic quantum wires with the confinement strength, cyclotron resonance frequency and electric field were calculated. The numerical results show that the ground state energy increases with the confinement strength, cyclotron resonance frequency and electric field, however, it decreases with increasing of temperature and the coupling strength. The mean number of phonon is an increasing function of the temperature and confinement strength and cyclotron resonance frequency. The variation frequency increases with increasing of the cyclotron resonance frequency and confinement strength.