On the base of the causes of the rotor's unbalanced vibration, the rigid rotor mathematic model was established to analyze the vibration form of a rigid rotor under unbalance inertia force. The principle of the influence coefficient method had been presented, and the principle of the cross-correlation method to extract the fundamental frequency signal of unbalance vibration was introduced. The process of conducting 1-plane and 2-plane dynamic balancing were described in detail. The method was found to be effective and practical. Finally through examples testify, it verified the feasibility of the rigid rotor dynamic balancing with the influence coefficient method
AbstractWhen measurement rotating speed exceeds 0.3 times natural frequency, the SNR of vibration si...
Rotor dynamic balancing is a classical problem. Traditional balancing methods such as the influence ...
The practical aspects of balancing real, flexible rotors were investigated through inclusion of roto...
This paper presents the influence coefficient method of determining the locations of unbalances on a...
Abstract Several sophisticated procedures for balancing flexible rotors have been developed during t...
Unbalance effect on rotating element is a condition resulted from an off centered mass concentration...
The most common cause of the excessive vibration in rotating machines is the rotor mass unbalance. I...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
Unbalance is the most common source of vibration in machines with rotating parts. Unbalance in rotor...
In industrial field, one of the most important practical problems of rotating machinery concerns rot...
Experimental tests were conducted to demonstrate the ability of the influence coefficient method to ...
This article reviews the literature concerning the balancing of rotors including the origins of vari...
The unbalance present in the rotor gives rise to a synchronous unbalance force in the rotor. To mini...
The need to devise a low-speed balancing method for balancing high-speed rotors was recognized and a...
Balancing of flexible rotor with bow using transfer matrix method MB Deepthikumar1, AS Sekhar2 and M...
AbstractWhen measurement rotating speed exceeds 0.3 times natural frequency, the SNR of vibration si...
Rotor dynamic balancing is a classical problem. Traditional balancing methods such as the influence ...
The practical aspects of balancing real, flexible rotors were investigated through inclusion of roto...
This paper presents the influence coefficient method of determining the locations of unbalances on a...
Abstract Several sophisticated procedures for balancing flexible rotors have been developed during t...
Unbalance effect on rotating element is a condition resulted from an off centered mass concentration...
The most common cause of the excessive vibration in rotating machines is the rotor mass unbalance. I...
Several researchers have proposed many methods for balancing the rotor to reduce the machine vibrati...
Unbalance is the most common source of vibration in machines with rotating parts. Unbalance in rotor...
In industrial field, one of the most important practical problems of rotating machinery concerns rot...
Experimental tests were conducted to demonstrate the ability of the influence coefficient method to ...
This article reviews the literature concerning the balancing of rotors including the origins of vari...
The unbalance present in the rotor gives rise to a synchronous unbalance force in the rotor. To mini...
The need to devise a low-speed balancing method for balancing high-speed rotors was recognized and a...
Balancing of flexible rotor with bow using transfer matrix method MB Deepthikumar1, AS Sekhar2 and M...
AbstractWhen measurement rotating speed exceeds 0.3 times natural frequency, the SNR of vibration si...
Rotor dynamic balancing is a classical problem. Traditional balancing methods such as the influence ...
The practical aspects of balancing real, flexible rotors were investigated through inclusion of roto...