Abstract: The closed hot precision forging process of a bevel gear with large cone angle was studied. According to the structure features of the bevel gear, two types of relief forging processes were proposed. First, simulations based on thermal-mechanical coupling finite element model were performed with Deform3D. Then the corresponding experiments were conducted and the results perfectly matched the simulation results. The advantages and deficiencies of two processes were discussed and a reliable basis for selecting the optimal process was proposed
In this paper, Finite Element method and full-scale experiments have been used to study a hot forgin...
A theoretical model is presented in the paper for predicting involute profile deflection in hot prec...
Hot radial forging is used to reduce porosity and increase strength for large-diameter billets. The ...
This paper took the lead in applying isothermal forging technology to form a spur bevel gear in a si...
In this paper, a hot forging die set is designed for a shaft gear. A finite element software DEFORM ...
Straight bevel gears are an essential component of mechanical transmissions; they are widely used in...
There is a strong need in forging industry to reduce waste of material, improve quality, and reduce ...
There exist some metallurgical defects, such as voids, microcracks, loose structure, etc., in the co...
A nonlinear coupled finite element model is developed to predict the behavior of large diameter tube...
During cold precision forging of helical gears, the die experiences high forming pressure resulting ...
Two ideas for crowning of tooth surface to obtain point contact for forging gears are proposed. The ...
Hot forging is a metal forming process widely used in the industry. Among the many advantages are th...
Shrink fitting of forging mold (SFFM) is an effective method for improving mold strength, extending ...
We propose a forging method for forgings, which implies the upsetting of workpieces with concave fac...
In hot forging industry, the process design and the billet size determination are very crucial steps...
In this paper, Finite Element method and full-scale experiments have been used to study a hot forgin...
A theoretical model is presented in the paper for predicting involute profile deflection in hot prec...
Hot radial forging is used to reduce porosity and increase strength for large-diameter billets. The ...
This paper took the lead in applying isothermal forging technology to form a spur bevel gear in a si...
In this paper, a hot forging die set is designed for a shaft gear. A finite element software DEFORM ...
Straight bevel gears are an essential component of mechanical transmissions; they are widely used in...
There is a strong need in forging industry to reduce waste of material, improve quality, and reduce ...
There exist some metallurgical defects, such as voids, microcracks, loose structure, etc., in the co...
A nonlinear coupled finite element model is developed to predict the behavior of large diameter tube...
During cold precision forging of helical gears, the die experiences high forming pressure resulting ...
Two ideas for crowning of tooth surface to obtain point contact for forging gears are proposed. The ...
Hot forging is a metal forming process widely used in the industry. Among the many advantages are th...
Shrink fitting of forging mold (SFFM) is an effective method for improving mold strength, extending ...
We propose a forging method for forgings, which implies the upsetting of workpieces with concave fac...
In hot forging industry, the process design and the billet size determination are very crucial steps...
In this paper, Finite Element method and full-scale experiments have been used to study a hot forgin...
A theoretical model is presented in the paper for predicting involute profile deflection in hot prec...
Hot radial forging is used to reduce porosity and increase strength for large-diameter billets. The ...