Zeng Ming Feng scite author profile

Zeng Ming Feng

3Publications

1Citation Statement Received

0Citation Statements Given

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Affiliations

Jilin Medical University, Jilin University

Publications

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Kinetic and Dynamic Characteristics Analysis of Timing Chain System for Diesel Engine

Feng

Wang

et al. 2014

AMM

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Kinetic characteristics of chain drive system were investigated in this paper and some corresponding mathematical models were established. In accordance with the theory of chain drive, based on the multi-body dynamics software platform, a dynamic analysis model of timing bushing chain system for diesel engine was established. Chain tension force, chain contact force and chain fluctuation in a rotation cycle at different running speeds were analyzed. By analysis and evaluation these results, the kinematic and dynamic characteristics of the chain drive system during the operation could be effectively recognized, this research results can provide a basis for production tests.

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Forming 3D Sheet Metals by Means of Continuous Rolling Method

Gong

et al. 2009

AMM

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In this paper, we present a novel method of using the continuous rolling to fabricate three-dimensional sheet metal. The core bendable roller is composed of the flexible axis and the controllable equipment. The transversal shape of the sheet metal can be realized by regulating the controllable equipment to make the axis of bendable roller bent; the longitudinal shape is formed by driving the three bendable rollers rotated and the top roller making a displacement synchronously. Some experiments were performed and typical 3D surface parts were formed. Based on the results of the experiments, the effects of the thickness and the rolling times are discussed. The results of the research will be beneficial to define the parameters and perfect the theory of continuous multipoint forming of multiform 3D parts.

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Analysis of Flexible Roller Parameters Influences on Roll Forming of Three-Dimensional Parts

Zhen

Feng

et al. 2014

AMR

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Roll forming is a well known bending process and sheet metals can only be machined into two-dimensional surfaces in traditional roll forming. While with more and more personalized demands, three-dimensional surfaces are widely required. Thus, flexible rollers are used to achieve three-dimensional surfaces. And in order to optimize experimental parameters and to predict experimental results, finite element method (FEM) is developed. In this paper the set-up of flexible roll-forming is described and the process of roll forming is simulated. Then the influences of forming parameters, such as the thickness and the roll velocity, on forming quality of the sheet metal in roll forming process are discussed. The results show that the analysis of flexible roller parameters is practical for the continuous and efficient forming of three-dimensional surfaces.

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Zeng Ming Feng

Kinetic and Dynamic Characteristics Analysis of Timing Chain System for Diesel Engine

Forming 3D Sheet Metals by Means of Continuous Rolling Method

Analysis of Flexible Roller Parameters Influences on Roll Forming of Three-Dimensional Parts

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