The Experts below are selected from a list of 4083 Experts worldwide ranked by ideXlab platform
Xiao Yongjun - One of the best experts on this subject based on the ideXlab platform.
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Development of Rotary Ultrasonic Grinding Equipment
Manufacturing Technology & Machine Tool, 2007Co-Authors: Xiao YongjunAbstract:On the basis of introduction of the principles and the technical characteristic of rotary ultrasonic Grinding, this paper details the design of the Rotary Ultrasonic Grinding Equipment. This Grinding Equipment can be mounted on available machine tools, and is suitable for Grinding difficult-to-machine materials such as ZrO_2 and Al_2O_3while equipping with certain control system.
Liu Rui - One of the best experts on this subject based on the ideXlab platform.
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The Development of a New Rotary Ultrasonic Grinding Equipment
Mechanical Engineer, 2007Co-Authors: Liu RuiAbstract:On the basis of introduction of the principles and the technical characteristic of rotary ultrasonic Grinding,this paper details the design of the Rotary Ultrasonic Grinding Equipment. This Grinding Equipment can be mounted on the right machine tools,and is suitable for machining the difficult-to-machine material with equipped some control system.
Sun Cheng-lin - One of the best experts on this subject based on the ideXlab platform.
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Market space of superfine Grinding Equipment
Industrial Minerals and Processing, 2007Co-Authors: Sun Cheng-linAbstract:On the basis of introducing development status of non-metallic mines industry in China and the significance of studying superfine Grinding technologies, the market space of superfine Grinding Equipment in China was discussed. It will provide useful reference for the manufacturers of superfine Grinding Equipment.
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Current Status and Problem of Ultra-fine Grinding and Classification
Sulphur Phosphorus & Bulk Materials Handling Related Engineering, 2002Co-Authors: Sun Cheng-linAbstract:Although great progress has been made in the development of ultra-fine Grinding and classification technology in recent years,there are some problems which need to be solved.Despite that the ultra-fine Grinding technology concerns with many industries,the classification for its particle size remains uncertain.Through study and market survey,the current status of ultra-fine Grinding Equipment has been analyzed,and the wet and dry classification technology for ultra-fine materials has been overall introduced.The proposal for development of ultra-fine Grinding and classification technology has been brought forward.
Yu Qi Wang - One of the best experts on this subject based on the ideXlab platform.
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The Dynamic Simulation of Vertical Planetary Wheel Sand Reclamation Equipment Based on ADAMS
Applied Mechanics and Materials, 2013Co-Authors: Yu Qi Wang, Yun Hua Zhang, Guan Yu LiuAbstract:Vertical planetary mill is a kind of efficient Grinding Equipment. Due to its unique design, the materials can suffer combined effects of squeezing, shearing and Grinding. this paper developed the virtual prototype of vertical planetary Grinding wheel sand reclamation Equipment based on virtual prototyping technology, and did the dynamic simulation with this virtual prototype. It will use ADAMS to do the dynamic simulation, and it can provide reference price for staff.
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Vertical Planetary Wheel Sand Reclamation Equipment Design and Modeling Based on Solid Edge
Applied Mechanics and Materials, 2012Co-Authors: Yu Qi WangAbstract:Vertical planetary mill is a kind of efficient Grinding Equipment. Due to its unique design, the materials can suffer combined effects of squeezing, shearing and Grinding.[1] This paper study the feasibility of the usage of the vertical planetary mill in the field of foundry sand reclamation. It will use Solid Edge to Design and modeling, and it can provide reference price for staff.
Owen F. Devereux - One of the best experts on this subject based on the ideXlab platform.
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Coolant pH control for optimum ceramic Grinding Part II Influence of the rebinder effect on the surface Grinding of aluminum oxide
Journal of Materials Science, 2003Co-Authors: David W. Alley, Owen F. DevereuxAbstract:Variations in the Grinding (machining) properties of aluminum oxide attributable to the Rebinder effect, an environment-caused variation in the hardness of rock, ceramic, or glass, were investigated using conventional surface Grinding Equipment. Systematic variation in normal force, tangential force, roughness average, waviness average, and post Grinding flexural strength were attributable to the Grinding condition (coarse or fine) and the pH of the coolant. Observations in this study are consistent with a ductile/brittle Grinding transition for fine Grinding, a brittle/brittle Grinding transition for coarse Grinding and pH control of plastic deformation.
