The Experts below are selected from a list of 54 Experts worldwide ranked by ideXlab platform
Milton C Shaw - One of the best experts on this subject based on the ideXlab platform.
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principles of Abrasive Processing
1996Co-Authors: Milton C ShawAbstract:1. Introduction 2. Abrasive tools 3. Single grit performance 4. Form and finish grinding mechanics 5. Form and finish grinding performance 6. Abrasive cut-off 7. Conditioning of slabs and billets 8. Vertical spindle surface grinding 9. Grinding temperatures 10. Surface integrity 11. Wheel life 12. The grinding environment 13. Special processes 14. Hard work materials 15. Precision finishing Index
Tian Chunlin - One of the best experts on this subject based on the ideXlab platform.
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A method of variable speed control about high-speed lapping machine based on DELPHI language
Machinery Design and Manufacture, 2020Co-Authors: Tian ChunlinAbstract:By solid Abrasive Processing technology research,it presents a control method about solid Abrasives high-speed lapping and lapping speed control technology by controlling the relative motion between the lapping tool and the workpiece speed,and it improves accuracy and efficiency in the whole process.Use information Processing capability of the computer by DEHPHI language,achieves the variable speed control for the high-speed lapping machine which through the serial-port communication between the converter and the high-speed lapping machine.
Wu Ha - One of the best experts on this subject based on the ideXlab platform.
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Influences of Magnetic Abrasive Processing on the Surface Morphology of 440c Stainless Steel
Plating and Finishing, 2020Co-Authors: Wu HaAbstract:Based on magnetic Abrasive finishing,440 c stainless steel was finished by Al2O3 spherical Abrasive produced by gas atomization. By orthogonal experiment design,the workpieces were processed using Abrasives with different particle sizes to optimize machining parameters. Results showed that the optimized machining parameters were: S( Spindle speeds) of 2 500 r / min,δ( working gap) of 1. 5 mm,f( feed rate) of 60 mm / min,t( the amount of the Abrasive) of 2. 0 g. The original microscopic surface morphology and micro texture of workpieces could be improved. The original surface roughness was reduced from0. 450 μm to 0. 043 μm and a surface roughness of mirror face level was achieved. It was indicated that440 c stainless steel could be perfectly finished by using magnetic Abrasive finishing,also it 's fatigue strength and corrosion resistance could be improved in various degrees.
Li Xiao-hong - One of the best experts on this subject based on the ideXlab platform.
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Effects of Grinding, Lapping and Cloud Bursting on Martensitic Stainless Steel's Fatigue Strength
Journal of Changzhou Vocational College of Information Technology, 2020Co-Authors: Li Xiao-hongAbstract:Grinding. Abrasive Processing and cloud bursting were conducted separately after intensifying heat treatment of martensitic stainless steel (2Cr 13)plates.The various factors. Such as superficial layer's hardness.residual stress of superficial layer.and surface roughness.that affect the fatigue strength were studied. Experiments indicated that decreasing the surface roughness(Ra)and raising the residual stress of superficial layer are the effective methods for prolonging service life of stainless steel(2Cr 13).
Xiao Feng Ning - One of the best experts on this subject based on the ideXlab platform.
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effect of Abrasive Processing in the milling process on the quality of rice
Journal of Biosystems Engineering, 2010Co-Authors: Taehwann Kang, Xiao Feng NingAbstract:This study was conducted to investigate the effect of Abrasive Processing and non Abrasive Processing in the milling process on the quality of rice. The effect was analyzed based on the factor such as whiteness, grain temperature, moisture content, crack and broken rice ratio. The results were as followings. Whiteness of Abrasive rice was the same as non Abrasive rice. The rice temperature increase of Abrasive rice was lower than non Abrasive rice. The crack ratio was increased in the process of milling and non Abrasive rice showed higher values than Abrasive rice. The broken rice ratio of the using Abrasive Processing was about 0.05% lower than that of non Abrasive Processing. The moisture content decreased in the process of milling regardless of the use Abrasive rice milling machine.