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The theoretical and experimental investigation into technological parameters of high-melting metal a
Analytical and experimental investigations into material removal mechanism of abrasive jet precision
Analysis of static and dynamic stiffness for coupled double-rotor spindle system of high speed grind
Evaluation of the dynamic characteristics of coupled double-rotor spindle system in high speed grind
Modeling and Experimental Investigation of Pressure Field in the Grinding Zone with Nanoparticle Jet
Investigation into Engineering Ceramics Grinding Mechanism and the Influential Factors of the Grindi
Modeling the operation of a common grinding wheel with nanoparticle jet flow minimal quantity lubric
Experimental Verification of Nano-Particle Jet Minimum Quantity Lubrication Effectiveness in Grindin
Simulation Study on Effect of Cutting Parameters and Cooling Mode on Bone-drilling Temperature Field
Experimental Evaluation of the Lubrication Performance of MoS2/CNT Nanofluid for Minimal Quantity Lu
Technological Investigation about Minimum Quantity Lubrication Grinding Metallic Material with Nanof
Investigation into the Formation Mechanism and Distribution Characteristics of Suspended Micropartic
Experimental Study on Generation Mechanism and Influencing Factors of Metal Machining Fluid Oil Mist
Investigation on the Grinding Temperature Field of Nano-ZrO2 Dental Ceramics with a Nanoparticle Jet
Modeling and Simulation of the Single Grain Grinding Process of the Nano-particle Jet Flow of Minima
Experimental research on the energy ratio coefficient and specific grinding energy in nanoparticle j
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