Optimization of surface roughness on slitting knives by titanium dioxide nano particles as an additive in grinding lubricant

An experimental design to optimize machining surface roughness measured by R a is developed in this paper. The objective is to develop a grinding lubricant containing nano particles as the main additive. A study of the influence of titanium dioxide ( T i O 2 ) nano particles in surface roughness mea...

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Bibliographic Details
Published in:International journal of advanced manufacturing technology 2018-06, Vol.96 (9-12), p.4111-4121
Main Authors: García, Gilberto E., Trigos, Federico, Maldonado-Cortés, Demófilo, Peña-Parás, Laura
Format: Article
Language:English
Subjects:
CAE) and Design
Computer-Aided Engineering (CAD
Cutlery
Cutting tools
Design of experiments
Design optimization
Engineering
Feed rate
Grinding
Grinding machines
Industrial and Production Engineering
Knives
Lubricants
Machine shops
Machining
Mechanical Engineering
Media Management
Nanoparticles
Original Article
Response surface methodology
Slitting
Statistical analysis
Steel products
Surface properties
Surface roughness
Titanium
Titanium dioxide
Weight
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Summary:An experimental design to optimize machining surface roughness measured by R a is developed in this paper. The objective is to develop a grinding lubricant containing nano particles as the main additive. A study of the influence of titanium dioxide ( T i O 2 ) nano particles in surface roughness measured on cutting tool applications for the metal-mechanic industry (with illustration on slitting knives) is performed. Literature shows that a concentration of nano particles less or equal than 0.1% in weight has a significant influence. A response surface statistical analysis with control variables: concentration of nano particle, and manufacturing variables as spindle speed and feed rate on grinding machines were included. The analysis on slitting knives determines that spindle speed and feed rate have not significant influence on the surface quality, meanwhile the nano particles weight percentage in the oil-based lubricant was the only significant influence in the study. Response surface methodology leads to the best nano particle proportion making a significant improvement on the value of R a , from 0.9449 (for lubricant with no nano particles) to R a of 0.2805 with the best nano particle weight proportion of 0.055%, an almost 69 % improvement on the response. Since the metal-mechanic industry is intensive in cutting processes, which is fundamental for industrial steel product transformation, this study opens the way to analyze another cutting tools that can be benefited from other nano particle types and concentrations.
ISSN:0268-3768
1433-3015
DOI:10.1007/s00170-018-1834-z