New Kinematic Systems in Single-Sided Lapping and their Influence on Lap Wear

Adam Barylski; Norbert Piotrowski

doi:10.4028/www.scientific.net/AMM.831.14

Paper Titles

Preface

AQUASONIC – A Sounding Rocket Based on Hybrid Propulsion
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New Kinematic Systems in Single-Sided Lapping and their Influence on Lap Wear
p.14

Microgrinding with Diamond Electroplated Tools and with Single-Disk Lapping Kinematics
p.25

Evaluation of Applying Heuristic Algorithm to Solve Inverse Heat Conduction Problem in Temperature Oscillation IR Thermography Method
p.33

Failure Modeling of Hybrid Transition Structures
p.44

Proportional-Derivative and Model-Based Controllers for Control of a Variable Mass Manipulator
p.54

Distribution of the Mechanical Properties of a Complexly Deformed Component of Low Carbon Steel Influenced by Post-Heat Treatment
p.63

Development and Testing of Air Foil Bearing System for an Automotive Exhaust Gas Turbocharger
p.71

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 831New Kinematic Systems in Single-Sided Lapping and...

New Kinematic Systems in Single-Sided Lapping and their Influence on Lap Wear

Abstract:

Previous studies on one-sided lapping allow to state that not only parameters of lapping elements (i.e. properties of workpiece, abrasive grains and lapping plate) impact on a lapping efficiency. Influential are also kinematics and dynamics of the process. It is crucial to control an average velocity of lapping (v), a distribution of tangential acceleration (at), a nominal pressure (p), a lapping time (t) and disposal of workpiece in separator.Based on kinematics equations and the tribological models, the dimensionless distribution of the material removal volume and the trajectories of abrasive grains cutting on the lap were numerically simulated. Obtained information about excessive wear on lapping plate was the starting point to work out non-standard, single-plate lapping systems.In this paper ideas of unconventional lapping systems were presented. After numerous simulations and careful analysis it was observed, that the most desirable system is radial lapping system. It was point out that other systems are not very different from the standard kinematic system. Generated trajectories of an abrasive grain were almost identical. What is more, effects of kinematical parameters on the trajectories, velocities and accelerations observed in radial lapping system are shown.

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Periodical:

Applied Mechanics and Materials (Volume 831)

Pages:

14-24

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.831.14

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Online since:

April 2016

Authors:

Adam Barylski, Norbert Piotrowski*

Keywords:

Abrasive Machining, Lapping Kinematics, Material Removing Rate, Single-Plate Lapping Machines

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* - Corresponding Author

References

[1] E. Uhlmann, T. Ardelt, G. Spur: Influence of kinematics on the face grinding process on lapping machines, Ann CIRP 48(1), 1999, pp.281-284.

DOI: 10.1016/s0007-8506(07)63184-9

Google Scholar

[2] A. Barylski: Podstawy docierania jednotarczowego powierzchni płaskich. Zeszyty Naukowe Politechniki Gdańskiej, Mechanika nr 67, Gdańsk, (1992).

Google Scholar

[3] J. Kling, E. Mathias: Workpiece material removal and Lapping Wheel Wear in Plane and Plane-Parallel Lapping. Ann CIRP, Vol. 35, nr 1, 1986, pp.219-222.

DOI: 10.1016/s0007-8506(07)61874-5

Google Scholar

[4] A. Barylski, M. Deja: Evaluation and simulation of the profile wear of the lap in plane lapping. 4th Seminar on Finishing Machining, Gdańsk 1998, pp.7-14.

Google Scholar

[5] I.D. Marinescu, E. Uhlmann, T. Doi: Handbook of Lapping and Polishing. Taylor & Francis Publishing House, (2007).

Google Scholar

[6] L.S. Deshpande, S. Raman, O. Sunanta, C. Agbaraji: Observations in the Flat Lapping of Stainless Steel and Bronze. Wear, Vol. 256(1-2), 2008, pp.105-116.

DOI: 10.1016/j.wear.2007.09.004

Google Scholar

[7] J. Evans, E. Paul, D. Dornfeld, D. Lucca, G. Byrne, M. Tricard, F. Klocke, O. Dambon, B. Mullany: Material Removal Mechanisms in Lapping and Polishing. STC G, Keynote, CIRP Annals, 52, 2, pp.611-633.

DOI: 10.1016/s0007-8506(07)60207-8

Google Scholar

[8] A. Barylski: Teoretyczna analiza zużycia docieraka docierarki jednotarczowej, Archiwum Technologii Budowy Maszyn nr 7, Poznań (1988).

Google Scholar

[9] P.P. Hed: Calculations of material removal, removal rate, and Preston coefficient in continuous lapping/polishing machines, Lawrence Livermore National Lab., CA. Raport No W-7405-EN6-48, (1993).

DOI: 10.2172/10193440

Google Scholar

[10] F. Preston: The theory and design of plate glass polishing machines．J Soc Glass Tech, Vol. 11, 1927, p.214.

Google Scholar

[11] L. Téllez-Arriaga, A. Cordero-Dávila, C. Ignacio Robledo-Sánchez, J. Cuautle-Cortés: Correction of the Preston equation for low speeds. Applied Optics, Vol. 46(9), pp.1408-1410.

DOI: 10.1364/ao.46.001408

Google Scholar

[12] W.T. Tseng: Comparative Study on the Roles of Velocity in the Material Removal Rate during Chemical Mechanical Polishing. Journal of the Electrochemical Society, Vol. 146(5), 1999, p.1952-(1959).

DOI: 10.1149/1.1391872

Google Scholar

[13] A.W. Stahli: The technique of lapping, Pieterlen/Biel, (2013).

Google Scholar

[14] N. Piotrowski, A. Barylski: Koncepcje niekonwencjonalnych układów kinematycznych docierania jednotarczowego z wykorzystaniem robota, Mechanik, Vol. 78, nr. 8-9, 2014, pp.36-33.

Google Scholar