Publications
1. Chandrasekar, S. and Shaw, M. C., “Cutting Fluid Performance in Fine Grinding,” Wear, Vol. 86, 1983, pp. 139-149.
2. Chandrasekar, S., Shaw, M. C. and Bhushan, B., “The Influence of Finishing Technique on the Performance of Magnetic Recording Head Materials,” in “Tribology and Mechanics of Magnetic Storage Systems,” Trans. American Soc. Lubrication Engrs. (ASLE), Special Publication - 21, 1986, pp. 38-41.
3. Lapping of Ferrites and Metals,” Trans. ASME Journal of Engineering for Industry, Vol. 109, 1987, pp. 76-82.
4. Chandrasekar, S., Shaw, M. C. and Bhushan, B., “Morphology of Ground and Lapped Surfaces of Ferrites and Metals,” Trans. ASME Journal of Engineering for Industry, Vol. 109, 1987, pp. 83-86.
5. Chandrasekar, S. and Sathyanarayanan, G., “An Investigation Into the Mechanics of Diamond Grinding of Brittle Materials,” Transactions of NAMRI, SME, Vol. 15, 1987, p. 499-505.
6. Johnson, W., Chandrasekar, S. and Chu, C. N., “Plastic Torsion of Prismatic Metal Bars,” Journal of Mechanical Working Technology, Vol. 16, 1988, pp. 79-92.
7. Chandrasekar, S. and Bhushan, B., “Control of Surface Finishing Residual Stresses in Magnetic Recording Head Materials,” Trans. ASME Journal of Tribology, Vol. 110, 1988, pp. 87-92.
8. Chandrasekar, S. and Shaw, M. C., “Precision Crack-off of Brittle Materials,” Trans. ASME Journal of Engineering for Industry, Vol. 11, 1988, pp. 187-191.
9. Samuel, T., Chandrasekar, S., Farris, T. N. and Licht, R. H., “The Effect of Residual Stresses on the Fracture of Ground Ceramics,” Journal of the American Ceramic Society, Vol. 72-10, 1989, pp. 1960-1966.
10. Farris, T.N. and Chandrasekar, S., “On the Characterization and Control of Surface Finishing Damage in Ceramics,” Journal of Mechanical Working Technology, Vol. 20, 1989, pp. 69-78.
11. Chandrasekar, S. and Santhanam, S., “A Calculation of the Bulk Modulus of Polycrystalline Materials,” Journal of Materials Science, Vol. 24, 1989, pp. 4265-67.
12. Chandrasekar, S., Kokini, K. and Bhushan, B., “Influence of Abrasive Properties on Residual Stresses in Lapped Ferrite and Alumina,” Journal of the American Ceramic Society, Vol. 73-7, 1990, pp. 1907-1911.
13. Abhyankar, S. S., Chandrasekar, S. and Chandru, V., “Improper Intersection of Algebraic Curves,” Association for Computing Machinery (ACM) Transactions in Computer Graphics, Vol. 9-2, 1990, pp. 147-159.
14. Johnson, W. and Chandrasekar, S., “Forming Holes in Brittle Materials: An Antique Technique and its Report by Charles Babbage (1792-1871),” Journal of Materials Processing Technology, Vol. 21, 1990, pp. 43-50.
15. Chandrasekar, S., Farris, T. N. and Bhushan, B., “Grinding Temperatures for Magnetic Ceramics and Steel,” Trans. ASME Journal of Tribology, Vol. 112-3, 1990, pp. 535-541.
16. Chandrasekar, S., Wang, S. and Yang, H. T. Y., “An Efficient 2-D Finite Element Procedure for Isothermal Phase Changes.” Trans. ASME Journal of Engineering for Industry, Vol. 112-4, 1990, pp. 352-360.
17. Chandrasekar, S. and Bhushan, B., “Friction and Wear of Ceramics for Magnetic Recording Applications Part 1: A Review,” Trans. ASME Journal of Tribology, Vol. 112-1, 1990, pp. 1-17.
18. Farris, T. N. and Chandrasekar, S., “High Speed Sliding Indentation of Ceramics: Thermal Effects,” Journal of Materials Science, Vol. 25, 1990, pp. 4047-4053.
19. Johnson, W. and Chandrasekar, S., “Voltaire's Contribution to the Spread of Newtonianism – I. Letters from England,” International Journal of Mechanical Sciences, Vol. 32-5, 1990, pp. 423-453.
20. Johnson, W. and Chandrasekar, S., “Voltaire's Contribution to the Spread of Newtonianism - II. The Elements,” International Journal of Mechanical Sciences, Vol. 32-6, 1990, pp. 521-546.
21. Chen, S. Y., Farris, T. N. and Chandrasekar, S., “Sliding Microindentation Fracture of Brittle Materials,” Society of Tribologists and Lubrication Engineers (STLE) Tribology Transactions, Vol. 34-2, 1991, pp. 161-168.
22. Abhyankar, S. S., Chandrasekar, S. and Chandru, V., “Intersections of Algebraic Space Curves,” Discrete Applied Mathematics, Vol. 31, 1991, pp. 81-96.
23. Chandrasekar, S. and Bhushan, B., “Friction and Wear of Ceramics for Magnetic Recording Applications Part 2: Friction Measurements,” Trans. ASME Journal of Tribology, Vol. 113-2, 1991, pp. 313-317.
24. Chandrasekar, S., Farris, T.N., Shaw, M.C. and Bhushan, B., “Surface Finishing Processes for Magnetic Recording Head Ceramics,” Trans. ASME Journal Advances in Information Storage Systems, Vol. 1, 1991, pp. 353-373.
25. Johnson, W. and Chandrasekar, S., “Rupert's Drops: Residual Stress Measurements and Calculations and Hypothesis for Explaining Disintegrating Fracture,” Journal of Materials Processing Technology, Vol. 31, 1991, pp. 413-440.
26. Chandrasekar, S. and Bhushan, B., “The Role of Environment in the Friction of Diamond for Magnetic Recording Applications,” Wear, Vol. 150, 1992, pp. 79-89.
27. Santhanam, S. and Chandrasekar, S., “Internal Pressure Test for Characterizing Fast Fracture Reliability of Grinding Wheels,” Journal of Materials Science, Vol. 27, No. 14, 1992, pp. 3719-3725.
28. Hebbar, R., Chandrasekar, S. and Farris, T.N. “Ceramic Grinding Temperatures,” Journal of the American Ceramic Society, Vol. 75, No. 10, 1992, pp. 2742-2748.
29. Johnson, W. and Chandrasekar, S., “Volcanic Bombs,” International Journal of Impact Engineering, Vol. 12-3, 1992, pp. 459-468.
30. Wang, K. F., Chandrasekar, S. and Yang, H. T. Y., “Finite Element Simulation of Induction Heat Treatment and Quenching of Steels,” Transactions NAMRI/SME, Vol. 20, 1992, p. 83-91.
31. Wang, K. F., Chandrasekar, S. and Yang, H. T. Y., “Finite Element Simulation of Induction Heat Treatment,” ASM Journal of Materials Engineering and Performance, Vol. 1-1, 1992, pp. 97-113.
32. Chandrasekar, S. and Chaudhri, M. M., “Indentation Cracking in Soda-Lime Glass and Ni-Zn Ferrite Under Knoop and Conical Indenters and Residual Stress Measurements,” Philosophical Magazine, Vol. 67-5, 1993, pp. 1187-1218.
33. Wang, K. F., Chandrasekar, S. and Yang, H. T. Y., “An Efficient 2-D Finite Element Procedure for Quenching Analysis with Phase Change,” Trans. ASME Journal of Engineering for Industry, Vol. 115-1, 1993, pp. 124-138.
34. Chauhan, R., Ahn, Y., Chandrasekar, S. and Farris, T. N., “The Role of Indentation Fracture in the Free Abrasive Machining of Ceramics,” Wear, Vol. 162-164, 1993, pp. 246-257.
35. Mann, J. B., Farris, T. N. and Chandrasekar, S., “Effects of Friction on Contact of Traverse Ground Surfaces,” Trans. ASME Journal of Tribology, Vol. 116-3, 1994, pp. 430-438.
36. Ahn, Y., Hebbar, R. R., Chandrasekar, S. and Farris, T. N., “Magnetic Damage in Mn-Zn and Ni-Zn Ferrites Induced by Abrasion,” Proceedings Leeds-Lyon Symposium on Tribology, Vol. 20, 1994.
37. Farris, T. N. and Chandrasekar, S., “Wear Mechanisms in Ceramic Machining,” Applied Mechanics Reviews, Vol. 47-6, Part 2, 1994, pp. 204-208.
38. Chandrasekar, S. and Chaudhri, M. M., “The Explosive Disintegration of Prince Rupert's Drops,” Philosophical Magazine B, Vol. 90-6, 1994, pp. 1195-1218. The paper was the subject of commentaries in Nature, New Scientist and Discover, and a BBC documentary. Also, it was selected as a classic and re-published in Science in the Making: Scientific Development as Chronicled by Historic Papers in the Philosophical Magazine (with commentaries and illustrations)), EA Davis (ed.), a 4-volume anthology (Taylor & Francis, 1999), to celebrate 200 years of the Philosophical Magazine (1798-1998).
39. Chen, S. Y., Farris, T. N. and Chandrasekar, S., “Contact Mechanics of Hertzian Cone Cracking,” International Journal of Solids and Structures, Vol. 32-3, 1995, pp. 329-340.
40. Wang, K.F., Chandrasekar, S. and Yang, H.T.Y., “Finite Element Simulation of Moving Induction Heat Treatment, ASME Journal of Materials Engineering and Performance, Vol. 44, 1995, pp. 460-474.
41. Madhavan, V., Farris, T.N., Chandrasekar, S. and Craig, L., “FEM Comparison of Ball and Roller Bull gears,” STLE Tribology Transactions, 39-2, 1996, pp. 286-295.
42. Ahn, Y., Chandrasekar, S. and Farris, T.N., “Determination of Residual Stresses in Machined Ceramics Using Indentation Fracture, Trans. ASME Journal of Manufacturing Science and Engineering, Vol. 118-4, 1996, pp. 483-489.
43. Woodard, P. R., Farris, T. N., Chandrasekar, S. and Yang, H. T. Y., “Effect of Cylinder Diameter on Quenching Induced Residual Stress,” Transactions of North American Manufacturing Research Institution/Society of Manufacturing Engineers, Vol. 24, 1996.
44. Hucker, S. A., Mann, J. B., Farris, T. N. and Chandrasekar, S., “Thermal Aspects of Grinding with Superabrasives, Part 1, Abrasives Engineering, Vol. 29-6, 1996, pp. 24-27.
45. Wang, K. F., Chandrasekar, S. and Yang, H. T. Y., “Experimental and Computational Study of the Quenching of Carbon Steel,” ASME Journal of Engineering for Industry, Vol. 119-3, 1997, pp. 257-265.
46. Bulsara, V. H., Ahn, Y., Chandrasekar, S., and Farris, T. N., “Polishing and Lapping Temperatures,” ASME Transactions Journal of Tribology, Vol. 119-1, 1997, pp. 163-170.
47. Mann, J.B., Farris, T.N. and Chandrasekar, S., “A Model for Grinding Burn,” SAE Transactions (SAE Paper 972247), 1997.
48. Hucker, S. A., Mann, J. B., Farris, T. N. and Chandrasekar, S., “Thermal Aspects of Grinding with Superabrasives, Part 2,” Abrasives, Vol. 30-1, 1997, pp. 5-11.
49. Chang, S. H., Balasubramhanya, S., Chandrasekar, S., Farris, T. N. and Hashimoto, F., “Forces and Specific Energy in Superfinishing of Hardened Steel,” Annals of CIRP, 46-1, 1997, pp. 257-260.
50. Chandrasekar, S. and Farris, T. N., “Machining and Surface Finishing of Brittle of Solids,” Sadhana, Indian Academy of Sciences Proc. In Engg. Sciences, 22- 3, 1997, pp. 473 - 481.
51. Toews, H. G., Compton, W. D. and Chandrasekar, S., “A Study of the Influence of Super-Imposed Low Frequency Modulation on the Drilling Process,” Precision Engg., 22-1, 1998, pp. 1-9.
52. Ahn, Y., Farris, T. N. and Chandrasekar, S., “Sliding Microindentation Fracture of Brittle Materials: Role of Elastic Stress Fields,” Mechanics of Materials, 29 (3-4), 1998, pp. 143-152.
53. Bulsara, V. H., Chandrasekar, S. and Farris, T. N., “Mechanics of Polishing,” ASME Journal of Applied Mechanics, 65-2, 1998, pp. 410-416.
54. Ju, Y., Farris, T.N. and Chandrasekar, S., “Theoretical Analysis of Heat Partition and Temperatures in Grinding,” ASME Journal of Tribology, 120-4, 1998, pp. 789-794.
55. Woodard, P. R., Chandrasekar, S. and Yang. H. T. Y., “Analysis of Temperature and Microstructure in the Quenching of Steel Cylinders,” Metallurgical and Material Transactions, 30B, 1999, pp. 815-821.
56. Ackroyd, B., Chandrasekar, S. and Compton, W. D., “High Speed Photographic Study of the Tool-Chip Interface in Machining,” Proceedings of the Leeds-Lyon Symposium on Tribology, Vol. 27, 1999, pp. 248-259.
57. Madhavan, V., Chandrasekar, S. and Farris, T. N., “Machining as a Wedge Indentation,” ASME Journal of Applied Mechanics, 67-1, 2000, pp. 128-139.
58. Chang, S. H., Farris, T. N. and Chandrasekar, S., “Contact Mechanics of Superfinishing,” ASME Journal of Tribology, 122-1, 2000, pp. 388-393.
59. Ramaswamy, D., Tucker, A., Olmez, A., Compton, W. D. and Chandrasekar, S., “A Study of the Effect of Process Parameters on Surface Finish of Drilled Holes,” Transactions of SME/NAMRI, Vol. 28, 2000, pp. 227-232.
60. Chhabra, P. N., Compton, W. D. and Chandrasekar, S., “Direct Measurement of Adhesion in Clean Metal-Metal Contacts,” Proc. Leeds-Lyon Symp. Trib., 28, 2000, pp. 69-77.
61. Ackroyd, B., Akcan, N. S., Chhabra, P. N., Krishnamurthy, K., Madhavan, V., Chandrasekar, S., Compton, W. D. and Farris, T. N., “Exploration of Contact Conditions in Machining,” Proc. I. Mech. Engrs. (U.K.), Series B, 215, 2001, pp. 493-507.
62. Moylan, S. P., Kompella, S., Chandrasekar, S. and Farris, T. N., “A Nano-Indentation Study of Thin Surface Layers Affected by Manufacturing Processes,” Proc. Leeds-Lyon Symp. Trib., 28, 2001, pp. 895-903.
63. Kompella, S., Farris, T. N. and Chandrasekar, S., “Techniques for Characterization of Grinding Wheel-Workpiece Combinations,” Proc. I. Mech. Engrs. (U.K.), Series B, 125, 2001, pp. 1385-1395.
64. Kompella, S., Moylan, S. P. and Chandrasekar, S., “Mechanical Properties of Thin Surface Layers Affected by Material Removal Processes, Surface and Coatings Technology, 146-147, 2001, pp. 384-390.
65. Akcan, S., Shah, S., Moylan, S. P., Chhabra, P. N., Chandrasekar, S. and Yang, H. T. Y., “Formation of White Layers in Steels by Machining and their Characteristics,” Metallurgical and Material Transactions, 33A, 2002, pp. 1245-1254.
66. Madhavan, V., Chandrasekar, S. and Farris, T. N., “Direct Observations of the Chip-Tool Interface in the Low Speed Cutting of Pure Metals,” ASME Journal of Tribology, 124(3), 2002, pp. 617-626.
67. Li, Z., Chandrasekar, S. and Yang, H. T. Y., “A Generalized Load-Penetration Relation for Sharp Indenters and the Indentation Size-Effect,” ASME Journal of Applied Mechanics, 69-3, 2002, pp. 394-397.
68. Li, Z., Cheng, Y.-T., Yang, H. T. Y. and Chandrasekar, S., “On Two Different Indentation Hardness Definitions,” Surface and Coatings Technology, 154, 2002, pp. 124-130.
69. Chhabra, P. N., Ackroyd, B., Compton, W. D. and Chandrasekar, S., “Low-Frequency Modulation-Assisted Drilling using Linear Drives,” Proc. I. Mech. Engrs. (U.K.), Series B, 216, 2002, pp. 321-330.
70. Brown, T. L., Swaminathan, S., Chandrasekar, S., Compton, W. D., King, A. H. and Trumble, K. P., “Low Cost Manufacturing Process for Nanostructured Metals and Alloys,” Journal of Materials Research, 17-10, 2002, pp. 2484-2488. (This paper was the subject of commentaries in magazines such as Science News, MRS Bulletin, Materials Today, Materials World, ASM International and Kiplinger.)
71. Ackroyd, B. A., Chandrasekar, S. and Compton, W. D., “A Model for the Contact Conditions at Chip-Tool Interface in Machining,” ASME Journal of Tribology, 125-3, 2003, pp. 649-660.
72. Hwang, J., Kompella, S., Chandrasekar, S. and Farris, T. N., “Measurement of Temperature Field in Surface Grinding using Infrared Imaging System,” ASME Journal of Tribology, 125-2, 2003, pp. 377-383.
73. Moylan, S. P., Kompella, S., Chandrasekar, S. and Farris, T. N., “A New Approach for Studying Mechanical Properties of Thin Surface Layers Affected by Manufacturing Processes,” ASME Journal of Manufacturing Science and Engineering, 125-2, 2003, pp. 310-315.
74. Chang, S. H., Farris, T. N. and Chandrasekar, S., “Experimental Study of Superfinishing,” Proceedings Institution of Mechanical Engineers B: Journal of Engineering Manufacture, 217, 2003, pp. 941-951.
75. DiCarlo, A., Yang, H. T. Y. and Chandrasekar, S., “A Semi-Inverse Method for Predicting Stress-Strain Relationship in Cone Indentation,” Journal of Materials Research, 18-9, 2003, pp. 2068-2078.
76. DiCarlo, A., Yang, H. T. Y. and Chandrasekar, S., “Prediction of Stress-Strain Relation using Cone Indentation: Effects of Friction,” International Journal of Numerical Methods in Engineering, May 2004.
77. Shankar, M. R., Chandrasekar, S. and Farris, T. N., “Interaction Between Dislocations in a Couple Stress Medium,” ASME Journal of Applied Mechanics, Vol. 71, July 2004, pp. 541-546.
78. Moscoso, W., Olgun, E., Compton, W. D. and Chandrasekar, S., “Effect of Low-Frequency Modulation on Lubrication of Chip-Tool Interface in Machining,” Journal of Tribology, Vol. 127, 2005, pp. 237-244.
79. Swaminathan, S., Shankar, M. Ravi, Lee, S., Hwang, J., King, A. H., Kezar, R. F., Rao, B. C., Brown, T. L., Chandrasekar, S., Compton, W. D. and Trumble, K. P., “Large Strain Deformation and Ultra-fine Grained Materials by Machining,” Materials Science and Engineering A, 410-411, 2005, pp. 358-363.
80. Swaminathan, S., Chandrasekar, S., Compton, W. D., King, A. H. and Trumble, K. P., “Large Strain Deformation of Single-Phase Solid Solutions by Plane Strain Machining,” Materials Science Forum, 503-504, 2005, pp. 651-656.
81. Shankar, M. R., Chandrasekar, S., Compton, W. D. and King, A. H., “Characteristics of Aluminum 6061-T6 Deformed to Large Strains by Machining,” Materials Science and Engineering A, Vol. 410-411, 2005, pp. 364-368.
82. Shankar, M. R., Chandrasekar, S., King, A. H. and Compton, W. D., “Microstructure and Stability of Nanocrystalline Aluminum 6061 Created by Large Strain Machining,” Acta Materialia, Vol. 53(18), 2005, pp. 4781-4793.
83. Shankar, M. R., King, A. H. and Chandrasekar, S., “Dislocation-Indenter Interactions in Nanoindentation,” Journal of Applied Physics, Vol. 98, 2005, 23502.
84. Sevier, M., Lee, S., Shankar, M. R., Yang, H. T. Y., Chandrasekar, S. and Compton, W. D., “Deformation Mechanics Associated with Formation of Ultra-Fine Grained Chips in Machining,” Materials Science Forum, Vol. 503-504, 2006, pp. 379-384.
85. Uluca, Y., Shankar, M. R., Mann, J. B., Rao, B. C., Chandrasekar, S., Compton, W. Dale, “Nanocrystalline Materials from Aerospace Machining Chips,” Society of Automotive Engineers (SAE) Transactions – Journal of Aerospace, 114, 2005, pp 994-998. SAE best paper award.
86. Lee, S., Hwang, J., Shankar, M. R., Chandrasekar, S. and Compton, W. D., “Large-Strain Deformation Field in Plane-Strain Machining,” Metallurgical and Materials Transactions A, 37, 2006, pp 1633-1643.
87. Shankar, M. R., Rao, B. C., Lee, S., Chandrasekar, S., King, A.H., and Compton, W. D., “Severe Plastic Deformation of Titanium at Near-Ambient Temperature,” Acta Materialia, Vol. 54, 2006, pp. 3691-3700.
88. Swaminathan, S. Shankar, M. R., Rao, B. C., Compton, W. D., Chandrasekar, S., King, A. H. and Trumble, K. P., “Severe Plastic Deformation and Nanostructured Materials by Machining,” Journal of Materials Science, 42-5, 2007, 1529-42.
89. Moscoso, W., Shankar, M. R., Mann, J. B., Compton, W. D., and Chandrasekar, S., “Bulk Nanostructured Materials by Large Strain Extrusion Machining,” Journal of Materials Research, Vol. 22-1, 2007, pp. 201-205.
90. Iglesias, P., Bermudez, M. D., Carrion, F. J., Chandrasekar, S., and Compton, W. D., “A Study of the Wear Behavior of Polymer-Matrix Composites Containing Discontinuous Nanocrystalline Alloy Reinforcements,” Tribology International, 40, 2007, 479-489.
91. S. Swaminathan, T. L. Brown, S. Chandrasekar, T. R. McNelley and W. D. Compton, Severe Plastic Deformation of Copper by Machining: Microstructure Refinement and Nanostructure Evolution with Strain, Scripta Materialia, 56, 2007, 1047. http://web.ics.purdue.edu/~chandy/Scripta_sswaminathan.pdf
92. J. B. Mann, C. Saldana, S. Chandrasekar, W. D. Compton and K. P. Trumble, Metal-Particulate Production by Modulation-Assisted Machining, Scripta Materialia, 57, 909, 2007. http://web.ics.purdue.edu/~chandy/Scripta_jbmann.pdf
93. S.-H. Chang, T. N. Farris, and S. Chandrasekar, Experimental Analysis on Evolution of superfinished Surface Texture, J Materials Processing Technology, 203, 2008, 365-71.
94. M. R. Shankar, R. Varma, B. C. Rao, S. Chandrasekar, W. D. Compton, A. H. King and K. P. Trumble, Severe Plastic Deformation of Difficult-to-Deform Materials at Near-Ambient Temperature, Metallurgical and Materials Transactions A, 38, 2007, 1899. http://web.ics.purdue.edu/~chandy/MetTransA_mrshankar.pdf
95. M. Sevier, H. T. Yang, S. Lee and S. Chandrasekar, Severe Plastic Deformation by Machining Characterized by Finite Element Simulation, Metallurgical and Materials Transactions B, 38-6, 927-938, 2007. http://web.ics.purdue.edu/~chandy/MetTransB_msevier.pdf
96. C. Huang, S. Lee, J. P. Sullivan and S. Chandrasekar, In Situ Measurement of Fluid Film Thickness in Machining, Tribology Letters, 28, 2007, 39-44. http://web.ics.purdue.edu/~chandy/TribLett_chuang.pdf
97. P. Iglesias, M. D. Bermudez, W. Moscoso, B. C. Rao, M. R. Shankar, and S. Chandrasekar, Friction and Wear of Nanostructured Metals Created by Large Strain Extrusion Machining, Wear, 263, 2007, 636-642. http://web.ics.purdue.edu/~chandy/Wear_piglesias.pdf
98. C. Huang, T. G. Murthy, M. R. Shankar, R. M’Saoubi and S. Chandrasekar, Temperature Rise in Severe Plastic Deformation of Titanium at Small Strain Rates, Scripta Materialia, 58, 663 – 666, 2008. http://web.ics.purdue.edu/~chandy/Scripta_chuang.pdf
99. M. R. Shankar, B. C. Rao, S. Chandrasekar, W. D. Compton and A. H. King, Thermally Stable Nanostructured Materials from Severe Plastic Deformation of Precipitation-Treatable Ni-Based Alloys, Scripta Materialia, 58, 675-678, 2008. http://web.ics.purdue.edu/~chandy/Scripta_mrshankar.pdf
100. T. G. Murthy, C. Huang and S. Chandrasekar, Characterization of Deformation Field in Plane Strain Indentation of Metals, J Phys D: Appl. Phy.s, 41, 070426, 2008. http://web.ics.purdue.edu/~chandy/JPhysD_tgmurthy.pdf
101. J. R. Jameson, T. N. Farris and S. Chandrasekar, Equilibrium and Compatibility Simulation of Plunge Centerless Grinding, Proceedings Instn. Mech. Engrs. (UK) B: Journal of Engineering Manufacture, 222, 747-757, 2008.
102. P. Iglesias, W. Moscoso, J. B. Mann, C. Saldana, M. R. Shankar, S. Chandrasekar, W. D. Compton and K. P. Trumble, Production Analysis of New Machining-Based Deformation Processes for Nanostructured Materials, International Journal of Material Forming, 1-1, 459-462, 2008.
103. M. Sevier, H. T. Yang, W. Moscoso and S. Chandrasekar, Analysis of Severe Plastic Deformation by Large-Strain Extrusion Machining, Metallurgical and Materials Transactions A, 39-11, 2645-55, 2008.
104. T. G. Murthy, C. Huang, M. R. Shankar, S. Chandrasekar, K. P. Trumble and J. Sullivan, Temperature Field in Severe Plastic Deformation at Small Strain Rates, Materials Science Forum, 584-586, 231-236, 2008.
105. C. Saldana, P. Yang, J. B. Mann, W. Moscoso, D. D. Gill, S. Chandrasekar and K. P. Trumble, Micro-Scale Components from High-Strength Nanostructured Alloys, Materials Science and Engineering A, 503, 172-175, 2009. http://dx.doi.org/10.1016/j.msea.2008.02.056
106. R. Calistes, T. G. Murthy, C. Huang, C. Saldana, M. R. Shankar and S. Chandrasekar, Controlling Gradation of Surface Strains and Nanostructuring by Large Strain Machining, Scripta Materialia, 60, 17-20, 2009, doi:10.1016/j.scriptamat.2008.08.027.
107. C. Saldana, T. G. Murthy, M. R. Shankar, E. A. Stach and S. Chandrasekar, Stabilizing Nanostructured Materials by Coherent Nanotwins and their Grain Boundary Triple Junction Drag, Applied Physics Letters, 94, 021910, 2009.
108. T. G. Murthy, E. Gnanamanickam, C. Saldana and S. Chandrasekar, Deformation Field in Indentation of Granular Materials, Powders and Grains 2009, 263-66.
109. T. G. Murthy, J. Madariaga and S. Chandrasekar, Direct Mapping of Deformation in Punch Indentation and Correlation with Slip Line Fields, Journal of Materials Research, 24-3, 760-767, 2009, DOI: 10.1557/JMR.2009.0094.
110. J. B. Mann, C. Saldana, W. Moscoso, W. D. Compton and S. Chandrasekar, Effects of Controlled Modulation on Interface Tribology and Deformation in Machining, Tribology Letters, 35-3, 221-227, 2009, DOI 10.1007/s11249-009-9451-5.
111. T. L. Brown, C. Saldana, T. G. Murthy, J. B. Mann, Y. Guo, L. F. Allard, A. H. King, W. D. Compton, K. P. Trumble and S. Chandrasekar, A Study of the Interactive Effects of Strain, Strain Rate and Temperature in Severe Plastic Deformation of Copper, Acta Materialia, 57, 5491-5500, 2009.
112. Rajeev, P.T., Jin, L., Farris, T.N. and Chandrasekar, S., “Modeling of Quenching and Tempering Induced Phase Transformations in Steels,” Journal of ASTM International, 19 pages, 2009.
113. E. Gnanamanickam, S. Lee, J. P. Sullivan and S. Chandrasekar, “Direct Measurement of Large- Strain Deformation Fields by Particle Tracking,” Measurement Science and Technology, 20, 095710 (12 pp), doi: 10.1088/0957-0233/20/9/095710, 2009.
114. C. Saldana, S. Swaminathan, T. L. Brown, W. Moscoso, J. B. Mann, W. D. Compton, and S. Chandrasekar, “Unusual Applications of Machining: Controlled Nanostructuring of Materials and Surfaces,” ASME Journal of Manufacturing Science and Engineering, 132-3, 030908 (12 pages) doi:10.1115/1.4001665, 2010.
115. P. Iglesias, M. D. Bermudez, W. Moscoso, and S. Chandrasekar, Influence of Processing Parameters on Wear Resistance of Nanostructured OFHC Copper Manufactured by Large Strain Extrusion Machining, Wear, 268 (1-2), 178-184, http://dx.doi.org/10.1016/j.wear.2009.07.009
116. Y. Guo, R. M’Saoubi and S. Chandrasekar, “Control of Deformation Levels on Machined Surfaces,” Annals CIRP, 60-1, 137-40, 2011.
117. Y. Guo, C. Saldana, W. D. Compton and S. Chandrasekar, “Controlling Deformation and Microstructure on Machined Surfaces,” Acta Materialia, 59, 4538-, 2011.
118. J. B. Mann, Y. Guo, C. Saldana, W. D. Compton and S. Chandrasekar, “Enhancing Material Removal Processes using Modulation Assisted Machining,” Tribology International, 44, 1225-35, 2011.
119. J. Hwang and S. Chandrasekar, “Contact Conditions at the Chip-Tool Interface in Machining, “International Journal of Precision Engineering and Manufacturing,” 12-2, 183-93, 2011. DOI 10.1007/s12541-011-0026-7
120. N. Sundaram, Y. Guo, T. G. Murthy, C. Saldana and S. Chandrasekar, “Rotation Field in Wedge Indentation of Metals,” Journal of Materials Research, 27 (1), 284-293, 2011. DOI: 10.1557/jmr.2011.294
121. N. Sundaram and S. Chandrasekar, “Shape and Eccentricity Effects in Adhesive Contacts of Rodlike Particles,” Langmuir, 27 (20), pp 12405–12410, 2011. DOI: 10.1021/la202740b
122. C. Saldana, A. H. King, E. A. Stach, W. D. Compton and S. Chandrasekar, “Vacancies, Twins and the Thermal Stability of Ultrafine-Grained Copper,” Applied Physics Letters, 99, 2011, 231911, DOI: 10.1063/1.3669404
123. Y. Guo, M. Efe, W. Moscoso, D. Sagapuram, K. P. Trumble, and S. Chandrasekar, “Deformation Field in Large Strain Extrusion Machining and Implications for Deformation Processing,” Scripta Materialia, 66-5, 235-238, 2011, doi:10.1016/j.scriptamat.2011.10.045
124. N. Sundaram, T. N. Farris and S. Chandrasekar, “JKR Adhesion in Cylindrical Contacts,” Journal of the Mechanics and Physics of Solids, 60-1, 37-54, 2011. doi:10.1016/j.jmps.2011.10.002
125. M. Efe, W. Moscoso, K. P. Trumble, W. D. Compton and S. Chandrasekar, Mechanics of Large Strain Extrusion Machining and Application to Deformation Processing of Magnesium Alloys,” Acta Materialia, 60, 2031-42, 2012. http://dx.doi.org/10.1016/j.actamat.2012.01.018
126. R. M’Saoubi, T. Larsson, J.Outeiro, Y. Guo, S. Suslov, C. Saldana and S. Chandrasekar, “Surface Integrity Analysis of Machined Inconel 718 over Multiple Length Scales,” Annals CIRP, http://dx.doi.org/10.1016/j.cirp.2012.03.058, 61, 99-102, 2012.
127. N. Sundaram, Y. Guo, and S. Chandrasekar, “Modes of Deformation and Weak Boundary Conditions in Wedge Indentation,” Materials Research Society (MRS) Communications, 2012, published online, DOI: http://dx.doi.org/10.1557/mrc.2012.6
128. C. Saldana, A. H. King, and S. Chandrasekar, “Thermal Stability and Strength of Deformation Microstructures in Pure Copper,” Acta Materialia, 60, 4107-4116, 2012. http://dx.doi.org/10.1016/j.actamat.2012.04.022
129. Y. Guo, J. B. Mann, H. Yeung, and S. Chandrasekar, “Enhancing Tool Life in High Speed Machining of Compacted Graphite Iron (CGI) using Controlled Modulation,” Tribology Letters, DOI 10.1007/s11249-012-9966-z, 47, 103-11, 2012.
130. T. G. Murthy, E. Gnanamanickam, and S. Chandrasekar, Deformation Field in Indentation of a Granular Ensemble, Physical Review E, DOI: 10.1103/PhysRevE.85.061306, 85, 061306, 2012.
131. M. Efe, H. J. Kim, S. Chandrasekar and K. P. Trumble, “The Chemical State and Control of Oxygen in Powder Metallurgy Tantalum,” Materials Science and Engineering A, 544, 1-9, 2012. doi:10.1016/j.msea.2012.01.100
132. N. Sundaram, Y. Guo, and S. Chandrasekar, “Mesoscale Folding, Instability, and Disruption of Laminar Flow in Metal Surfaces,” Physical Review Letters, 109, 106001, 2012. DOI: 10.1103/PhysRevLett.109.106001. This was the subject of a Physics Viewpoint (DOI: 10.1103/Physics.5.100) and the cover article for the September 7 issue of the PRL.
133. J. B. Mann, C. Saldana, Y. Guo, H. Yeung, W. D. Compton and S. Chandrasekar, “Effects of Modulation on Surface Textures in Deep-Hole Drilling,” Society of Automotive Engineers (SAE) International Journal of Materials and Manufacturing, 6(1), 2013, doi:10.4271/2012-01-1868. Best paper award at the SAE meeting in Dallas, 2012.
134. P. Iglesias, A. E. Jimenez, M. D. Bermudez, B. C. Rao, and S. Chandrasekar, 2013, "Steel Machining Chips as Reinforcements to Improve Sliding Wear Resistance of Metal Alloys: Study of a Model Zn-Based Alloy System," Tribology International, in press. http://dx.doi.org/10.1016/j.triboint.2013.03.004.
135. D. Sagapuram, M. Efe, W. Moscoso, S. Chandrasekar and K. P. Trumble, “Controlling Texture in Magnesium Alloy Sheet by Shear-Based Deformation Processing,” Acta Materialia, 64, 6843-56, 2013. http://dx.doi.org/10.1016/j.actamat.2013.07.063.
136. Y. Guo, T. Stalbaum, J. B. Mann, H. Yeung and S. Chandrasekar, “Modulation-Assisted Machining of Compacted Graphite Iron (CGI),” 2013, Journal of Manufacturing Processes, http://dx.doi.org/10.1016/j.jmapro.2013.06.001. In press.
137. H. Yeung, N. K. Sundaram, J. B. Mann, W. D. Compton and S. Chandrasekar, “Energy Dissipation in Modulation Assisted Machining,” International Journal of Machine Tools and Manufacture, 74, 41-49, 2013. http://dx.doi.org/10.1016/j.ijmachtools.2013.07.007.
138. A. Mahato, Y. Guo, N. Sundaram, T. G. Murthy, C. Saldana and S. Chandrasekar, “Unconstrained Plastic Flow at Surfaces in Sliding and Cutting,” International Journal of Precision Technology, accepted.
139. C. Randall et al. (one of 29), Applications of a New Hand-held Reference Point Indentation Instrument Measuring Bone Material Strength, Journal of Medical Devices, to appear. This presents results from a large collaborative medical study led by UC Santa Barbara Paul Hansma (Physics) and Henry Yang (ME), and involving multiple Universities and Research Inst. in the US and Europe.
140. A. Mahato, Y. Guo, H. Yeung, and S. Chandrasekar, “Surface Flow in Severe Plastic Deformation of Metals by Sliding,” Inst. of Phys. (IOP) open access journal: Materials Science and Engineering, 63, 012016, 2014. doi:10.1088/1757-899X/63/1/012016
141. D. Sagapuram, M. Efe, K. P. Trumble and S. Chandrasekar, “Enabling Shear Textures and Fine-Grained Structures in Magnesium Sheet by Machining-Based Deformation Processing,” Inst. of Phys. (IOP) open access journal: Materials Science and Engineering, 63, 012155, 2014. doi:10.1088/1757-899X/63/1/012155
142. A. Mahato, Y. Guo, N. K. Sundaram, and S. Chandrasekar, "Surface Folding in Metals: A Mechanism for Delamination Wear in Sliding", Proceedings of the Royal Society A 2014, 470, 20140297.
143. K. Viswanathan, A. Mahato and S. Chandrasekar, "Nucleation and Propagation of Solitary Schallamach Waves,” Physical Review E, 91.1 (2015): 012408.
144. K. Viswanathan and S. Chandrasekar, “Geometric Treatment of Conduction Electron Scattering by Crystal Lattice Strains and Dislocations,” Journal of Applied Physics, 116.24 (2014): 245103.
145. K. Viswanathan, A. Mahato, T. G. Murthy, T. Koziara and S. Chandrasekar, “Kinematic Flow Patterns in Slow Deformation of a Dense Granular Medium,” Granular Matter, (2015): 1-13.
146. H. Yeung, K. Viswanathan, W. D. Compton, S. Chandrasekar, "Sinuous flow in metals", Proceedings of the National Academy of Sciences 112.32 (2015): 9828-9832.
147. Y. Guo, W. D. Compton, S. Chandrasekar, "In situ analysis of flow dynamics and deformation fields in cutting and sliding of metals", Proceedings of the Royal Society of London A 2015, 471. 2178.
148. D. Sagapuram, H. Yeung, A. Mahato, R. M'Saoubi, W. D. Compton, K. P. Trumble, S. Chandrasekar, "On control of flow instabilities in cutting of metals", CIRP Annals-Manufacturing Technology (2015)
149. K. Viswanathan, N. K. Sundaram, S. Chandrasekar, "Stick-slip at soft adhesive interfaces mediated by slow frictional waves", Soft Matter 2016, 12(24), 5265-5275
150. D. Sagapuram, K. Viswanathan, A. Mahato, N. K. Sundaram, R. M'Saoubi, K. P. Trumble, S. Chandrasekar, "Geometric flow control of shear bands by suppression of viscous sliding", Proceedings of the Royal Society A (2016), 472 (2192)
151. A. B. Kustas, D. Sagapuram, K. P. Trumble, S. Chandrasekar, "Texture development in high-Si iron sheet produced by simple shear deformation", Metallurgical and Materials Transactions A (2016), 47(6)
152. D. Sagapuram, M. Efe, K. P. Trumble, S. Chandrasekar, "Flow transitions and flow localization in large-strain deformation of magnesium alloys", Materials Science and Engineering: A (2016), 659
153. H. Yeung, Y. Guo, J.B. Mann, W.D. Compton and S. Chandrasekar, “Effect of Low-Frequency Modulation on Deformation and Material Flow in Cutting of Metals,” ASME J. Tribology, 138-1, 012201, doi: 10.1115/1.4031140, 2016.
154. T. B. Lescun, K. Hoffseth, H. T. Yang, P. K. Hansma, H. S. Kopeikin and S. Chandrasekar, “Effect of Various Testing Conditions on Results for a Handheld Reference Point Indentation Instrument in Horses:,” American Journal of Veterinary Research, 77-1, 39 48, 2016.
157. K. Viswanathan, N. K. Sundaram, and S. Chandrasekar, “Stick-Slip at Soft Adhesive Interfaces Mediated by Slow Frictional Waves,” Soft Matter, 2016. (cover article).
158. K. Viswanathan, N. K. Sundaram, and S. Chandrasekar, “Slow Wave Propagation in Soft Adhesive Interfaces,” Soft Matter, 2016. (cover article).
159. A. Kustas, D. Sagapuram, K. P. Trumble and S. Chandrasekar, “Texture Development in High-Silicon Iron Sheet Produced by Simple Shear Deformation,” Metallurgical and Materials Transactions A, 2016.
160. H. Aben, J. Anton, M. Ois, K. Viswanathan, S. Chandrasekar and M. M. Chaudhri, “On the Extraordinary Strength of Prince Rupert’s Drops,” Applied Physics Letters, 109, 231903, 2016. Subject of numerous news articles and commentaries in media such as Science, Phys.Org, Smithsonian Magazine, and Washington Post. Video on the topic has been viewed more than 2 Million times on YouTube.
161. A. Kustas, K. P. Trumble and S. Chandrasekar, “Magnetic Properties Characterization of Shear-Textured 4 wt % Electrical Steel Sheet,” Journal of Materials Research, 31-24, 3930-38, 2016.
162. A. Mahato, H. Yeung, Y. Guo, K. Viswanathan, N. K. Sundaram, A. Udupa, J. B. Mann, and S. Chandrasekar, “Sinuous Flow and Folding in Metals: Implications for Delamination Wear and Surface Phenomena in Sliding and Cutting,” Wear, 376-77, 1534-1541, 2017.
163. K. Viswanathan, A. Mahato, H. Yeung, and S. Chandrasekar. “Surface Phenomena Revealed by In Situ Imaging: Studies from Adhesion, Wear and Cutting,” Surface Topography: Metrology and Properties, 5, 014002, 2017.
164. K. Hoffseth, C. Randall, S. Chandrasekar, P. K. Hansma, and H. T. Y. Yang. “Analyzing the Effect of Hydration on Indentation Fracture Behavior of Cortical Bone,” Journal of the Mechanical Behavior of Biomedical Materials, 69, 318-326, 2017.
165. K. Viswanathan, A. Udupa, H. Yeung, D. Sagapuram, J. B. Mann, M. Saei and S. Chandrasekar. “On the Stability of Plastic Flow in Cutting of Metals,” Annals CIRP, 66-1, 69-72, 2017.
166. H. Yeung, K. Viswanathan, A. Udupa, A. Mahato and S. Chandrasekar. “Sinuous Flow in Cutting of Metals,” Physical Review Applied, 8, 054044, 2017. DOI: 10.1103/PhysRevApplied.8.054044
167. A. Udupa, K. Viswanathan, H. Yeung, and S. Chandrasekar. “The Cutting of Metals by Plastic Buckling,” Proceedings of the Royal Society A, 473: 20160863, 2017.
168. N. K. Sundaram, A. Mahato, Y. Guo, K. Viswanathan and S. Chanrdasekar, “Folding in Metal Polycrystals: Microstructural Origins and Mechanics,” Acta Materialia, 140, 67-78, 2017.
169. A. Udupa, K. Viswanathan, M. Saei, J.B. Mann, S. Chandrasekar, "Material Independent Mechanochemical Effect in the Deformation of Highly Strain-Hardening Metals". Article in press, 2018.