List of Publications by Mark E. Schlesinger

Monographs

1. Mark E. Schlesinger, Mass and Energy Balances in Materials Engineering, Prentice-Hall, Upper Saddle River, NJ, 1995.

2. W.G. Davenport, M. King, M. Schlesinger, and A.K. Biswas, Extractive Metallurgy of Copper (4th ed.), Pergamon, Oxford, 2002.

3.  Mark E. Schlesinger, Aluminum Recycling, CRC Press, Boca Raton, FL, 2006.

4. W.G. Davenport, M. King, M. Schlesinger, and A.K. Biswas, Tong Ye Lian Je Shu (Chinese translation of Extractive Metallurgy of Copper, 4th ed.), Elsevier Singapore, Singapore, 2006.

5. Mark E. Schlesinger, Matthew J. King, Kathryn C. Sole, and William G. Davenport, Extractive Metallurgy of Copper (5th ed.), Elsevier, Amsterdam, 2011.

Edited Proceedings

1. Mark E. Schlesinger and Donald E. Mikkola, eds., Design Education in Metallurgical and Materials Engineering, TMS-AIME, Warrendale, PA, 1993.

2. Mark E. Schlesinger, ed., EPD Congress 2003, TMS-AIME, Warrendale, PA, 2003.

3. Mark E. Schlesinger, ed., EPD Congress 2004, TMS-AIME, Warrendale, PA, 2004.

4. Mark E. Schlesinger, ed., EPD Congress 2005, TMS-AIME, Warrendale, PA, 2005.

Archival Publications

1. M.E. Schlesinger and D.C. Lynch, "Activity of Arsenic in Molten Lead," Metall. Trans. B, 1986, 17B, 235-238.

2. M.E. Schlesinger and D.C. Lynch, "Solubility of PbO in Lead Blast–Furnace Slags," Metall. Trans. B, 1986, 17B, 817-827.

3. M.E. Schlesinger and D.C. Lynch, "Derivation of a Revised Model for Activity Calculations in Multisilicate Melts," J. Am. Ceram. Soc., 1988, 71, 70-77.

4. M.E. Schlesinger and D.C. Lynch, "Comparison of Thermodynamic Models as Applied to Al-Mg-Zn Melts," Ind. Eng. Chem., Res., 1988, 27, 180-186.

5. M.E. Schlesinger and D.C. Lynch, "Effect of VB and VIB Oxides on Nucleation Parameters in Lithium Disilicate Glass," J. Non-Cryst. Solids, 1989, 108, 237-248.

6. M.E. Schlesinger, "Application of the Quasi-Subsubregular Solution Model: The Iron–Carbon System," Metall. Trans. A, 1990, 21A, 447-453.

7. M.E. Schlesinger, "Thermodynamics of Solid Transition–Metal Silicides," Chem. Rev., 1990, 90, 607-628.

8. M.E. Schlesinger, "How Regular is Regular? Statistical Assessments of Binary Metallic Solutions," CALPHAD, 1990, 14, 363-366.

9. M.E. Schlesinger, "Empirical Correlations for the Estimation of Free Energies of Fusion of Cubic Monoxides," High Temp. Sci., 1990, 29, 189-202.

10. K. Ishida, T. Nishizawa, and M.E. Schlesinger, "The Co-Si (Cobalt–Silicon) System," J. Phase Equil., 1991, 12, 578-586.

11. M.E. Schlesinger, "Invariant Points and Thermodynamic Properties," in Engineered Materials Handbook (Vol.4: Ceramics and Glasses), S.J. Schneider, Jr., ed., pp. 883-891, ASM International, Materials Park, OH, 1991.

12. M.E. Schlesinger, "The Rh-Si (Rhodium–Silicon) System," J. Phase Equil., 1992, 13, 54-59.

13. M.E. Schlesinger and J.W. Newkirk, "The Influence of Solution–Model Complexity on Phase Diagram Prediction," J. Phase Equil., 1993, 14, 54-60.

14. M.E. Schlesinger, H. Okamoto, A.B. Gokhale, and G.J. Abbaschian, "The Nb-Si (Niobium-Silicon) System," J. Phase Equil., 1993, 14, 502-509.

15. Y.-D. Chung and M.E. Schlesinger, "Interaction of CaO-FeO-SiO2 Slags with Partially Stabilized Zirconia Refractories," J. Am. Ceram. Soc., 1994, 77, 611-616.

16. M.E. Schlesinger, "The Si-Ta (Silicon–Tantalum) System," J. Phase Equil., 1994, 15, 90-95.

17. W. Luo and M.E. Schlesinger, "Thermodynamics of the Iron–Carbon–Zinc System," Metall. Mater. Trans. B, 1994, 25B, 569-578.

18. X. Wang, H.Y. Sohn, and M.E. Schlesinger, "Determination of the Kinetics of TiAl3 Formation from Fine Ti and Al Particles Using Differential Scanning Calorimetry," Mater. Sci. Eng. A, 1994, 186, 151-155.

19. M.E. Schlesinger, "Phase-Diagram Prediction of ΔfG° for Intermetallic Compounds: A 'Sensitivity' Analysis," J. Phase Equil., 1994, 15, 264-272.

20. S.E. Walker and M.E. Schlesinger, "The Solubility of Red Phosphorus in Molten Lead," J. Chem. Thermodynam., 1995, 27, 53-56.

21. M.E. Schlesinger, “Dealing with High-Copper Steel Scrap: A Metallurgical Engineering Design Case Study,” J. Mater. Educ., 1996, 17, 113-135.

22. M.E. Schlesinger, “Refractories for Copper Production,” Extr. Metall. Min. Proc. Rev., 1996, 16, 125-146.

23. P.K. Liao, K.E. Spear, and M.E. Schlesinger, “The B-Pd (Boron Palladium) System,” J. Phase Equil., 1996, 17, 340-346.

24. P.K. Liao, K.E. Spear, and M.E. Schlesinger, “The B-Sm (Boron-Samarium) System,” J. Phase Equil., 1996, 17, 347-350.

25. P.K. Liao, K.E. Spear, and M.E. Schlesinger, “The B-Nd (Boron-Neodymium) System,” J. Phase Equil., 1996, 17, 335-339.

26. P.K. Liao, K.E. Spear, and M.E. Schlesinger, “The B-Er (Boron-Erbium) System,” J. Phase Equil., 1996, 17, 326-329.

27. P.K. Liao, K.E. Spear, and M.E. Schlesinger, “The B-Gd (Boron-Gadolinium) System,” J. Phase Equil., 1996, 17, 330-334.

28. P.K. Liao, K.E. Spear, and M.E. Schlesinger, “The B-Ce (Boron-Cerium) System,” J. Phase Equil., 1997, 18, 280-283.

29. P.K. Liao, K.E. Spear, and M.E. Schlesinger, “The B-Eu (Boron-Europium) System,” J. Phase Equil., 1997, 18, 379-381.

  1. S. Malhotra, L. Chang, and M.E. Schlesinger, “Liquid Solution Thermodynamics in the Alumina-Saturated Fe-C-Pb System,” ISIJ Int., 1998, 38, 1-8.
  1. M.E. Schlesinger, “The Lesser-Known B-Ln (Boron-Lanthanide) Systems,” J. Phase Equil., 1998, 19, 49-55.
  1. M.E. Schlesinger, M.D. Crites, M.A. Somerville, and S. Sun, “Assessment of Spinel-Containing Refractories for Copper Smelting and Refining,” J. Australas. Ceram. Soc., 1998, 34, 39-44.
  1. M.E. Schlesinger, “The Mn-Se (Manganese-Selenium) System,” J. Phase Equil., 1998, 19, 588-590.
  1. M.E. Schlesinger, “The Mn-Te (Manganese-Tellurium) System,” J. Phase Equil., 1998, 19, 591-596.
  1. L. Chang, S. Malhotra, and M.E. Schlesinger, “Thermodynamic Properties of Alumina-Saturated Iron-Carbon-Bismuth Alloys,” Steel Res., 1998, 69, 359-364.
  1. L. Chang and M.E. Schlesinger, “Solubility of Bismuth in γ-Iron,” Metall. Mater. Trans. B, 1998, 29B, 1371-1372.
  1. M.E. Schlesinger, P.K. Liao and K.E. Spear, “The B-La (Boron-Lanthanum) System,” J. Phase Equil., 1999, 20, 73-78.
  1. M.E. Schlesinger, “The Mn-Zr (Manganese-Zirconium) System,” J. Phase Equil., 1999, 20, 79-83.

39. X. Xu and M.E. Schlesinger, “Relative Stabilities of CaO and MgO,” High Temp. Mater. Sci., 1997, 38, 65-70 (published 1999).

40. M.D. Crites, M. Karakus, M.E. Schlesinger, M.A. Somerville, and S. Sun, “Interaction of Chrome-Free Refractories with Copper Smelting and Converting Slags,” Can. Metall. Q., 2000, 39, 129-133.

41. M.D. Crites, M. Karakus, M.E. Schlesinger, M.A. Somerville, and S. Sun, “Refractory Interactions with Calcium Ferrite Slags,” Interceram, 2000, 49, 88-91.

42. M. Karakus, M.D. Crites, and M.E. Schlesinger, “Cathodoluminescence Microscopy Characterization of Chrome–Free Refractories for Copper Smelting and Converting Furnaces,” J. Microscopy, 2000, 200, 50-58.

43. M.E. Schlesinger and Q. Xiang, “Enthalpies of Mixing in Fe–C–Si Melts,” J. Alloys Compd., 2001, 321, 242-247.

44. M.E. Schlesinger, “The Thermodynamic Properties of Phosphorus and Solid Binary Phosphides,” Chem. Rev., 2002, 102, 4267-4301.

45.  M.E. Schlesinger and S. Jacob, “Advances in High-Temperature Calorimetry: A Comparison,” JOM, 2004, 56 (12), 37-40.

46. G. Gupta, D.G.C. Robertson, and M.E. Schlesinger, “Tellurium Thermodynamics in Austenitic Iron,” Can. Metall. Quart., 2005, 44, 351-356.

47. S. Jacob, M.L. Schmitt, and M.E. Schlesinger, “Use of High–Temperature Differential Scanning Calorimetry to Investigate the β–α Transition in Calcium Pyrophosphate,” J. Therm. Anal. Calorim., 2010, 100, 897-900.

48. L. Zhang, L. Ghussn, M.L. Schmitt, E.D. Zanotto, R.K. Brow, and M.E. Schlesinger, “Thermal Stability of Glasses from the Fe4(P2O7)3–Fe(PO3)3 System,” J. Non-Cryst. Sol., 2010, 356, 2965-2968.

49. L. Zhang, R.K. Brow, M.E. Schlesinger, L. Ghussn, and E.D. Zanotto, “Glass Formation from Iron–Rich Phosphate Melts,” J. Non-Cryst. Solids, 2010, 356, 1252-1257.

50. L. Zhang, M.E. Schlesinger, and R.K. Brow, “Phase Equilibria in the Fe2O3–P2O5 System” J. Am. Ceram. Soc., 2011, 94, 1605-1610.

Non-Archival Publications

1. M.E. Schlesinger, "PbO Solubility in Lead Blast-Furnace Slags," M.S. Thesis, University of Arizona, 1985.

2. M.E. Schlesinger, "Groups VB and VIB Oxides as Nucleating Agents in Lithium Disilicate Glasses," Ph.D. Dissertation, University of Arizona, 1988.

3. M.E. Schlesinger, B. Immele-Meziou, and A.E. Morris, "Application of STEPSOL to Multistage Secondary Copper Refining," in Pyrometallurgy of Copper: Proceedings of the Copper 91 - Cobre 91 International Symposium (Vol. IV), C. Díaz, C. Landolt, A. Luraschi, and C.J. Newman, eds., pp.607-616, Pergamon Press, New York, 1991.

4. M. Karakus, A.M. Hagni, R.D. Hagni, Y.-D. Chung, and M.E. Schlesinger, "Steelmaking-Slag Attack of Partially Stabilized Zirconias," in EPD Congress '92, J.P. Hager, ed., pp. 365-377, TMS-AIME, Warrendale, PA, 1992.

5. M.E. Myers, W. Luo, M.E. Schlesinger and A.E. Morris, "High-Temperature Thermodynamic Properties of Solid and Liquid Iron-Carbon-Zinc Alloys," in EPD Congress '92, J.P. Hager, ed., pp. 789-800, TMS-AIME, Warrendale, PA, 1992.

6. M.E. Schlesinger, Y.-D. Chung, A.M. Hagni, and R.D. Hagni, "Corrosion of Stabilized Zirconias by Steelmaking Slags," 75th Steelmaking Conf. Proc., pp. 841-846, ISS-AIME, Warrendale, PA, 1992.

7. M.E. Schlesinger, M.E. Myers, L. Wenzhong, and A.E. Morris, "Thermodynamics of High-Temperature Fe-C-Zn Alloys," 75th Steelmaking Conf. Proc., pp. 847-850, ISS-AIME, Warrendale, PA, 1992.

8. M.E. Schlesinger and J.L. Watson, "Instruction in Computer Usage for Metallurgical Engineering at UMR: A Change in Emphasis," Session 2A in Engineering Education: Visions of Century II, D.R. Fannin, ed., ASEE, Washington, DC, 1993.

9. M.E. Schlesinger, "A Sampling of Highlights from the EPD Congress 1993," JOM, 1993, 45 (10), 36-41.

10. M.E. Schlesinger, and D.E. Mikkola, "Design Education in Metallurgical and Materials Engineering," JOM, 1993, 45 (12), 11-13.

11. M.E. Schlesinger, "A Sampling of Highlights from the EPD Congress 1994," JOM, 1994, 46 (6), 12-16.

12. M.E. Schlesinger, "Is 'No-Choice' the Choice for Future Metallurgical PE Exams?" JOM, 1995, 47(3), 63.

13. M.E. Schlesinger, "Coming Soon ­ An EIT for Metallurgists?" JOM, 1995, 47 (4), 77.

14. M.E. Schlesinger, "A Sampling of Highlights from the EPD Congress 1995," JOM, 1995, 47 (6), 42-45.

15. M.E. Schlesinger, "Why Do Engineers Have to Take Registration Exams?" JOM, 1995, 47 (6), 59.

16. M.E. Schlesinger, "A Sampling of Highlights from the EPD Congress 1996," JOM, 1996, 48 (4), 50-54.

17. P.K. Liao, K.E. Spear, and M.E. Schlesinger, “The B-Cd (Boron-Cadmium) System,” J. Phase Equil., 1996, 17, 229.

18. M.E. Schlesinger, S. Jahanshahi, S. Sun, and M.A. Somerville, “Chrome-Free Refractories for Copper Production Furnaces,” in Proc. 1997 NSF Design Manuf. Grantees Conf., pp. 363-364, National Science Foundation, Washington, 1996.

19. M.E. Schlesinger, "A Sampling of Highlights from the EPD Congress 1996," JOM, 1997, 49 (4), 28-32.

20. M.E. Schlesinger and M. Nilmani, “Injection in Pyrometallurgy­The Howard Worner Symposium,” JOM, 1997, 49 (4), 46-47.

21. M.E. Schlesinger, M. Karakus, M. Crites, M.A. Somerville, and S. Sun, “Chrome-Free Refractories for Copper Production Furnaces,” in UNITECR ‘97 (Vol. III), M.A. Stett, ed., pp. 1703-1709, The American Ceramic Society, Westerville, OH, 1997.

22. M.E. Schlesinger, M.D. Crites, M.A. Somerville, and S. Sun, “Potential Chrome–Free Refractories for Copper Production,” in Proc. 1998 NSF Design Manuf. Grantees Conf., pp. 449-450, National Science Foundation, Washington, 1998.

23. M.E. Schlesinger, “Integrated Steelmaking Refractory Challenges,” in Refractories for Casting Steel: 34th Ann. Symp. St. Louis Sec. Am. Ceram. Soc., University of Missouri-Rolla, Rolla, MO, 1998.

24. M.E. Schlesinger, W. Luo, L. Chang, and S. Malhotra, “Thermodynamics of Trace Elements in Iron–Carbon Alloys,” in 81st Steelmaking Conf. Proc., pp. 545-551, ISS-AIME, Warrendale, PA, 1998.

25. M.E. Schlesinger, “Conference Review: A Sampling of Highlights from EPD Congress 1998,” JOM, 1998, 50 (4), 34-38.

26. M.E. Schlesinger, “Metallurgical Application of the Classical Engineering Design Sequence: Description and Examples,” in Challenges in Materials Education, G.A. Irons and T.R. Meadowcroft, eds., pp. 73-81, The Metallurgical Society of CIM, Montreal, 1998.

27. M.D. Crites, M. Karakus, M.E. Schlesinger, M.A. Somerville, and S. Sun, “Interaction of Chrome-Free Refractories with Copper Smelting and Converting Slags,” in Advances in Refractories for the Metallurgical Industries III, C. Allaire and M. Rigaud, eds., pp. 203-14, The Metallurgical Society of CIM, Montreal, 1999.

28. M.D. Crites and M.E. Schlesinger, “Corrosion Testing of Chrome-Free Refractories for Copper Production Furnaces,” in Copper 99–Cobré 99, Vol. VI: Smelting Technology Development, Process Modeling and Fundamentals, C. Díaz, C. Landolt, and T. Utigard, eds., pp. 187-94, TMS-AIME, Warrendale, PA, 1999.

29. Q. Xiang, M.E. Schlesinger and J.L. Watson, “Red Mud Minimization by Iron Removal – Iron Reduction,” in Mineral Processing on the Verge of the 21st Century, G. Özbayoğlu, Ç. Hoşten, M. Atalay, C. Hiçyilmaz, and A. Arol, eds., pp. 121-25, A.A. Balkema, Rotterdam, 2000.

30. Q. Xiang, M.E. Schlesinger and J.L. Watson, “Low–Temperature Reduction of Hematite in Red Mud,” Chapter I-3 in BAUXMET 2000, Jawaharlal Nehru Aluminium Research Design and Development Centre, Nagpur, India, 2000.

31. Q. Xiang, X. Zhang, M.E. Schlesinger and J.L. Watson, “Low–Temperature Reduction of Ferric Iron in Red Mud,” in Light Metals 2001, J.L. Anjier, ed., pp. 157-162, TMS-AIME, Warrendale, PA, 2001.

32. X. Zhang, M.E. Schlesinger, and J.L. Watson, “The Treatment of Red Mud for the Recovery of Iron and Other Metal Values,” in Recycling and Waste Treatment in Mineral and Metal Processing: Technical and Economic Aspects (Vol. 2), B. Björkman, C. Samuelsson, and J.-O. Wikström, eds., pp. 559-566, TMS-AIME, Warrendale, PA, 2002.

33. M.E. Schlesinger, M.J. King, and W.G. Davenport, “An Overview of Copper Recycling,” in Recycling and Waste Treatment in Mineral and Metal Processing: Technical and Economic Aspects (Vol. 1), B. Björkman, C. Samuelsson, and J.-O. Wikström, eds., pp. 861-870, TMS-AIME, Warrendale, PA, 2002.

34. S. Jacob and M.E. Schlesinger, “A Study of Accuracy and Reproducibility of High Temperature Differential Scanning Calorimetry,” in EPD Congress 2006, S. Howard, ed., pp. 209-217, TMS-AIME, Warrendale, PA, 2006.

35. S. Jacob and M.E. Schlesinger, “Evaluation of the Accuracy and Reproducibility of a High-Temperature Differential Scanning Calorimeter by Heat Capacity Measurements,” Am. Lab., 2006, 38 (14), 13-15.

36. S. Jacob and M.E. Schlesinger, “Review of the Thermodynamic Properties of Binary Solid Antimonides,” in Advanced Processing of Metals and Materials, Vol. 1: Thermo and Physicochemical Principles: Nonferrous High Temperature Processing, F. Kongoli and R.G Reddy, eds., pp. 229-236, TMS-AIME, Warrendale, PA, 2006.

37. J.B. Harris, M.E. Schlesinger, E. Estvenko, L. Hrenak, E. Penso, and R. Trivedi, “Use of DSC to Distinguish Grades of Mozzarella Cheese,” Missouri J. Undergrad. Chem. Res., 2006, 8, 12-17.

38. L. Zhang, M.E. Schlesinger, and R.K. Brow, “Studies on the Thermal Behavior of FePO4 at Higher Temperature in Air,” in Materials Science and Technology (MS&T) 2007, pp. 505–512, TMS–AIME, Warrendale, PA, 2007.

39. P. Hayes, M. Schlesinger, H. Steil, and A. Siegmund, “Lead Smelter Survey,” in PbZn 2010, A. Siegmund, L. Centomo, C. Geenen, N. Piret, G. Richards, and R. Stephens, eds., pp. 345–414, TMS-AIME, Warrendale, PA, 2010.