1. 선재(공형)압연 

1) 이영석, Calculating Model of Mean Strain in Rod Rolling Process, ISIJ Int., Vol. 39, No. 9, Sep. (1999) pp. 961-963.

2) 이영석 and S. Choi, New Approach for the Prediction of Stress Free Surface Profile of Workpiece in Rod Rolling, ISIJ Int., Vol. 40, No. 6, June (2000) 

    pp. 624-626.

3) 이영석, S. Choi and Y.H. Kim, Mathematical Model and Experimental Validation of Surface Profile of a Workpiece in Round-Oval-Round Pass Sequence, 

    J. Materials and Processing Tech., Vol. 108, Dec (2000) pp. 87-96.

4) 이영석, S. Choi, H. Kim and W.Y. Choo, An Experimental Study of the Mean Effective Strain in Rod (or Bar) Rolling Process, Metals & Materials, 

    Vol. 6, No. 6, Dec. (2000) pp. 525-531.

5) 이영석 and Y.H. Kim, Approximate Analysis of Roll Force in a Round-Oval-Round Pass Rolling Sequence, J. Materials and Processing Tech., Vol. 113, 

    June (2001) pp. 124-130.

6) 이영석, H.J. Kim and S.M. Hwang, Analytic Model for the Prediction of Mean Effective Strain in Rod Rolling Process, J. Materials and Processing Tech.,

    Vol. 114, July (2001) pp.129-138.

7) 이영석, An Analytical Study of Mean Roll Radius in Rod Rolling, ISIJ Int., Vol. 41, No. 11, Nov (2001) pp. 1414-1416.

8) 이영석, S.I. Kim, S. Choi, B.R. Jang and W. Y. Choo, Mathematical Model to Simulate Thermo-Mechanical Controlled Processing in Rod (or Bar)   

     Rolling, Metals and Materials Int., Vol. 7, No.6, Dec. (2001) pp. 519-330.

9) 이영석 and B.M. Kim, Analytical Model of Pass-by-Pass Strain in Bar Rolling and Its Verification, Scandinavian J. Metallurgy, Vol. 31, No. 2, 

     April (2002) pp. 126-133

10) 이영석, Prediction of the Surface Profile and Area of the Exit Cross Section of Workpiece in Round-Oval-Round Pass Sequence, ISIJ Int., Vol. 42, No. 7, 

     July (2002) pp. 726-735.

11) 이영석, S. Choi and P.D. Hodgson, Integrated Model for Thermo-Mechanical Controlled Process in Rod or (bar) Rolling, J. Materials and Processing

     Tech., Vol. 125/126, Sep (2002) pp. 678-688.

12) 이영석, B.M. Kim, J.K. Park, S.W. Seo and O. Min, A Study for the Constitutive Equation of Carbon Steel Subjected to Large  Strains, High      

     Temperatures and High Strain Rates, J. Materials and Processing Tech., Vol.130/131, Dec. (2002) pp. 181-188

13) 이영석, A New Approach for the Prediction of Roll Force in Rod Rolling, Ironmaking and Steelmaking, Vol. 29, No. 6, Dec. (2002) pp.459-468.

14) D.H. Kim, 이영석, S.J. Yoo, W.Y. Choo and B.M. Kim, Prediction of Wear Profile of Roll Groove in Rod Rolling Using an Incremental Form of Wear 

     Model, J. Engineering Manufacture, Vol. 217, Jan. (2003) pp.111-126.

15) L.S. Bayoumi and 이영석, Effect of Interstand Tension on Roll Load, Torque and Workpiece Deformation in Rod Rolling Process, J. Materials and 

     Processing Tech., Vol. 145 (2004) pp. 7-13. 

16) S.I. Kim, S.M. Byon, S.W. Seo, O. Min and 이영석, Constitutive Equation for AISI4140 Steel Applicable to a Wide Range of Strain Rates at Elevated

     Temperatures, Steel Research Int., Vol. 5, June (2006) pp. 355-360.

17) S.M. Byon and 이영석, Experimental and Semi-Analytical Study of Wear Contour of Roll Groove and Its Applications to Rod Mill, ISIJ Int., Vol.47 (2007) 

      No.7, pp.1006-1015.

18) S.M. Byon, S.I. Kim and 이영석, A Semi-Analytical Model for Predicting the Wear Contour in Rod Rolling Process, J. Materials and Processing Tech., 

     Vol. 191 (2007) pp. 306-309.

19) S.M. Byon and 이영석, A Study of Roll Gap Adjustment Due to Roll Wear in Groove Rolling – Experiment and Modeling, J. Engineering Manufacture, 

      Vol. 222 (2008) pp. 875-885

20) S.M. Byon, D. H. Na and 이영석, Effect of Roll Gap Adjustment on Exit Cross Sectional Shape in Groove Rolling - Experimental and FE Analysis, 

     J. Materials and Processing Tech., Vol. 209 (2009), pp. 4465-4470.

21) U.K. Yoo, J.B. Lee, J.H. Park and 이영석, Analytic Model for Predicting the Surface Profile of a Workpiece in Round-to-2−R Oval Groove and Square-to-

     2−R Oval Groove Rolling, J. Mechanical Science and Tech., Vol. 24, Nov (2010), pp. 2289-2295.

22) D.H. Na and 이영석, A Study to Predict the Creation of Surface Defects on Material and Suppress Them in Caliber Rolling Process, Int. J. Precision 

      Engineering and Manufacturing, Vol. 14, No.10, (2013) pp. 1727-1734.

23) S. M. Byon, S. R. Kim, T.Y. Kim and 이영석, An Approximate Model to Predict the Surface Profile of Material Sections in a 3-Roll Process, 

      J. Mechanical  Science and Tech., Vol. 31 (7) (2017) pp. 3489~3497

24) C.H Moon and 이영석, Analytical model to predict the free surface profile of outgoing material in oval-to-round pass rolling when cross-section of   

      incoming material is not circular and roll gap changes, ISIJ International, Vol. 63, No.1 (2023), pp. 111-119

25) D. Lee, Y.H. Roh, and 이영석, Experimental Study on the Surface Defects of Materials in Bar Rolling with a Processing Map Applicable to 

      Billet-to-Oval Groove Rolling. Journal of Engineering Manufacture.Vol. 239, Issue 1-2 (2024)