MIR HAMID REZA GHOREISHY

(Professor)

 

Iran Polymer and Petrochemical Institute

PO Box 14965/115, TEHRAN, IRAN

Tel + (9821)  44580000 , 44580082

Fax + (9821) 44580021-23

E-mail: M.H.R.Ghoreishy@ippi.ac.ir

 

Reference: Prof.  Vahid Nassehi, Department of Chemical Engineering, Loughborough University, UK, E-mail: V.Nassehi@lboro.ac.uk

 

Education:

 

Ph.D. Chemical Engineering (1997)

Loughborough University, Loughborough, UK

Thesis: Finite Element Modelling of Rubber Mixing Process in Internal Mixers

 

M.Sc. Polymer Engineering (1990)

Tehran Polytechnic University, Tehran-Iran

Thesis: Optimization of rubber extrusion process

 

B.Sc. Polymer Engineering (1987)

Tehran Polytechnic University, Tehran-Iran

Thesis: Flow of non-Newtonian fluids in pipes under laminar and turbulent conditions

Employment:

Iran Polymer and Petrochemical Institute (IPPI) - June 1990 to present

TEHRAN-IRAN

Academic member of Processing Department (Rubber Division)

 

Rubber Industries Eng. & Research Co. (RIERCO) - (July 1988 -June 1990).

TEHRAN-IRAN

Researcher in department of tire design and construction

 

Iran Tire Co. - ( October 87-March 88).

TEHRAN-IRAN

Researcher in compounding department

 

M.Sc. Thesis Supervised

1.      Cure kinetic study and numerical simulation of the vulcanization process of the truck tire tread compound based on NR/IR/BR blend. Feb. 2000.

2.      Numerical simulation of the flow of polymer fluids in coextrusion die for a three-component (Rubber/Foam/Metal) product. March 2001.

3.      Finite element analysis of silicon rubber o-ring seals. September 2003.

4.      Design and optimization of white sidewall compound for steel belted radial tires. April 2004.

5.      Kinetics and mathematical modeling of the changes in rheological behavior of carbon black filled compounds in internal mixers, March 2005.

6.      Temperature prediction in rolling radial truck tire using finite element method, March 2005

7.      Experimental Investigation of Non-isothermal curing kinetics of tread compound of radial tires using RPA, February 2006.

8.      Finite Element analysis of a free rolling radial tire, June 2007.

9.      Experimental and numerical study of processing and geometrical variables on mechanical properties of thermoplastic honeycombs, March 2008

10.  Study and evaluation of crack reduction in NR/BR compounds by EPDM, January 2009.

11.  Simulation of the vulcanization process and kinetics of the cure reaction of the nano filler rubber compounds for a lifter bar rubber product, November 2009.

PhD Thesis Supervised

1.      Numerical simulation of viscoelastic flow of rubber compound through extruder duplex die, March 2004.

2.      Simulation of catalytic heterogeneous reaction in fixed bed reactor: oxidative coupling of methane, August 2008.

Book chapters

1.      Ghoreishy, M.H.R., Numerical Simulation of the Curing Process of Rubber Articles (Chater 11). In: Computational Materials, Editor: Wilhelm U. Oster, Nova Science Publishers Inc. (NY), ISBN: 978-1-60456-896-7

Publications and Presentations

ENGLISH

1.                  Ghoreishy, M. H. R., Pneumatic tire modeling by membrane method. Iranian Journal of Polymer Science and Technology (English Edition) 1993, 2, (1), 37-43.

2.                  Ghoreishy, M. H. R., Transient finite element model of mixing of rubber compounds in a banbury mixer. Iranian Polymer Journal (English Edition) 1996, 5, (1), 30-41.

3.                  Ghoreishy, M. H. R.; Rafizadeh, M., Numerical simulation of thermoplastic melt flow in single screw extruder using finite element method. Plastics, Rubber and Composites Processing and Applications 1996, 25, (3), 120-125.

4.                  Ghoreishy, M. H. R.; Nassehi, V., Modeling the transient flow of rubber compounds in the dispersive section of an internal mixer with slip-stick boundary conditions. Advances in Polymer Technology 1997, 16, (1), 45-68.

5.                  Nassehi, V.; Ghoreishy, M. H. R., Simulation of Free Surface Flow in Partially Filled Internal Mixers. International Polymer Processing 1997, 12, (4), 346-353.

6.                  Nassehi, V.; Ghoreishy, M. H. R.; Freakley, P. K.; Clarke, J., Development of validated, predictive mathematical model for rubber mixing. Plastics, Rubber and Composites Processing and Applications 1997, 26, (3), 103-112.

7.                  Nassehi,V.; Ghoreishy,M.H.R.,  Finite element analysis of mixing in partially filled twin blade internal mixers,” International Polymer Processing 1998, 13, (3), 231-238

8.                  Ghoreishy, M. H. R.; Nouri, M. R., Three-dimensional finite element analysis of a power-law fluid in an extrusion die. Iranian Polymer Journal (English Edition) 1998, 7, (4), 277-287.

9.                  Ghoreishy, M. H. R.; Nouri, M. R., Finite element analysis of thermoplastic melts flow through the metering and die regions of single screw extruders. Journal of Applied Polymer Science 1999, 74, (3), 676-689.

1.                  Ghoreishy, M. H. R.; Razavi-Nouri, M.; Naderi, G., Finite element analysis of flow of thermoplastic elastomer melt through axisymmetric die with slip boundary condition. Plastics, Rubber and Composites 2000, 29, (5), 224-228.

2.                  Ghoreishy, M. H. R., Finite element analysis of a 6.45-14 bias tire under contact load. Iranian Polymer Journal (English Edition) 2001, 10, (1), 45-52.

3.                  Ghoreishy, M. H. R.; Karrabi, M.; Nouri, M. R., Development of optimized rubber compounds for the components of the bead section of a low aspect ratio steel-belted radial tire. Iranian Polymer Journal (English Edition) 2001, 10, (2), 115-123.

4.                  Ghoreishy, M. H. R.; Naderi, G., A new method for the determination of the thermal conductivity of rubber compounds. Iranian Polymer Journal (English Edition) 2001, 10, (5), 315-320.

5.                  Nassehi, V.; Ghoreishy, M. H. R., Modeling of mixing in internal mixers with long blade tips. Advances in Polymer Technology 2001, 20, (2), 132-145.

6.                  Ghoreishy, M.H.R.,  FEA in the Mold. Tire Technology International, 2001, (Annual Review), 74-77.

7.                  Ghoreishy, M.H.R., , A numerical study on the non-linear finite element analysis of a tyre under axisymmetric loading. Iranian Polymer Journal (English Edition) 2002, 11, (5), 325-332.

8.                  Ghoreishy, M. H. R., Modelling the nonlinear deformation in steel-belted radial tyres under inflation loading. Iranian Polymer Journal (English Edition) 2003, 12, (1), 57-65.

9.                  Karrabi, M.; Bakhshandeh, G.; Ghoreishy, M. H. R., Rheological study of tyre tread compound (Part II): A method to study the relaxation time and viscosity index using parallel plate rheometer. Iranian Polymer Journal (English Edition) 2004, 13, (5), 397-404.

10.              Karrabi, M.; Ghoreishy, M. H. R.; Bakhshandeh, G., Rheological study of tyre tread compound (part I): Determination of wall slip coefficient and elastic swell using capillary rheometer. Iranian Polymer Journal (English Edition) 2004, 13, (4), 317-325.

11.              Ghoreishy, M. H. R.; Naderi, G., Three-dimensional finite element modeling of rubber curing process. Journal of Elastomers and Plastics 2005, 37, (1), 37-53.

12.              Ghoreishy, M. H. R.; Naderi, G., Three dimensional finite element modelling of truck tyre curing process in mould. Iranian Polymer Journal (English Edition) 2005, 14, (8), 735-743.

13.              Ghoreishy, M. H. R.; Razavi-Nouri, M.; Naderi, G., Finite element analysis of a thermoplastic elastomer melt flow in the metering region of a single screw extruder. Computational Materials Science 2005, 34, (4), 389-396.

14.              Hanspal, N.S.; Nassehi, V.; Ghoreishy, M.H.R. Numerical analysis of rubber moulding using finite element modeling. International Polymer Processing, 2005, 20, (3), 238-244.

15.              Vahedy, V.;  Ghoreishy, M.H.R. Effects on aspect ratio on tire performance., Rubber World, September 2005, 20-22.

16.              Ghoreishy, M.H.R. A 3D finite element model for the parametric study of the belt construction of a steel-belted radial tire. Tire Technology International, 2005, (Annual Review), 14-16.

17.              Ghoreishy, M. H. R., Finite element analysis of the steel-belted radial tyre with tread pattern under contact load. Iranian Polymer Journal (English Edition) 2006, 15, (8), 667-674.

18.              Ghoreishy, M. H. R., Finite element analysis of steady rolling tyre with slip angle: Effect of belt angle. Plastics, Rubber and Composites 2006, 35, (2), 83-90.

19.              Ghoreishy, M. H. R., Steady state rolling analysis of a radial tyre: Comparison with experimental results. Proceedings of the Institution of Mechanical Engineers, Part D: Journal of Automobile Engineering 2006, 220, (6), 713-721.

20.              Parvazinia, M.; Nassehi, V.; Wakeman, R. J.; Ghoreishy, M. H. R., Finite element modelling of flow through a porous medium between two parallel plates using the Brinkman equation. Transport in Porous Media 2006, 63, (1), 71-90.

21.              Ghoreishy, M.H.R. Development of a finite element code for the 3D simulation of  the curing process. Tire Technology International, 2006, (Annual Review), 84-87.

22.              Ghoreishy, M. H. R.; Malekzadeh, M.; Rahimi, H., A parametric study on the steady state rolling behaviour of a steel-belted radial tyre. Iranian Polymer Journal (English Edition) 2007, 16, (8), 539-548.

23.              Ghoreishy, M.H.R., Malekzadeh, M. and Rahimi, H., Free Rolling Analysis of Radial Tires with detailed Tread Patterns., Tire Technology International, 2007, (Annual review), 66-69.

24.              Ghoreishy, M. H. R., A state of the art review of the finite element modelling of rolling tyres. Iranian Polymer Journal (English Edition) 2008, 17, (8), 571-597.

25.              Yaghobi, N.; Ghoreishy, M. H. R., Oxidative coupling of methane in a fixed bed reactor over perovskite catalyst: A simulation study using experimental kinetic model. Journal of Natural Gas Chemistry 2008, 17, (1), 8-16.

26.              Yaghobi, N.; Ghoreishy, M. H. R.; Eslamimanesh, V., An experimental kinetic model for the oxidative coupling of methane using a bench-scale reactor. Asia-Pacific Journal of Chemical Engineering 2008, 3, (2), 202-210.

27.              Yaghobi, N.; Ghoreishy, M.H.R. Comparative study on the kinetic modeling of the oxidative coupling of methane in laboratory and bench scales. Chemical Product and Process Modeling  2008, (3), 1-24.

28.              Ghasemi, I.; Karrabi, M.; Ghoreishy, M.H.R. Investigation into stress-strain bahaviour of organoclay SBR composite using different constitutive models. Plastics Rubber and Composite 2008, 37, (7), 305-310.

29.              Khosrokhavar, R; Bakhshandeh, G.R.; Ghoreishy, M.H.R.; Naderi, G. PP/EPDM blends and their developments up to Nanocomposites. Journal of Reinforced Plastics and Composite, 2009, 28, 9(5), 613-639.

30.              Yaghobi, N.; Ghoreishy, M.H.R. Modeling the oxidative coupling of methane: Heterogeneous chemistry coupled with 3D flow field simulation. Journal of Natural gas Chemistry 2009,  18, (1), 39-44.

31.              Ghoreishy, M.H.R., Finite element modeling of the steady state rolling of a radial tyre with detailed tread pattern. Iranian Polymer Journal, 2009, 18, (8), 641-650.

32.              Ghoreishy, M.H.R. Viscoelastic analysis of rolling tires using the finite element method, Tire Technology International (Annual review), 2009, 54-57.

33.              Rafei, M., Ghoreishy, M.H.R., Naderi, G., Development of an advanced computer simulation technique for the modeling of rubber curing process, Computational Materials Science, 2009, 47(2), 539-547.

34.              Rahimi, H., Khalili, V., Ghoreishy, M.H.R., Rezadoust A.M., Esfandeh, M., Effects of intertube adhesion on mechanical properties of tubular cell polypropylene honeycombs, Polymers & Polymer Composites, 2009, 17 (8), 513-519.

 

PERSIAN

1.      Ghoreishy, M.H.R. Tension behavior analysis of elastomers by finite element method. Iranian Journal of Polymer Science and Technology (Persian edition), 1991, 4,(4), 279-287.

2.      Ghoreishy,M.H.R.; Rafizadeh,M., “ New method of momentum equation solving under isothermal condition for Non-Newtonian fluids in metering region. Iranian Journal of Polymer Science and Technology (Persian edition), 1992, 5, (3), 196-202.

3.      Naderi,G.; Ghoreishy, M.H.R., “ Scale-up of rubber mixing using unit work method. Iranian Journal of Polymer Science and Technology (Persian edition), 2001/1379, 13, (3), 149-155.

4.      Ghoreishy, M.H.R.; Naderi, G., Three dimensional simulation and development of a computer software for rubber curing process by finite element method", Iranian Journal of Polymer Science and Technology (Persian edition), 2004/1383, 17, (1), 21-28.  

5.      Khodabakhshi, G.; Bakhshandeh, G.R.; Ghoreishy, M.H.R. Analysis of stress-strain bevaior of o-rings under service condition by using finite element method. Iranian Journal of Polymer Science and Technology (Persian edition), 2004/1383, 17, (2), 99-107.

6.      Karrabi, M.; Bakhshandeh, G.R.; Ghoreishy, M.H.R. Numerical simulation of the flow of a tire tread compound through capillary die and laboratory extruder die. Iranian Journal of Polymer Science and Technology (Persian edition), 2004/1383, 17, (4), 229-235.

7.      Ravati, S.; Ghoreishy, M.H.R.; Bakhshandeh, G.R.; Abbasi Soorki, F. Study of rheological properties of rubber/carbon black compounds during incorporation stage in internal mixers. Iranian Journal of Polymer Science and Technology (Persian edition), 2005/1384, 18, (3), 159-169.

8.      Ghoreishy, M.H.R. Finite element modeling of camber angle in radial tire. Iranian RubberMmagazine, 2005/1384, 9, 53-58.

9.      Ghoreishy, M.H.R.; Asghari, G. determination of vulcanization reaction progress in rubber goods with RPA, Iranian Rubber Magazine, 2005/1384, 10, 81-85.

10.  Ghoreishy, M.H.R.; Rahimi, H.;  Malekzadeh, M. Runflat systems: a review. Iranian Rubber Magazine, 2006/1386, 10, 67-78.

11.  Karabi, M.; Bakhshandeh, G.R.; Ghoreishy, M.H.R. Steel belt radial tyre bead area formulation determination by prototyping. Iranian Rubber Magazine, 2006/1385, 10,30-35.

12.  Ghoreishy, M.H.R.; Asghari, G. Experimental study of non-isothermal curing kinetics of SBR compound by direct temperature determination and RPA machine. Iranian Journal of Polymer Science and Technology (Persian edition), 2007, 20, (1), 11-23.

13.  Ghoreishy, M.H.R. et al., Application of microwave, the study of curing kinetic and the effect of different components in elastomeric compound on absorption of microwave. Iranian Rubber Magazine, 2007/1386, 11, 30-35.

14.  Ghoreishy, M.H.R.; Abtahi, M.,A theoretical and experimental study on the footprint analysis of a 185/65r14 radial tyre with tread pattern using finite element method. Iranian Journal of Polymer Science and Technology (Persian edition), 2007/1386, 20, (6), 589-598.

15.  Khalili, V.; Rahimi, H.; Ghoreishy, M.H.R.; Rezadoust, A.M. Modelling of the indentation behaviour of thermoplastic honeycomb sandwich panels. Iranian Journal of Polymer Science and Technology (Persian edition). 2008/1387, 21, (2), 157-166.

16.  Sobhani, H.; Ghoreishy, M.H.R.; Razavi-Nouri, M. 3-dimensional modeling of flow of polymeric fluids with various viscosities in an extrusion die using mixed method and tetrahedral elements. Iranian Journal of Polymer Science and Technology (Persian edition) 2008/1387, 21, (2), 167-179.

17.  Ghoreishy, M.H.R.; Soltani, S.; Naderi, G. Studies on properties of short fiber reinforced natural rubber composites.  Iranian Journal of Polymer Science and Technology (Persian edition) 2008/1387, 21, (3), 259-267.

18.  Ghoreishy, M.H.R.; A parametric study on the effect of the rim diameter in a radial tire performance using finite element method, Iranian Rubber Magazine, 2008/1387, 13, 4-12.

19.  Ghoreishy, M.H.R., An experimental and numerical verification of different hyperelastic material models for rubbers under tension and compression loads,   Iranian Journal of Polymer Science and Technology (Persian edition) 2009/1388, 22, (4), 273-284.

PRESENTAIONS

1.      Yaghobi, N., Ghoreishy, M.H.R.,  Oxidative coupling of methane: an experimental and simulation study, IChEC2009, 16-20 Nov. 2009, Kish Island, Iran.

2.      Ghoreishy, M.H.R.  Finite element modeling of tires (a keynote lecture), ISPST2009, 17-21October 2009, Tehran, Iran.

3.      Sobhani, H, Ghoreishy, M.H.R., Razavi-nouri, M., Anderson, P. Transient simulation of polymeric fluid flow in an intermeshing twin screw extruder using fictious domain method, ISPST2009, 17-21October 2009, Tehran, Iran.

4.      Ghoreishy, M.H.R., Naderi, G., Rafei, M., Bakhshandeh,  G.R., Nasiri, M., Adanced computer simulation of rubber curing process, ISPST2009, 17-21October 2009, Tehran, Iran.

5.      Sobhani, H., Ghoreishy, M.H.R., Razavi-nouri, M., Quasi steady state simulation of polymeric fluids flow in an intermeshing co-rotating twin screw extruder (TSE), ISPST2009, 17-21October 2009, Tehran, Iran.

6.      Khosrokhavar, R., Naderi, G., Bakhshande, G.R., Ghoreishy, M.H.R.Effect of processing conditions on the formation of PP/EPDM/Organoclay nanocomposites in a twin screw extruder, ISPST2009, 17-21October 2009, Tehran, Iran.

7.      Soltani, S., Naderi, G. Ghoreishy, M.H.R., Mechanical and morphological properties of waste short Nylon fiber composites based on NR/SBR, ISPST2009, 17-21October 2009, Tehran, Iran.

8.      Razavi Nouri, M.; Naderi, G.; Ghoreishy, M.H.R. Morphological properties of thermoplastic elastomer nanocomposites based on NBR/PP, 25th Annual Meeting of the Polymer Processing Society, 1-5 March 2009, Goa, India.

9.      Ghoreishy, M.H.R., Viscoelastic analysis of rolling tires using FEM  (a numerical study) , Tire Technology Expo 2009 Conference, 17-19 February 2009, Hamburg, Germany.

10.  Yaghobi, N. and Ghoreishy, M.H.R., Natural gas conversion to ethylene: An experimental and numerical study, Proceedings of the 1st Annual Gas Processing Symposium, 10-12 January 2009, Doha, Qatar.

11.  Ghoreishy, M.H.R. Prediction of tire performance using virtual and experimental techniques. 9th Iranian National Rubber Conference, 28-29 Aban 138, Kish, Iran.

12.  Badripour, M.; Ehsani, M.; Ghoreishy, M.H.R. Effect of pre-cured EPDM in NRBR blend properties for tire sidewall, 9th Iranian National Rubber Conference, 28-29 Aban 138, Kish, Iran.

13.  Nderi, G.; Abolfathi, A.; Bakhshandeh, G.R.; Ghoreishy, M.H.R. Effect of NR viscosity on mechanical properties of NR/BR nano-composite. 9th Iranian National Rubber Conference, 28-29 Aban 138, Kish, Iran.

14.  Naderi, G.; Ghoreishy, M.H.R.; Soltani, S. Rheological and morphological properties of short Nylon fiber NR/SBR composites. International Rubber Technology Conference, 20-23 October 2008, Kuala Lumpur, Malaysia.

15.  Soltani, S.; Ghoreishy, M.H.R.; Naderi, G. Study on short fiber reinforced NR/SBR composites. International Rubber Technology Conference, 20-23 October 2008, Kuala Lumpur, Malaysia.

16.  Sobhani, H.; Ghoreishy, M.H.R.; Razavi-Nouri, M. Flow analysis of polymeric fluids in extrusion die using mixed finite element method and tetrahedral elements. 1st  National Conference on Application of CFD in Chemical Engineering, 25-26 Ordibehesht 1387, Kermanshah, Iran.

17.  Yaghobi, N.; Ghoreishy, M.H.R. Simulation of flow with reaction: oxidative coupling of methane.  1st  National Conference on Application of CFD in Chemical Engineering, 25-26 Ordibehesht 1387, Kermanshah, Iran.

18.  Yaghobi, N.; Ghoreishy, M.H.R. Oxidative coupling of methane: interaction between chemical kinetics and transport phenomena. 2nd national conference of Natural Gas Conversion, 24-25 Ordibehesht 1387, Tehran, Iran.

19.  Rahimi, H.; Ghoreishy, M.H.R.; Rezadoust, A.M.; Esfandeh, M.; Khalili, V. In-plane tensile core delamination strength of tubular cell polypropylene honeycombs. 8th International Conference on Sandwich Structures (ICSS 8), 6-8 May 2008, Porto, Portugal.

20.  Sobhani, H., Yousefi, A.A., Razavi Nouri, M. and  Ghoreishy, M.H.R., "Simulation of Elongational Flow in a Two-Channel Die for PVDF Film Extrusion", ISPST2007, 23-25 October 2007, Tehran, Iran.

21.  Ghoreishy, M.H.R. and Soltani, S., "Finite Element Analysis of the Steady Rolling Behavior of a Truck Tire", ISPST2007, 23-25 October 2007, Tehran, Iran.

22.  Ghoreishy, M.H.R., "Finite Element Modeling of Tires with Detailed Tread Pattern", Tire Technology Expo 2007 Conference, 13-15 March 2007, Cologne, Germany.

23.  Ghoreishy, M. H. R., "On the Finite Element Results of the Steel-Belted Radial Tires", 8th Iranian National Rubber Conference, 23-24 Aban 1385, Shiraz, Iran.

24.  Ghoreishy, M.H.R., "Development of a Finite Element Code for the 3D Simulation of the Curing Process of Tires", Tire Technology Expo 2006 Conference, 7-9 March 2006, Stuttgart, Germany.

25.  Parvazinia, M., Nassehi, V., Ghoreishy, M.H.R. "Isothermal flow of Shear Thinning Fluids Through a Highly Permeable Porous Medium with Impermeable Walls", ISTP-16, 29 Aug-1 Sept. 2005,  Prague.

26.  Parvazinia, M., Nassehi, V., Ghoreishy,M.H.R. and Wakeman,R.J., "Channelling Phenomena in Non-Isothermal Flow in Highly Permeable Porous Medium", ISPST2005. 27-29 September 2005, Tehran, Iran.

27.  Ravati, S., Ghoreishy, M.H.R., Bakhshandeh, Gh., and Abbasi Sourki, F., "A Mixing Dependent Approach for Rubber/Carbon Black Compounds in Internal Mixers",  ISPST2005. 27-29 September 2005, Tehran, Iran.

28.  Ghoreishy, M.H.R. "Finite Element Modeling of a Steel-Belted Radial Tire under Axisymmetric Load using Rebar Elements",  ISPST2005. 27-29 September 2005, Tehran, Iran.

29.  Ravati, S., Ghoreishy, M.H.R., Bakhshandeh, Gh., and Abbasi Sourki, F., "Mathematical Model for Determination of the Real Content of Carbon Black in carbon Black/Rubber Agglomerates", ISPST2005. 27-29 September 2005, Tehran, Iran.

30.  Ghoreishy, M.H.R., "A Finite Element Model for the Simulation of the Strain Energy Dissipation in a Tire Tread Block",  ISPST2005. 27-29 September 2005, Tehran, Iran.

31.  Ghoreishy, M.H.R. "A 3D Finite Element Model for the Parametric Study of Belt Construction of a Steel-Belted Radial Tire", Tire Technology Expo 2005 Conference, 22-24 February 2005, Cologne, Germany.

32.  Ghoreishy, M.H.R . et al , "3D Simulation of the Curing Process of Truck Tires with Complex Tread Patterns", 7th Iranian National Rubber Conference, 3-4 Azar 1383, Kerman, Iran.

33.  Ghoreishy M.H.R., "A Comparison Between the Flow in Two Screw Types in A Hot Feed Extruder Using Finite Element Method", 7th Iranian National Rubber Conference, 3-4 Azar 1383, Kerman, Iran.

34.  Ghoreishy, M.H.R. and Razavi-Nouri, M., "Modeling the Flow of TPEs in the Metering Zone of Single Screw Extruders using a Helical Geometry Model", World Polymer Congress (MACRO 2004), Paris, France, 4-9 July 2004.

35.  Karabi, M. Ghoreishy M.H.R. and Bakhshandeh G. R., "Study of the Rheological Behavior of Rubber Compound of the Tread of  Steel-Belted Radial Tires", 8th National Congress of Chemical Engineering, Mashad, Iran, 1382.

36.  Ghoreishy, M.H.R., "Finite Element Axisymmetric Analysis of Steel-Belted Radial Tires, ISPST2003. 12-15 May 2003, Tehran, Iran.

37.  Ghoreishy, M.H.R. and Naderi G., "A Three Dimensional Finite Element Model for Rubber Curing Process, ISPST2003, 12-15 May 2003, Tehran, Iran.

38.  Karrabi, M.,  Ghoreishy, M.H.R., and Bakhshandeh, G.R., "Rheological Study of Tire Tread Compound Using Two-Parallel Plate Rheometer, ISPST2003, 12-15 May 2003, Tehran, Iran.

39.  Parvazinia, M., Ghoreishy M.H.R. and Nassehi, V., "Flow Modelling In Porous Media Using Brinkman Equation, ISPST2003, 12-15 May 2003, Tehran, Iran.

40.  Ghoreishy, M.H.R., “ Simulation of the Vulcanisation Process of a Passenger Car Tire in the Curing Mold using Finite Element Methods,” Tire Technology Expo 2001 Conference, 10-12 January 2001, Cannes, France

41.  Ghoreishy, M.H.R. and Razavi Nouri, M., “ Simulation of Flow in Single Screw Extruders using Finite Element Method,” Fifth Seminar on Polymer Science and Technology, 12-14 September 2000, Tehran, Iran

42.  Karabi, M., Ghoreishy,M.H.R. and Naderi, G., “ Study of the Flow of a Tire Tread Compound in a Laboratory-Scale Extruder using COSMOS/M,” Fifth Seminar on Polymer Science and Technology, 12-14 September 2000, Tehran, Iran

43.  Karabi, M., Ghoreishy, M.H.R. and Bakhshandeh, G.R. "Determination of the Slip Coefficient and Rheological Parameters of Rubber Compounds Using Capillary Tube Viscometer", 7th Iranian National Rubber Conference, 3-4 Esfand 1378, Shiraz, Iran.

44.  Ghoreishy, M.H.R., Nassehi,V., and Hashemi, S.A., “ A New Method for the Modelling of Rubber Mixing,” Int. Seminar on Polymer Science and Technology, 3-5 November 1997, Tehran, Iran.

45.  Heydarzadeh, H., Savadlu, S., Sheikhol-eslami, F., and Ghoreishy, M.H.R., “ Finite Element Analysis of a Compactor Bias Tire under Contact Loading.”, Third Int. Rubber Technology, Conference , 28-30 October 1996, Tehran, Iran.

46.  Ghoreishy, M.H.R., Nassehi, V. and Hashemi, S.A., “ Modelling the Flow of Rubber Compound in a Single Blade Banbury Mixer with Multiple Random Free Surface,” Third Int. Rubber Technology Conference, 28-30 October 1996, Tehran, Iran.

47.  Ghoreishy, M.H.R., and Rafizadeh, M., “ A new approach to the numerical simulation of Polyethylene melt flow in the metering region of a single screw extruder,” Int. Seminar of Polymer Science and Technology, 2-4 May 1994, Shiraz, Iran.

48.  Ghoreishy,M.H.R., and Hosseini, F., “ Finite element analysis of a PU tire under footprint loading using COSMOS/M,” Int. Seminar of Polymer Science and Technology, 2-4 May 1994, Shiraz, Iran

49.  Ghoreishy, M.H.R., “ Finite element stress-strain analysis of a bias tire under inflation pressure,” Proceeding Int. Rubber. Technology Conference, 1993, Kuala Lumpur, Malaysia.

50.  Ghoreishy, M.H.R., “ Pneumatic tire modeling by membrane method,” Int. Rubber Technology Conference, 3-8 November 1991, Tehran, Iran.

51.  Ghoreishy, M.H.R., “ Tire inflated shape prediction by finite element method,” Int. Rubber Technology Conference, 3-8 November 1991, Tehran, Iran.

52.  Ghoreishy, M.H.R. and Nazokdast, H, and Dabir, B., “ The optimization and mathematical modeling of extrusion process of elastomers ( part I, II),” Polymer Science and Technology Seminar , 1990, Tehran, Iran

Interested research fields

1.      Numerical simulation and optimization of polymer processing operations especially rubber mixing, extrusion and curing.

2.      Finite element modeling of tire and the other rubber parts under mechanical and thermal loading.

3.      Development of computer software in rubber industry especially for tire design.

4.      General application of finite element method in polymer engineering.

5.      Development of new constitutive models for polymer melts and rubber.

6.      Development and design of rubber compounds for low-aspect ratio and high-speed tires.

7.      General application of finite element method in design and optimization of structures.

 

Additional Qualifications

1.      Computer programming in FORTRAN, C and Visual Basic for the development of polymer processing related applications..

2.      Full experience in FEM application software ABAQUS, COSMOS/M and MARC. Ability to apply this software in solving existing polymer processing and polymer mechanics problems including heat transfer (linear and nonlinear, steady and transient), solid mechanics (linear and nonlinear with special features for elastomeric materials) and fluid flow.

3.       I have also developed the following computer programs:

·         TIMA: Tire Inflation Membrane Analysis ( C language ) with graphical representing of results.

·         CARP: Carpet plot drawing for bias tires ( C language )

·         METREX: Extrusion process simulation for metering region (non-Newtonian nonisothermal) in C language with graphical representing of results.

·         FEAFEM, A detailed computer program for the simulation of flow problems under transient , non-isothermal , non-Newtonian and 2-dimensional (x,y and axisymmetric) conditions with slip boundary condition and multiple random free surface based on the finite element method. ( FORTRAN on UNIX O.S. )

·         FEFT3 : A computer program for the simulation of the flow of non-Newtonian fluids under non-isothermal condition in three-dimensional framework based on the use of finite element method.

·         KINETICS: A computer program fully integrated with COSMOS/M software for the prediction of the state of the cure in tire and the other rubber goods during the vulcanization process.

·         FEH3D: A three-dimensional finite element program for the simulation of the heat transfer and curing process in rubber articles developed in Visual Basic for Windows environment.

·         METWIN, A Windows 98 version of METREX developed in Visual basic

·         RHEOCURE, A Windows based code for the determination of the degree of cure, rate of cure and equivalent time for the process of the tire and rubber articles vulcanization process.