Author Index

A

Alizadeh.Mansour Effect of Porosity on Nonlinear Tip Deflection of Functionally Graded Piezoelectric Actuators [ Vol.15, Issue 2 - Summer Year 1403]
Amirsardari.Fateme Electrochemical deposition of CdTE and investigating the effect of potential deviation from stoichiometric potential [ Vol.15, Issue 57 - Autumn Year 1403]
Avak.Karim Introduction: Titanium alloys containing the β phase have much better corrosion resistance. Some alloying elements, such as Mo, stabilize this phase. Among the Ti alloys that contain this element, the Ti-10Mo alloy is of particular importance. If this alloy is produced using selective laser melting (SLM), it will be an approach that is user-friendly due to the nature of the process. Methods: Samples were printed by SLM process. The constituent phases were determined by XRD. The microstructure was evaluated using optical and scanning electron microscopes. Corrosion behavior was evaluated by cyclic potentiodynamic polarization and electrochemical impedance spectroscopy. Findings: In the XRD pattern of pure Ti powder and printed sample, α and α/α' phases are seen, respectively. However, Ti-10Mo powder mixture consists of α and Mo phases, the β phase is more dominant in printed sample because of the Mo penetration in the Ti matrix. As well as, in the microstructure of Ti10Mo the beta phase is seen as Mo-rich streaks, whereas in pure Ti it is found relatively negligible as epitaxially grown primary columnar β grains with acicular α' martensite phase. Mo addition to pure Ti reduces its passive current density and stabilize oxide film. However, Ti-10Mo alloy, with its various phases and galvanic couples, experiences rupture of the passive oxide film at higher potentials, leading to pitting corrosion. The impedance module value of Ti-10Mo is higher than that of pure Ti. Both samples have a double passive oxide film, with Ti-10Mo alloy exhibiting higher resistance than pure Ti. [ Vol.15, Issue 1 - Spring Year 1403]
Azadbeh.Maziyar Introduction: Titanium alloys containing the β phase have much better corrosion resistance. Some alloying elements, such as Mo, stabilize this phase. Among the Ti alloys that contain this element, the Ti-10Mo alloy is of particular importance. If this alloy is produced using selective laser melting (SLM), it will be an approach that is user-friendly due to the nature of the process. Methods: Samples were printed by SLM process. The constituent phases were determined by XRD. The microstructure was evaluated using optical and scanning electron microscopes. Corrosion behavior was evaluated by cyclic potentiodynamic polarization and electrochemical impedance spectroscopy. Findings: In the XRD pattern of pure Ti powder and printed sample, α and α/α' phases are seen, respectively. However, Ti-10Mo powder mixture consists of α and Mo phases, the β phase is more dominant in printed sample because of the Mo penetration in the Ti matrix. As well as, in the microstructure of Ti10Mo the beta phase is seen as Mo-rich streaks, whereas in pure Ti it is found relatively negligible as epitaxially grown primary columnar β grains with acicular α' martensite phase. Mo addition to pure Ti reduces its passive current density and stabilize oxide film. However, Ti-10Mo alloy, with its various phases and galvanic couples, experiences rupture of the passive oxide film at higher potentials, leading to pitting corrosion. The impedance module value of Ti-10Mo is higher than that of pure Ti. Both samples have a double passive oxide film, with Ti-10Mo alloy exhibiting higher resistance than pure Ti. [ Vol.15, Issue 1 - Spring Year 1403]
Azadbeh.Maziyar The variations, with temperature, of the morphology of metastable phases in 3000 & 5000 Aluminium alloys [ Vol.15, Issue 2 - Summer Year 1403]

E

Esmaeilpour.Mohsen Investigating the performance of ion-imprinted polymer adsorbent for removing heavy metal zinc from aqueous environment [ Vol.15, Issue 2 - Summer Year 1403]
Etminanfar.Mohammadreza Introduction: Titanium alloys containing the β phase have much better corrosion resistance. Some alloying elements, such as Mo, stabilize this phase. Among the Ti alloys that contain this element, the Ti-10Mo alloy is of particular importance. If this alloy is produced using selective laser melting (SLM), it will be an approach that is user-friendly due to the nature of the process. Methods: Samples were printed by SLM process. The constituent phases were determined by XRD. The microstructure was evaluated using optical and scanning electron microscopes. Corrosion behavior was evaluated by cyclic potentiodynamic polarization and electrochemical impedance spectroscopy. Findings: In the XRD pattern of pure Ti powder and printed sample, α and α/α' phases are seen, respectively. However, Ti-10Mo powder mixture consists of α and Mo phases, the β phase is more dominant in printed sample because of the Mo penetration in the Ti matrix. As well as, in the microstructure of Ti10Mo the beta phase is seen as Mo-rich streaks, whereas in pure Ti it is found relatively negligible as epitaxially grown primary columnar β grains with acicular α' martensite phase. Mo addition to pure Ti reduces its passive current density and stabilize oxide film. However, Ti-10Mo alloy, with its various phases and galvanic couples, experiences rupture of the passive oxide film at higher potentials, leading to pitting corrosion. The impedance module value of Ti-10Mo is higher than that of pure Ti. Both samples have a double passive oxide film, with Ti-10Mo alloy exhibiting higher resistance than pure Ti. [ Vol.15, Issue 1 - Spring Year 1403]

F

Faghihi.Morteza Investigating the performance of ion-imprinted polymer adsorbent for removing heavy metal zinc from aqueous environment [ Vol.15, Issue 2 - Summer Year 1403]

G

Ghasemi Banadkouki.Seyed Sadegh Phase Transformations of Low-Alloy Steel DIN 1.5025 under Isothermal Holding in the Bainitic Region and the Formation of Microcomposite Microstructures [ Vol.15, Issue 2 - Summer Year 1403]
Gholami.Mohammad Effect of Porosity on Nonlinear Tip Deflection of Functionally Graded Piezoelectric Actuators [ Vol.15, Issue 2 - Summer Year 1403]
Goodarzian.Nooredin Stabilization of Doxorubicin Drug on Graphene Oxide Nanosystem and Computer simulation Study (In-Silico) on Topoisomerase II Enzyme [ Vol.15, Issue 1 - Spring Year 1403]

H

Hasanzadeh.Neda Stabilization of Doxorubicin Drug on Graphene Oxide Nanosystem and Computer simulation Study (In-Silico) on Topoisomerase II Enzyme [ Vol.15, Issue 1 - Spring Year 1403]

J

Jazirehpour.Mohammad Investigation of the Effect of Processing and Sintering Parameters on Voltage-Dependent Variable Resistors for Controlling Voltage and Leakage Current in ZnO-Based Compositions [ Vol.15, Issue 1 - Spring Year 1403]

K

Karamouz.Seyyed Mahdi Investigation of the Effect of Willow Tree Gall Extract as a Green Corrosion Inhibitor for St37 Steel in 1 M Hydrochloric Acid Environment [ Vol.15, Issue 2 - Summer Year 1403]

L

Lotfi.Behnam Fabrication of Ti Bulk amorphous alloys by mechanical alloying and plasma sintering methods and evaluation of structure and corrosion behavior [ Vol.15, Issue 1 - Spring Year 1403]

M

Maleki.Miad Investigation of the Effect of Processing and Sintering Parameters on Voltage-Dependent Variable Resistors for Controlling Voltage and Leakage Current in ZnO-Based Compositions [ Vol.15, Issue 1 - Spring Year 1403]
Manafi.Khatereh The variations, with temperature, of the morphology of metastable phases in 3000 & 5000 Aluminium alloys [ Vol.15, Issue 2 - Summer Year 1403]
Mashreghi.Ali Electrochemical deposition of CdTE and investigating the effect of potential deviation from stoichiometric potential [ Vol.15, Issue 57 - Autumn Year 1403]
Mehdipour Rabori.Erfan Investigation of the Effect of Willow Tree Gall Extract as a Green Corrosion Inhibitor for St37 Steel in 1 M Hydrochloric Acid Environment [ Vol.15, Issue 2 - Summer Year 1403]
Mohammadi.Mohammad Kazem Stabilization of Doxorubicin Drug on Graphene Oxide Nanosystem and Computer simulation Study (In-Silico) on Topoisomerase II Enzyme [ Vol.15, Issue 1 - Spring Year 1403]
Mollazadeh Beidokhti.Sahar Assessment of the biological performance of a Ti-6Al-4V/Ti double layer structure created through spark plasma sintering. [ Vol.15, Issue 2 - Summer Year 1403]
Mollazadeh Beidokhti.Sahar Synthesis of calcium phosphate particles via the solution combustion method and investigation of the effects of initial pH and heat treatment temperature on the physical and biological properties of the produced powder [ Vol.15, Issue 1 - Spring Year 1403]
Moradi Ardakani.Mohammad Hadi Phase Transformations of Low-Alloy Steel DIN 1.5025 under Isothermal Holding in the Bainitic Region and the Formation of Microcomposite Microstructures [ Vol.15, Issue 2 - Summer Year 1403]
Moshrefifar.Masoud The effect of the chemical composition of the substrate and Na2WO4 additive on the microstructure and corrosion behavior of PEO coatings of aluminum-silicon alloys [ Vol.15, Issue 1 - Spring Year 1403]

N

Naseri.Hossein Fabrication of Ti Bulk amorphous alloys by mechanical alloying and plasma sintering methods and evaluation of structure and corrosion behavior [ Vol.15, Issue 1 - Spring Year 1403]

O

Ojaghi.Mehdi Introduction: Titanium alloys containing the β phase have much better corrosion resistance. Some alloying elements, such as Mo, stabilize this phase. Among the Ti alloys that contain this element, the Ti-10Mo alloy is of particular importance. If this alloy is produced using selective laser melting (SLM), it will be an approach that is user-friendly due to the nature of the process. Methods: Samples were printed by SLM process. The constituent phases were determined by XRD. The microstructure was evaluated using optical and scanning electron microscopes. Corrosion behavior was evaluated by cyclic potentiodynamic polarization and electrochemical impedance spectroscopy. Findings: In the XRD pattern of pure Ti powder and printed sample, α and α/α' phases are seen, respectively. However, Ti-10Mo powder mixture consists of α and Mo phases, the β phase is more dominant in printed sample because of the Mo penetration in the Ti matrix. As well as, in the microstructure of Ti10Mo the beta phase is seen as Mo-rich streaks, whereas in pure Ti it is found relatively negligible as epitaxially grown primary columnar β grains with acicular α' martensite phase. Mo addition to pure Ti reduces its passive current density and stabilize oxide film. However, Ti-10Mo alloy, with its various phases and galvanic couples, experiences rupture of the passive oxide film at higher potentials, leading to pitting corrosion. The impedance module value of Ti-10Mo is higher than that of pure Ti. Both samples have a double passive oxide film, with Ti-10Mo alloy exhibiting higher resistance than pure Ti. [ Vol.15, Issue 1 - Spring Year 1403]

P

Pargaleh boroujeni.Sedigheh Stabilization of Doxorubicin Drug on Graphene Oxide Nanosystem and Computer simulation Study (In-Silico) on Topoisomerase II Enzyme [ Vol.15, Issue 1 - Spring Year 1403]
Pashangeh. Shima Phase Transformations of Low-Alloy Steel DIN 1.5025 under Isothermal Holding in the Bainitic Region and the Formation of Microcomposite Microstructures [ Vol.15, Issue 2 - Summer Year 1403]
Pourshoja.Arezoo Introduction: Titanium alloys containing the β phase have much better corrosion resistance. Some alloying elements, such as Mo, stabilize this phase. Among the Ti alloys that contain this element, the Ti-10Mo alloy is of particular importance. If this alloy is produced using selective laser melting (SLM), it will be an approach that is user-friendly due to the nature of the process. Methods: Samples were printed by SLM process. The constituent phases were determined by XRD. The microstructure was evaluated using optical and scanning electron microscopes. Corrosion behavior was evaluated by cyclic potentiodynamic polarization and electrochemical impedance spectroscopy. Findings: In the XRD pattern of pure Ti powder and printed sample, α and α/α' phases are seen, respectively. However, Ti-10Mo powder mixture consists of α and Mo phases, the β phase is more dominant in printed sample because of the Mo penetration in the Ti matrix. As well as, in the microstructure of Ti10Mo the beta phase is seen as Mo-rich streaks, whereas in pure Ti it is found relatively negligible as epitaxially grown primary columnar β grains with acicular α' martensite phase. Mo addition to pure Ti reduces its passive current density and stabilize oxide film. However, Ti-10Mo alloy, with its various phases and galvanic couples, experiences rupture of the passive oxide film at higher potentials, leading to pitting corrosion. The impedance module value of Ti-10Mo is higher than that of pure Ti. Both samples have a double passive oxide film, with Ti-10Mo alloy exhibiting higher resistance than pure Ti. [ Vol.15, Issue 1 - Spring Year 1403]

S

Sadeghian.Zohreh Fabrication of Ti Bulk amorphous alloys by mechanical alloying and plasma sintering methods and evaluation of structure and corrosion behavior [ Vol.15, Issue 1 - Spring Year 1403]
Sami.Neda Synthesis of calcium phosphate particles via the solution combustion method and investigation of the effects of initial pH and heat treatment temperature on the physical and biological properties of the produced powder [ Vol.15, Issue 1 - Spring Year 1403]
Sharifi.Alireza Assessment of the biological performance of a Ti-6Al-4V/Ti double layer structure created through spark plasma sintering. [ Vol.15, Issue 2 - Summer Year 1403]

V

Vahdati Khaki.Jalil Assessment of the biological performance of a Ti-6Al-4V/Ti double layer structure created through spark plasma sintering. [ Vol.15, Issue 2 - Summer Year 1403]
Vahdati Khaki.Jalil Synthesis of calcium phosphate particles via the solution combustion method and investigation of the effects of initial pH and heat treatment temperature on the physical and biological properties of the produced powder [ Vol.15, Issue 1 - Spring Year 1403]