En
  • دکتری (1368)

    خوردگی و حفاظت از مواد

    دانشگاه منچستر، منچستر، انگلستان

  • کارشناسی‌ارشد (1364)

    خوردگی و حفاظت از مواد

    دانشگاه منچستر، منچستر، انگلستان

  • کارشناسی (1358)

    مهندسی متالورژی

    دانشگاه صنعتی شریف، تهران، ایران

  • جنبه های الکتروشیمیایی خوردگی
  • بازدارنده های خوردگی
  • پوشش های مقاوم در برابر خوردگی
  • حفاظت کاتدی خطوط لوله و سازه های دریایی
  • آزمایشگاه خوردگی و حفاظت

دکتر تقی شهرابی فراهانی، در فروردین 1334 در تهران به دنیا آمد. وی مدرک كارشناسی خود را در رشته مهندسی متالورژی از دانشكده مهندسی مواد و متالورژی دانشگاه صنعتی شریف در سال 1358 اخذ نمود. ایشان، مدرک کارشناسی ارشد و دکترای خود را در رشته خوردگی و حفاظت از مواد از دانشگاه منچستر انگلستان به ترتیب در سالهای 1364 و 1368 دريافت نمود. وی اكنون، استاد دانشکده فنی و مهندسی دانشگاه تربيت مدرس است. زمينه پژوهشی مورد علاقه او، جنبه های الکتروشیمیایی خوردگی، حفاظت کاتدی و همچنین پوششهای مقاوم در برابر خوردگی است. تاکنون، 130 پایان نامه کارشناسی ارشد و رساله دکتری، تحت راهنمایی و مشاوره ایشان، به ثمر رسیده است و بیش از 200 مقاله، از نتایج این پایان نامه و رساله ها در ژورنالهای معتبر بین المللی، به چاپ رسیده است. وی در سالهای 87، 89، 92، 94، 98 و 1401، به عنوان پژوهشگر برتر دانشگاه، در سال 1387، به عنوان استاد نمونه دانشگاه، و در سال 1398، به عنوان مدیر گروه برتر دانشگاه، انتخاب گردید.

Retraction notice to" Construction of an excellent eco-friendly anti-corrosion system based on epoxy@ Sm2O3-polydopamine biopolymer on the mild steel surface"[Journal of the?…

Farshad Bahremand, Taghi Shahrabi, Bahram Ramezanzadeh
Journal PapersJournal of the Taiwan Institute of Chemical Engineers , Volume 119 , 2021 February 1, {Pages 313 }

Abstract

Retraction notice to" Construction of an excellent eco-friendly anti-corrosion system based on [email protected] Sm2O3-polydopamine biopolymer on the mild steel surface"[Journal of the Taiwan Institute of Chemical Engineers 113 (2020) 332-343]

Zn-Al layered double hydroxide as an inhibitive conversion coating developed on AA2024-T3 by one-step hydrothermal crystallization: Crystal structure evolution and corrosion?…

Iman Mohammadi, Taghi Shahrabi, Mohammad Mahdavian, Mazdak Izadi
Journal PapersSurface and Coatings Technology , Volume 409 , 2021 March 15, {Pages 126882 }

Abstract

In the present work, a Znsingle bondAl layered double hydroxide (LDH) conversion coating was synthesized on 2024-T3 aluminum alloy by a one-step hydrothermal method. For this purpose, the effect of synthesis parameters, including the amount of Zn2+ cations and hexamethylenetetramine molecules, on the structural changes were evaluated by using the scanning electron microscopy (SEM) equipped with energy dispersive spectroscopy (EDS) analysis and X-ray diffraction (XRD) spectroscopy. Also, benzimidazole (BI), as corrosion inhibitor of the AA2024-T3, was intercalated into the LDH film structure by an anion-exchange process. The intercalation of BI molecules into the LHD structure was studied using the SEM-EDS and XRD analysis. Furthermore, elec

An analytical study on nucleation and growth mechanism of nanostructured Ni-Se coating by the chronoamperometry and pulse potential techniques

S Esmailzadeh, T Shahrabi, Y Yaghoubinezhad, Gh Barati Darband
Journal PapersJournal of Electroanalytical Chemistry , Volume 881 , 2021 January 15, {Pages 114949 }

Abstract

The current paper aimed to investigate the mechanism of Ni-Se electrodeposition and contribute a comprehensive understanding of Ni-Se deposition by pulse potential technique. Firstly, electrochemical mechanisms including the reactions and nucleation mechanism of Ni-Se on glassy carbon electrode were studied using cyclic voltammetry (CV) and chronoamperometry (CA) techniques, respectively. Moreover, to investigate the nucleation and growth mode influenced by different concentrations and applied deposition potential, experimental results were fitted into Bewick 2D nucleation and Scharifker-Hills 3D nucleation models. Current transient curves showed the electrodeposition of Ni-Se phase follows both the 2D nucleation and 3D progressive nucleati

Optimization of nickel selenide for hydrogen and oxygen evolution reactions by response surface methodology

S Esmailzadeh, T Shahrabi, Y Yaghoubinezhad, Gh Barati Darband
Journal PapersJournal of Colloid and Interface Science , 2021 May 5, {Pages }

Abstract

In this study, the electrocatalytic activity of Ni-Se electrode synthesized on nickel foam by pulse electrodeposition was optimized through the design of experiments (DOE) approach using the response surface methodology (RSM) for both hydrogen and oxygen evolution reactions. The frequency (f), duty cycle (dc), current density (i), and electrodeposition time (sum of tons) were chosen as the parameters of the pulse electrodeposition method. The analyses of variance (ANOVA) were performed on the responses of the designed experiments that included the required overpotential at the current density of 10 mA/cm2 for hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) (η10,HER and η10,OER), active surface area (Rf) and intrinsic

Optimization and characterization of pulse electrodeposited nickel selenide nanostructure as a bifunctional electrocatalyst by response surface methodology

S Esmailzadeh, T Shahrabi, Y Yaghoubinezhad, Gh Barati Darband
Journal PapersInternational Journal of Hydrogen Energy , 2021 April 13, {Pages }

Abstract

The electrocatalytic activity of the pulse electrodeposited Ni–Se coating on nickel foam (NF) for hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) was optimized by design of experiments. In this study as the first step of optimization, the condition of electrodeposition bath containing the ratio of Se/Ni, pH, and temperature was optimized. The response surface methodology (RSM) in central composite design (CCD) was used for experiments based on the parameters of the ratio of Se/Ni and pH. The prediction model after carrying out the analyses of variance (ANOVA) on the responses showed the best desirable values for the ratio of Se/Ni and pH were 0.7 and 3.6. The nanostructure Ni–Se electrode electrodeposited in the op

Chemical modification of LDH conversion coating with diethyldithiocarbamate as a novel anti-corrosive film for AA2024-T3

I Mohammadi, T Shahrabi, M Mahdavian, M Izadi
Journal Papers , , {Pages }

Abstract

Zn-Al layered double hydroxide as an inhibitive conversion coating developed on AA2024-T3 by one-step hydrothermal crystallization: Crystal structure evolution and corrosion …

I Mohammadi, T Shahrabi, M Mahdavian, M Izadi
Journal Papers , , {Pages }

Abstract

Retraction notice to" Construction of an excellent eco-friendly anti-corrosion system based on epoxy@ Sm2O3-polydopamine biopolymer on the mild steel surface"[Journal of the …

F Bahremand, T Shahrabi, B Ramezanzadeh
Journal Papers , , {Pages }

Abstract

Direct electrodeposition of platinum nanoparticles@ graphene oxide@ nickel-copper@ nickel foam electrode as a durable and cost-effective catalyst with remarkable performance?…

N Lotfi, T Shahrabi, Y Yaghoubinezhad, Gh Barati Darband
Journal PapersApplied Surface Science , Volume 505 , 2020 March 1, {Pages 144571 }

Abstract

Development of high-performance catalyst materials with superior activity is among the high challenges in hydrogen production. In this study, the platinum nanoparticles@graphene oxide@nickel-copper@nickel foam (Pt@GO@Ni-Cu@NF) electrode was fabricated using the electrodeposition method. The synthesized electrode demonstrated a high electrocatalytic activity and superior stability in alkaline solution. The required overpotentials for delivering 10, 20, and 100 mA cm−2 were 31, 50, and 128 mV vs. RHE, respectively. The hydrogen evolution reaction (HER) mechanism, affording to the Tafel slope (51 mV dec−1), was Volmer-Heyrovsky mechanism. The electrode was stable at 100 mA cm−2 after 50 h. The high stability and electroca

Pulse electrodeposition of nickel selenide nanostructure as a binder-free and high-efficient catalyst for both electrocatalytic hydrogen and oxygen evolution reactions in

S Esmailzadeh, T Shahrabi, Gh Barati Darband, Y Yaghoubinezhad
Journal PapersElectrochimica Acta , Volume 334 , 2020 February 20, {Pages 135549 }

Abstract

Herein, we report a pulse potential electrodeposition method (PPE) as a fast and one-step route for the production of effective and binder-free Ni–Se catalysts for hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) in alkaline solution. The results demonstrated that the fabricated electrocatalysts by PPE show more desirable electrocatalytic performance than constant potential electrodeposition method (CPE). The electrodeposited NiSe nanostructures with large electrochemically active surface area of 2965?on the nickel foam (NF) at the frequency of 0.01?Hz exhibited high electrocatalytic activity for HER and OER. It delivers the current density of 10?mA/cm2 at the overpotential of 65?mV for HER and 100?mA/cm2 at 306?mV fo

Electrodeposition of self-supported Ni-Mo-P film on Ni foam as an affordable and high-performance electrocatalyst toward hydrogen evolution reaction

A Toghraei, T Shahrabi, Gh Barati Darband
Journal PapersElectrochimica Acta , 2020 January 7, {Pages 135643 }

Abstract

The development of adequate and inexpensive electrocatalysts for electrochemical hydrogen production is of utmost importance to meet the world's growing demand for energy, and overcome the challenge of global warming. Herein, non-noble Ni-Mo-P ternary alloy was coated on Ni foam through an in-situ, one-step electrodeposition approach under different experimental conditions. The synthesized Ni-Mo-P/NF is capable of delivering a current density of −10 mA cm−2 at a small overpotential of −63 mV in alkaline medium which demonstrates the excellent HER activity of the electrode. Moreover, the electrode exhibited favorable catalytic durability through different stability tests. The remarkable electrocatalytic activity of Ni-Mo-P/NF can b

cerium/diethyldithiocarbamate complex as a novel corrosion inhibitive pigment for AA2024-T3

Iman Mohammadi, Taghi Shahrabi, Mohammad Mahdavian, Mazdak Izadi
Journal PapersScientific Reports , Volume 10 , 2020 January , {Pages }

Abstract

In this work, cerium-diethyldithiocarbamate (Ce-DEDTC) complex was synthesized as a novel anti-corrosion pigment. The structure of the synthesized pigment was characterized by employing Fourier transfer infrared spectroscopy, X-ray diffraction, thermogravimetric analysis, inductively coupled plasma optical emission spectroscopy, and ultraviolet-visible spectroscopy. All of the characterization techniques showed that the Ce-DEDTC pigment was successfully produced. The electrochemical tests were used to investigate the subsequence effect of the synthesized complex on the corrosion behavior of the AA2024-T3. AA2024-T3 showed a wide passive range in the presence of the Ce-DEDTC pigment. Scanning electron microscopy, optical microscopy, X-ray ph

The combined action of l-cysteine and l-histidine as a significant eco-friendly protective system to enhance the corrosion protection performance of AA2024-T3 alloy in 0.1 M?…

Mazdak Izadi, Ali Rajaei Rad, Taghi Shahrabi, Iman Mohammadi
Journal PapersMaterials Chemistry and Physics , 2020 April 11, {Pages 122997 }

Abstract

In the present study, the combined action of l-cysteine and l-histidine on the corrosion behavior of AA2024-T3 was studied. The inhibitive behavior of the organic l-cysteine?+?L-histidine system (CH-System) was evaluated by electrochemical tests and surface analyses. The polarization results indicated a 400?mV increase and 380?mV decrease in the pitting and corrosion potentials after 4?h of exposure, respectively. Also, the results of electrochemical impedance spectroscopy (EIS) showed a considerable increase in the impedance of AA2024-T3 samples in the presence of CH-System related to l-cysteine and l-histidine alone. In addition, the surface studies were carried out to investigate the chemical composition of surface products. The obtained

Sodium diethyldithiocarbamate as a novel corrosion inhibitor to mitigate corrosion of 2024-T3 aluminum alloy in 3.5 wt% NaCl solution

Iman Mohammadi, Taghi Shahrabi, Mohammad Mahdavian, Mazdak Izadi
Journal PapersJournal of Molecular Liquids , 2020 March 21, {Pages 112965 }

Abstract

In this work, sodium diethyldithiocarbamate (DDTC) was used as a novel corrosion inhibitor for AA2024-T3. For this purpose, the inhibition behavior of the DDTC was assessed by employing electrochemical tests and surface analysis. The electrochemical results indicated that DDTC acts as an effective corrosion inhibitor, and precipitation of a thin organic film on the AA2024-T3 surface is the main reason preventing the pitting corrosion of the samples. All of the electrochemical tests were proved by surface study analysis. The results of the SEM-EDS and ATR-FTIR studies showed the thin organic film formation on the aluminum alloy in the presence of DDTC.

The synergistic effect of zinc acetate on the protective behavior of sodium lignosulfonate for corrosion prevention of mild steel in 3.5 wt% NaCl electrolyte: Surface and?…

Majid Ahangar, Mazdak Izadi, Taghi Shahrabi, Iman Mohammadi
Journal PapersJournal of Molecular Liquids , 2020 June 19, {Pages 113617 }

Abstract

In the present study, the synergistic behavior of sodium lignosulfonate-zinc acetate (SLZA) system and its consequent effect on the corrosion prevention of mild steel in the 3.5 wt% NaCl electrolyte was studied. The electrochemical and surface analyses were carried out to understand the actual corrosion inhibition action of the SLZA system. The results of electrochemical studies showed that the uniform corrosion of mild steel was synergistically suppressed due to the co-inhibition of sodium lignosulfonate (SL) and zinc acetate (ZA). The synergism parameter was about 9 and the total resistance of mild steel was >400 kΩ.cm2 in the co-presence of SL and ZA. Also, the calculated inhibition efficiency of SLZA system was about 96%. A corrosion

Construction of an excellent eco-friendly anti-corrosion system based on epoxy@ Sm2O3-polydopamine biopolymer on the mild steel surface

Farshad Bahremand, Taghi Shahrabi, Bahram Ramezanzadeh
Journal PapersJournal of the Taiwan Institute of Chemical Engineers , 2020 August 14, {Pages }

Abstract

Metals' surface treatment by chemical conversion coatings (CCs) is one of the most promising methods for improving the organic coatings adhesion strength as well as the corrosion protection properties on the metal substances. Since most of the recently used conventional CCs, i.e., chromate/phosphate-based ones, have undesired environmental problems; nowadays, several non-hazardous chemical treatment solutions based on the rare earth metals (REM), such as Sm-CC, are applied to improve the EC/steel substrate interfacial adhesion level and corrosion resistance of the organic coatings. Despite the eco-friendly nature of the REM-based CCs, they cannot provide high corrosion resistance due to some structural problems. Therefore, finding appropria

Synthesis of a novel metal-organic nanocomposite film (MONF) with superior corrosion protection performance based on the biomimetic polydopamine (PDA)-based molecules and Sm2O3?…

Farshad Bahremand, Taghi Shahrabi, Bahram Ramezanzadeh
Journal PapersJournal of Molecular Liquids , Volume 319 , 2020 December 1, {Pages 114143 }

Abstract

In recent years, the nanocomposite films have been utilized for the metals' corrosion resistance enhancement. In this research, an eco-friendly samarium (III) and bio-compatible polyodopamine-based biopolymer have been applied to mitigate the corrosion of steel through the construction of a hybrid film with effective anti-corrosion potency. For this purpose, the PDA micro/nano-particles were synthesized via two well-known self-polymerization and oxidant-facilitated methods. Then, they were introduced into the Sm (III)-based chemical modification bath, and the resulting solutions were sprayed on the steel surface continuously. The steel panels coated with samarium-oxide nanofilm, as well as the Sm-PDA composite coating, have shown excellent

Development of a nanostructured film based on samarium (III)/polydopamine on the steel surface with superior anti-corrosion and water-repellency properties

Farshad Bahremand, Taghi Shahrabi, Bahram Ramezanzadeh
Journal PapersJournal of Colloid and Interface Science , Volume 582 , 2020 August 12, {Pages 342-352 }

Abstract

HypothesisThe application of various hydrophobic/superhydrophobic coatings on the surface of metals has become the hot topic of the recent studies. The corrosion protection effectiveness and environmental issues are two important factors that should be taken into consideration when developing advanced surface coatings. Recently, the rare-earth elements (i.e., samarium) and biopolymers (i.e., polydopamine) have attracted much attention in the metals' corrosion control field.ExperimentsThe Sm(NO3)3 containing solution was sprayed to the steel (St-12) sheets. Then, the Sm-modified plates were post-modified by polydopamine biopolymers that were synthesized by the self-polymerization (using tris (hydroxymethyl) aminomethane as a buffer), and oxi

Improving the Protection Performance of AA2024-T3 in 3.5 wt% NaCl Solution Using the Synergistic Effect of Cerium Cations and Diethyldithiocarbamate Molecules

Iman Mohammadi, Taghi Shahrabi, Mohammad Mahdavian, Mazdak Izadi
Journal PapersJournal of The Electrochemical Society , Volume 167 , Issue 13, 2020 September 30, {Pages 131506 }

Abstract

In the present work, the synergistic effect of diethyldithiocarbamate (DDTC) molecules and Ce3+ cations on the corrosion inhibition of the 2024-T3 aluminum alloy was assessed by employing surface analysis and electrochemical tests. For this purpose, potentiodynamic polarization, and electrochemical impedance spectroscopy were measured in the presence of Ce3+ cations and DDTC molecules. Also, surface analysis methods were employed to study the mechanisms of the inhibition in the presence of the Ce3+ cations and DDTC molecules. The results showed strong synergism between the DDTC molecules and Ce3+ cations due to the creation of a complex film on the surface of AA2024-T3. The complex film formation on the AA2024-T3 surface was proved using sc

Chemical modification of conversion coating with diethyldithiocarbamate as a novel anti-corrosive film for AA2024-T3

Iman Mohammadi, Taghi Shahrabi, Mohammad Mahdavian, Mazdak Izadi
Journal PapersJournal of Industrial and Engineering Chemistry , 2020 December 24, {Pages }

Abstract

Nowadays, layered double hydroxide conversion coatings are a potential eco-friendly alternative for hazardous and carcinogenic chromate conversion coatings. In this work, Zn-Al LDH conversion coating (LDH−CC) modified with diethyldithiocarbamate (DEDTC) molecules, as a smart inhibitive film, was synthesized on AA2024-T3. For this purpose, the LDH−CC was prepared on the AA2024-T3 by an in-situ hydrothermal route, and then intercalated with DEDTC molecules through an anion-exchange procedure. The intercalation of the DEDTC into the structure of the LDH−CC was studied using XPS, XRD, ATR-FTIR, SEM-EDS, and TGA techniques. All of the characterization techniques proved the successful intercalation of the DEDTC molecules in the structure of

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دروس نیمسال جاری

  • كارشناسي ارشد
    خوردگي در محيطهاي طبيعي ( واحد)
    دانشکده فنی و مهندسی، گروه خوردگي و حفاظت از فلزات
  • كارشناسي ارشد
    حفاظت كاتدي و آندي ( واحد)
  • كارشناسي ارشد
    آزمايشگاه اصول حفاظت ( واحد)

دروس نیمسال قبل

  • دكتري
    خوردگي پيشرفته ( واحد)
    دانشکده فنی و مهندسی، گروه خوردگي و حفاظت از فلزات
  • كارشناسي ارشد
    آزمايشگاه خوردگي پيشرفته ( واحد)
  • 1399
    بهرامي, مهدي
    لايه‌نشاني الكتروشيميايي و مشخصه‌‎يابي پوشش اكسيدگرافن احيا شده/ سلنيد نيكل بر فوم نيكل جهت انجام واكنشهاي تصاعد هيدروژن و اكسيژن
  • 1400
    جباري, عليرضا
  • 1400
    فتح اللهي, اميررضا
  • 1398
    رضايي فرد, سعيده
    ارزيابي خواص ضدخوردگي هوشمند پوشش اپوكسي حاوي نانوحامل هيبريدي از نوع هيدروكسيد لايه اي مضاعف و نانولوله هاي كربني بر زيرلايه فولادي
  • مدیر گروه خوردگی و حفاظت از مواد، 1369-1375
  • رئیس بخش مهندسی مواد، 1369-1372
  • مدیر گروه خوردگی و حفاظت از مواد، 1377-1379
  • رئیس بخش مهندسی مواد، 1379-1381
  • مدیر گروه خوردگی و حفاظت از مواد، 1381-1383
  • مدیر گروه خوردگی و حفاظت از مواد، 1385-1387
  • مدیر گروه خوردگی و حفاظت از مواد، 1389-1391
  • مدیر گروه خوردگی و حفاظت از مواد، 1395-1401
  • عضو هیأت تحریریه فصلنامه علوم و مهندسی خوردگی (مجله انجمن خوردگی ایران)
  • استاد پیشکسوت خوردگی، منتخب انجمن خوردگی ایران، 1395
  • استاد تلاشگر دانشگاه، 1400
  • استاد راهنمای رساله برتر دانشگاه در سالهای 85، 87، 94، 96، 97، 98 و 1401
  • استاد نمونه دانشگاه، 1387
  • اولین عضو هیأت علمی بخش مهندسی مواد، 1368
  • پژوهشگر برتر دانشگاه در سالهای 87، 89، 92، 94، 98 و 1401
  • جزء 2% برتر پژوهشگران پر استناد جهان، 2020
  • جزء 5% برتر پژوهشگران پر استناد دانشگاه، 1401
  • مؤسس گروه خوردگی و حفاظت از مواد، 1369
  • مدیر گروه برتر دانشگاه، 1398

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