CIPDB › China Industry › Instruments & Meters › Laboratory Instruments
Potentiostat Galvanostat for Corrosion Measurement Corrosion Study to Measure Corrosion Rate1
Laboratory InstrumentsGalvanostatElectrochemical Workstation
Wuhan Corrtest Instruments Corp., Ltd.
Preview:
Product Description CS single-channel potentiostat / galvanostat /electrochemical workstation contains a fast digital function generator, high-speed data acquisition circuitry, a potentiostat and a galvanostat. With high performance in stability and accuracy with advanced hardware and well-functioned software, it is a comprehensive research platform for corrosion, batteries, electrochemical analysis, sensor, life science and environmental chemistry etc.Corrtest Potentiostat Galvanostat can be an ideal device for Corrosion measurement corrosion study to measure corrosion rate etc. Applications (1)Corrosion study of metals in water, concrete and soil etc;(2) Fast evaluation of corrosion inhibitor, water stabilizer, coating and cathodic protection efficiency. (3) Reaction mechanism of Electrosynthesis, electrodeposition (electroplating), anodic oxidation, etc.(4) Electrochemical analysis and sensor; (5) New energy materials (Li-ion battery, solar cell, fuel cell, supercapacitors), advanced functional materials, photoelectronic materialsSpecificationsSpecifications Support 2-, 3- or 4-electrode systemPotential and current range: AutomaticPotential control range: ±10VCurrent control range: ±2APotential control accuracy: 0.1%×full range±1mVCurrent control accuracy: 0.1%×full rangePotential resolution: 10μV (>100Hz),3μV (<10Hz)Current sensitivity:1pARise time: <1μS (<10mA), <10μS (<2A)Reference electrode input impedance:1012Ω||20pFCurrent range: 2nA~2A, 10 rangesCompliance voltage: ±21VMaximum current output: 2ACV and LSV scan rate: 0.001mV~10,000V/sCA and CC pulse width: 0.0001~65,000sCurrent increment during scan: 1mA@1A/msPotential increment during scan: 0.076mV@1V/msSWV frequency: 0.001~100 kHzDPV and NPV pulse width: 0.0001~1000sAD data acquisition:16bit@1 MHz,20bit@1 kHzDA Resolution:16bit, setup time:1μsMinimum potential increment in CV: 0.075mVIMP frequency: 10μHz~1MHzLow-pass filters: covering 8-decadeOperating System: Windows 10/11 Interface: USB 2.0Weight / Measurements: 6.5kg, 36.5 x 30.5 x16 cmEIS (Electrochemical Impedance Spectroscopy)Signal generatorFrequency range:10μHz~1MHzAC amplitude:1mV~2500mVDC Bias: -10~+10VOutput impedance: 50ΩWaveform: sine wave, triangular wave and square waveWave distortion: <1%Scanning mode: logarithmic/linear, increase/decreaseSignal analyzerIntegral time: minimum:10ms or the longest time of a cycleMaximum:106 cycles or 105sMeasurement delay: 0~105sDC offset compensationPotential automatic compensation range: -10V~+10VCurrent compensation range: -1A~+1ABandwidth: 8-decade frequency range, automatic and manual settingTechniques (Models' comparison)Model CS350M (with built-in EIS) is the most comprehensive model, includes all methods incl. EIS. It's suitable for various applications, and also for teachingModel CS310M (with built-in EIS) also includes EIS module. But it has less voltammetry methods compared with CS350. CS310 is a cost-effective model if you need EIS. It's an ideal model for corrosion, battery studies etc.CS300M entery model without EIS TechniquesCS300M(without EIS)CS310M(with EIS)CS350M(with EIS)Stable polarizationOpen Circuit Potential (OCP)√√√Potentiostatic (I-T curve)√√√Galvanostatic√√√Potentiodynamic(Tafel plot)√√√Galvanodynamic√√√Transient polarizationMulti-Potential Steps√√√Multi-Current Steps√√√Potential Stair-Step (VSTEP)√√√Galvanic Stair-Step (ISTEP)√√√Chrono methodsChronopotentiometry (CP)√√√Chronoamperometry (CA)√√√Chronocoulometry (CC)√√√VoltammetryCyclic Voltammetry (CV)√√√Linear Sweep Voltammetry (LSV)(I-V)√√√Staircase Voltammetry (SCV) #√ √Square wave voltammetry (SWV) #√ √Differential Pulse Voltammetry (DPV)# √ √Normal Pulse Voltammetry (NPV)# √ √Differential Normal Pulse Voltammetry (DNPV)# √ √AC voltammetry (ACV) #√ √2nd Harmonic A.C.Voltammetry (SHACV)√ √AmperometryDifferential Pulse Amperometry (DPA) √Double Differential Pulse Amperometry (DDPA) √Triple Pulse Amperometry (TPA) √Integrated Pulse Amperometric Detection (IPAD) √EISPotentiostatic EIS (Nyquist, Bode) √√Galvanostatic EIS Potentiostatic EIS (Optional freq.) Galvanostatic EIS(Optional freq.) Mott-Schottky Potentiostatic EIS vs. Time (Single freq.) √√Galvanostatic EIS vs. Time (Single freq.) √√Corrosion testCyclic polarization curve (CPP)√√√Linear polarization curve (LPR)√√√Electrochemical Potentiokinetic Reactivation (EPR)√√√Electrochemical Noise(EN)√√√Zero resistance Ammeter (ZRA)√√√Battery testBattery charge and discharge√√√Galvanostatic charge and discharge(GCD)√√√Potentiostatic Charging and Discharging(PCD)√√√Potentiostatic Intermittent Titration Technique(PITT)√√√Galvanostatic Intermittent Titration Technique(GITT)√√√ExtensionsData Logger√√√Bulk electrolysis with Coulometry (BE)√√√# there is corresponding stripping method SOFTWARE FEATURESCS studio software provides users a versatile smoothing/differential/ integration kit, which can complete the calculation of peak height, peak area and peak potential of CV curves.CS studio also provides powerful non-linear fitting on Butler-Volmer equation of polarization curve. It can calculate Tafel slope, corrosion current density, limitation current, polarization resistance, corrosion rate. It can also calculate the power spectrum density, noise resistance and noise spectrum resistance based on the electrochemical noise measurements.CS Studio software can achieve real time saving of the measuring data. The data can be automatically saved even in case of sudden power off.CS studio kit has a built-in versatile timing policy for combined measurements, which can facilitate the automation of experiments and save time.Battery analysis: charge & discharge efficiency, capacity, specific capacitance, charge & discharge energy etc.EIS analysis: Bode, Nyquist, Mott-Schottky plot Technical Advantages 1. Impedance (EIS)CS potentiostat applies correlation integral algorithm and dual-channel over-sampling technique, and has strong anti-interference ability. It is suitable for EIS measurements of high-impedance system (>109Ω, such as coating, concrete etc.). It can also be used to obtain Mott-Schottky curve and differential capacitance curve. During test, the software can display real-time open circuit potential(OCP) without entering.EIS of AA6063 Al alloy in Ce3+ containing 3% NaCl solution 2. Polarization curveIt can complete linear polarization curve and Tafel plot measurements. The user can set the anodic reversal current (passivation film breakdown current) of the cyclic polarization curve to determine material's pitting potential and protection potential and evaluate the its susceptibility to intergranular corrosion. The software employs non-linear fitting to analyze polarization curve, and can make fast evaluation of material's anti-corrosion ability and inhibitors. Polarization curve of Ti-based amorphous alloy & stainless steel in 3%NaCl solution3. Voltammetry It can do the following electroanalysis methods: Linear Sweep Voltammetry(LSV), Cyclic Voltammetry(CV), Staircase Cyclic Voltammetry(SCV), Square wave voltammetry(SWV), Differential Pulse Voltammetry(DPV), Normal Pulse Voltammetry(NPV), AC voltammetry(ACV), Stripping voltammetry etc. It integrates calculation of peak area, peak current and standard curve analysis. Up: LSV curve: mesoporous carbon material in 0.1M KOHDown: CV curves of PPy supercapacitor in 0.5 mol/L H2SO4 4. Electrochemical NoiseWith high-resistance follower and zero-resistance ammeter, it measures the natural potential/currentfluctuations in corrosion system. It can be used to study pitting corrosion, galvanic corrosion, crevice corrosion, and stress corrosion cracking etc. Through noise spectrum, we can evaluate the inducement, growth and death of metastable pitting and crack. Based on calculation of noise resistance and pitting index, it can complete localized corrosion monitoring.Electrochemical noise of low-carbon steel in 0.05mol/L Cl-+0.1mol/L NaHCO35. Switchable floating and earthing mode All CS potentiostats/galvanostats can switch between the floating and earthing modes, and this strategy is beneficial for studying electrochemical systems in which the working electrodes are intrinsically ground, such as autoclaves, in-site concrete structures and multi-working electrodes requiring isolation, etc.6. High-bandwidth EIS With the help of built-in digital FRA and arbitrary signal generator, as well as the high input impedance (1013 W), the CS potentiostat is particularly suitable for EIS measurements of high-impedance systems (such as coating, membrane, concrete, etc.) Based on the DC bias compensation technique, CS potentiostats can conduct EIS tests under different charge/discharge states of batteries, making them suitable for ultra-low resistance systems, such as power batteries, fuel cells, water-splitting equipment, etc.7. Multiple electrode configurationsCS potentiostats support 2-, 3-, or 4-electrode configurations and can measure the galvanic current via built-in zero resistance ammeter circuits.8. User-defined sequence testCS Studio 6.0 for Windows software supports user-defined sequence tests ("combination test"), which can facilitate automatic testing according to user-defined experiment sequences. Sequence Test: corrosion tests9. CST520 arrayed electrode mapperThrough CS2020B/CS2040B/CS2100B booster, the CS potentiostats can extend their output current up to ±20A/40A/100A, meeting the growing requirements in fuel cells, power batteries, electroplating etcCS potentiostats can work with a CST520 arrayed electrode mapper to study the non-uniform corrosion of metal samples under deposits, coatings and anti-rust oils.10. Software development kit (SDK)All CS potentiostats run under the control of CS Studio 6.0 for Windows (CSS 6.0). The CSS6.0 supports third-party languages, such as LabVIEW, C, C++, C#, VC, Python and others. Some API general interfaces and development examples can be supplied with the CS potentiostats. Through the SDK, customers can implement user-defined test methods.11. Real-time data saving CSS 6.0 saves experimental data timely, even if the experiment is accidentally interrupted by a power failure or computer shutdown. CSS 6.0 supports several data formats compatible with Originpro and Microsoft Excel. 12. Versatile data analysis functionsCSS 6.0 provides robust functions, including various electrochemical measurements and data analysis. It can complete Tafel plot fitting, CV derivation, integration and peak height analysis, EIS equivalent circuit fitting, etc.3, 4 parameter polarization curve fitting. EIS fitting Electrochemical noise spectrum analysis Pseudo-capacitance calculation GCD-specific capacitance, efficiency calculation Mott-Schottky analysis CV curve analysisActivation/re-passivation curve analysis Some of the high IF papers for Corrsion and protection[1] Degradation of anti-rust oil film in a simulated coastal atmosphere: Inhibition mechanism and in-situ monitoring.Corrosion Science. Pub Date: 2024-05-06, DOI: 10.1016/j.corsci.2024.112106[2] A comparative experimental and theoretical calculation study of CaAl-LDH modified with various aromatic inhibitors for corrosion protection study in epoxy coatings.Corrosion Science. Pub Date : 2024-03-16, DOI: 10.1016/j.corsci.2024.111994[3] Exploration of the mechanism of wear and seawater erosion resistance of modified MXene-reinforced Ni-Cu alloy composite coatings.Tribology International. Pub Date: 2024-08-06, DOI: 10.1016/j.triboint.2024.110080.[4] A novel method to measure the actual corrosion resistance/rate of steel reinforcement during impressed-current accelerated corrosion test.Construction and Building Materials. Pub Date: 2024-04-10, DOI: 10.1016/j.conbuildmat.2024.136060[5] Effect of annealing temperature on the microstructure evolution and corrosion behavior of Carbon-interstitial FeMnCoCrNi high-entropy alloys.Corrosion Science. Pub Date: 2023-12-30, DOI: 10.1016/j.corsci.2023.111813[6] Unique corrosion reinforcement mechanism of pipeline oil sludge with sulfate-reducing bacteria on X60 steel and the targeted long-term inhibition of dazomet delivery.Corrosion Science. Pub Date: 2023-12-22, DOI: 10.1016/j.corsci.2023.111792[7] Interpretability study on prediction models for alloy pitting based on ensemble learning.Corrosion Science. Pub Date: 2023-12-21, DOI: 10.1016/j.corsci.2023.111790[8] Corrosion behavior and mechanism of carbon steel in industrial circulating cooling water system operated by electrochemical descaling technology.Journal of Cleaner Production. Pub Date: 2023-12-10, DOI: 10.1016/j.jclepro.2023.139817[9] Improved corrosion resistance of laser melting deposited CoCrFeNi-series high-entropy alloys by Al addition.Corrosion Science. Pub Date: 2023-10-20, DOI: 10.1016/j.corsci.2023.111599[10] A self-healing and anticorrosion epoxy coating based on the novel polymer filler containing a side-linked grafting 2-mercaptobenzothiazole.Journal of Materials Research and Technology. Pub Date: 2023-08-02, DOI: 10.1016/j.jmrt.2023.07.264[11] Elemental sulfur corrosion of nickel-based alloy 825 in CO2-H2S-containing environment at high temperature and high pressure.Journal of Materials Research and Technology. Pub Date: 2023-07-05, DOI: 10.1016/j.jmrt.2023.07.018[12] Microstructure, wear and corrosion properties of B-C composite layers on pure titanium.Journal of Materials Research and Technology. Pub Date: 2023-06-12, DOI: 10.1016/j.jmrt.2023.06.074[13] Zinc oxide grown on boron nitride via polydopamine as nano-pigment to enhance the active/passive protective properties of silicone-epoxy coatings.Progress in Organic Coatings. Pub Date: 2023-05-19, DOI: 10.1016/j.porgcoat.2023.107660[14] Microstructure evolution and corrosion properties of ECAPed Mg-Pb-9.2Al-0.8B alloys.Journal of Materials Research and Technology. Pub Date: 2023-04-26, DOI: 10.1016/j.jmrt.2023.04.206[15] Effect of in-situ transverse magnetic field on microstructure, mechanical properties and corrosion resistance of the directed energy deposited 316L stainless steel.Additive Manufacturing. Pub Date: 2023-03-23, DOI: 10.1016/j.addma.2023.103508[16] Enhancing the corrosion resistance of recycled aggregate concrete by incorporating waste glass powder.Cement and Concrete Composites. Pub Date: 2022-12-29, DOI: 10.1016/j.cemconcomp.2022.104909[17] Galvanic corrosion of AA5052/304SS welded joint with Zn-based filler metal in marine engineering.Corrosion Science. Pub Date: 2022-12-14, DOI: 10.1016/j.corsci.2022.110912[18] Strengthening effect of α-ZrP nanosheet inclusions on corrosion resistance and wear resistance of NiP deposits.Materials Characterization. Pub Date: 2022-07-23, DOI: 10.1016/j.matchar.2022.112150[19] Effect of post-sealing treatment with different concentrations of NaH2PO4 on corrosion resistance of MAO coating on 6063 aluminum alloy.Surface & Coatings Technology. Pub Date: 2022-06-11, DOI: 10.1016/j.surfcoat.2022.128604[20] A novel Mg-Gd-Y-Zn-Cu-Ni alloy with excellent combination of strength and dissolution via peak-aging treatment.Journal of Magnesium and Alloys. Pub Date: 2022-06-06, DOI: 10.1016/j.jma.2022.05.012[21] Tuning the pitting performance of a Cr-13 type martensitic stainless steel by tempering time.Corrosion Science. Pub Date: 2022-04-30, DOI: 10.1016/j.corsci.2022.110346[22] Significance of waveform design to achieve bipolar electrochemical jet machining of passivating material via regulation of electrode reaction kinetics.International Journal of Machine Tools and Manufacture. Pub Date: 2022-04-18, DOI: 10.1016/j.ijmachtools.2022.103886[23] Characterizations of the biomineralization film caused by marine Pseudomonas stutzeri and its mechanistic effects on X80 pipeline steel corrosion.Journal of Materials Science & Technology . Pub Date: 2022-04-12, DOI: 10.1016/j.jmst.2022.02.033[24] Facile fabrication of multi superlyophobic nano soil coated-mesh surface with excellent corrosion resistance for efficient immiscible liquids separation.Separation and Purification Technology. Pub Date: 2021-12-08, DOI: 10.1016/j.seppur.2021.120266[25] Corrosion and slurry erosion wear performances of coaxial direct laser deposited CoCrFeNiCu1-xMox high-entropy coatings by modulating the second-phase precipitation.Materials & Design. Pub Date: 2021-11-23, DOI: 10.1016/j.matdes.2021.110277[26] Preparation of Ni-Cu composite coatings with excellent tribological property and corrosion resistance by doping OH-BN(h)-PA-Zn-DCD hybrid.Applied Surface Science. Pub Date: 2022-11-21, DOI: 10.1016/j.apsusc.2022.155771[27] Tailoring the microstructure, mechanical and tribocorrosion performance of (CrNbTiAlV)Nx high-entropy nitride films by controlling nitrogen flow.Journal of Materials Science & Technology. Pub Date: 2021-10-14, DOI: 10.1016/j.jmst.2021.08.032[28] Anticorrosive reinforcement of waterborne epoxy coating on Q235 steel using NZ/BNNS nanocomposites.Progress in Organic Coatings. Pub Date: 2021-07-02, DOI: 10.1016/j.porgcoat.2021.106410 [29] Effect of lithium content on the mechanical and corrosion behaviors of HCP binary Mg-Li alloys.Journal of Magnesium and Alloys. Pub Date: 2020-09-29, DOI: 10.1016/j.jma.2020.02.022
Purchasing Agent
Note: Send your message to supplier or manufacturer.
Welcome to our Professional and comprehensive procurement services...