× HYDROTHERMAL SYSTEM SPIN COATER SC-X20 WAVELENGTH DEPENDENT LED PHOTOCATALYTIC SYSTEM PHOTOSYNTHETICALLY ACTIVE RADIATION SYSTEM HYPERTHERMIA THERAPY SYSTEM PROBE STATION PROBE HOLDER HIGH TEMPERATURE FURNACE CURRENT-VOLTAGE TESTER UNDER VARIOUS TEMPERATURES PHOTODEVICE CHARACTERIZATION SYSTEM TRIBOMETER AAA CLASS LED SOLAR SIMULATOR 9830 EPD COATING SYSTEM PHOTORESPONSE SYSTEM SOLAR PANEL SOLAR SIMULATOR ELECTROSPINNING SYSTEM ESP 9300 AAA CLASS SOLAR SIMULATOR FYTRONIX-9860 XENON LIGHT SOURCE CYCLIC VOLTAMETRY ELECTRODES 9000-HOT PRESS 9000-HOT PRESS 2 PHOTOCONDUCTIVITY – TIME MEASUREMENT SYSTEM LED QUANTUM EFFICIENCY SYSTEM FY-MGSP-3 2 RF + 1 DC MAGNETRON SPUTTERING SYSTEM FYT-T1800 1800C HIGH TEMPERATURE TUBE FURNACE UV CURABLE EPD COATING SYSTEM ULTRASONIC SPRAY COATING SYSTEM ULTRASONIC SONICATOR SPARK PLASMA SYSTEM SOL GEL THIN FILM COATER SILAR QUANTUM DOTS COATER REFERENCE SOLAR CELL CERTIFICATE REFERECE SOLAR CELL QUANTUM EFFICIENCY SYSTEM PHOTORESPONSE AND PHOTOCAPACITANCE ANALYZER PHOTOCHEMICAL SYSTEM PHOTOCATALYSIS SYSTEM PHOTOCATALYSIS SOLAR SIMULATOR OPTICAL CONSTANTS CHARACTERIATION SYSTEM OLED CHARACTERIZATION SYSTEM OFET CHARACTERIZATION SYSTEM FULL AUTOMATIC SOLAR SIMULATOR MICROMETER ADJUSTABLE THIN FILM COATER DOCTOR BLADE MARKSTRONIC AAA CLASS LED SOLAR SIMULATOR MAGNETIC FIELD ASSISTED ELECTROSPINNING IMPEDANCE ANALYZER LCR METER IMPEDANCE ANALYZER HIGH PRESSURE REACTOR SYSTEM HALL EFFECT MEASUREMENT SYSTEM GLOVEBOX SYSTEM GAS SENSOR MEASUREMENT SYSTEM UV DEZENFEKTE CİHAZI SPIN COATER HYDROTHERMAL SYSTEM EPD COATING SYSTEM ELECTROSPINNING SYSTEM 9800 AAA CLASS SOLAR SIMULATOR 9600 AAA CLASS SOLAR SIMULATOR FULL AUTOMATIC SOLAR IV – IMPEDANCE ANALYZER SYSTEM FOUR PROBE CONDUCTIVITY METER FOUR POINT PROBE RESISTANCE SYSTEM ELEKTROSPINNING MACHINE ELECTROSPINNING MACHINE/NANOFIBER ELECTROPHORETIC DEPOSITION (EPD) ELECTRICAL CONDUCTIVITY SYSTEM DYE SENSITIZED SOLAR CELL HOLDER DIP COATER DIELECTRIC MEASUREMENT SYSTEM DIELECTRIC ANALYZER CURRENT AND VOLTAGE MODULATED SYSTEM CONTACT ANGLE TESTER CHEMOTHERAPY OF CANCER 9000 CHEMICAL BATH DEPOSITION CAPACITANCE-VOLTAGE ANALYZER BATTERY CHARGE - DISCHARGE ANALZYER AGATE MORTAR FOR GRINDING AAA CLASS SOLAR SIMULATOR IV CHARATERIZATION SYSTEM 9900 AAA CLASS LED SOLAR SIMULATOR 9800 300 W AAA CLASS SOLAR SIMULATOR 300 W-80 AAA CLASS SOLAR SIMULATOR 300 W-50 AAA CLASS SOLAR SIMULATOR ELEKTROSPINNING NANOFIBER SPIN COATERS - PHOTOLITHOGRAPHY SPIN COATER SOURCE MEASURE UNIT SYSTEM I-V MEASURE SOURCE METER IV AND CV ANALYZER SOLAR SIMULATOR- AAA CLASS SOLAR SIMULATOR SOLAR SIMULATOR AAA CLASS CRYOSTAT ULTRASONIC CLEANING BATH THIN FILM TRANSISTOR CHARACTERIZATION SYSTEM ULTRASONIC SONICATOR 2 HYDROTHERMAL REACTOR/HIGH PRESSURE REACTOR HIGH VOLTAGE POWER SUPPLY HYDROTHERMAL SYSTEM HIGH TEMPERATURE FURNACE FOUR POINT PROBE SCS SEMICONDUCTOR CHARACTERIZATION SYSTEM ELECTRICAL CONDUCTIVITY ANALYZER OPEN SYSTEM NITROGEN CRYOSTAT DC GÜÇ KAYNAĞI 12V/8A THERMAL EVAPORATION AND MAGNETRON SPUTTER SYSTEM WITH OPTIONAL GLOVEBOX INTEGRATION THERMAL ANALYSIS CRUCIBLE CERAMIC ITCH METTLER ALUMINA/TG/DIFFERENTIAL HEAT DSC TGA/DTA
  • UV CURABLE EPD COATING SYSTEM

   UV CURABLE EPD COATING SYSTEM



The coatings were prepared via the procedure depicted in Fig. 31. For example, 
The above WPA, modified hyperbranched polyester (30 wt%, HBPE-CDA-IPDI-HEA or HBPE-PA-IPDI-HEA), Darocur 1173 (5 wt%) and distilled water were added and mixed thoroughly. After 30 min, 15.00 wt% EPD solution was obtained. Tin plates were immerged into a standard EPD setup for 60 s with a deposition voltage of 40 V. Plenty of water was used to rinse the EPD coatings, and then they were put in an oven to remove the moisture for a flash-off period of 3 min at 80 °C. Finally, the dried coatings were completely cured under UV irradiation for 60 s. 

Technical data
EPD SYSTEM is a complete coating system 
DC source
Voltage range: ±40 V
Current range: 10A 
Software has the following specifications
Plot of voltage versus time
Plot of current versus time
Wavelength: 200-400 nm

Electrodes
Metal parts being anodized act as the anode. A cathode plate or rod made of platinum, stainless steel, lead, or carbon supplies the negative part of the electrical circuit
Electrophoretic deposition (EPD) process is based on the movement and deposition of charged particles under electric field onto a conductive electrode to develop thin or thick films and coatings. EPD can be applied for a wide range of fine powder or colloidal particles of metals, ceramics, polymers, and the composites.

Electrophoretic deposition (EPD), is a term for a broad range of industrial processes which includes electrocoating, cathodic electrodeposition, anodic electrodeposition, and electrophoretic coating, or electrophoretic painting. A characteristic feature of this process is that colloidal particles suspended in a liquid medium migrate under the influence of an electric field (electrophoresis) and are deposited onto an electrode. All colloidal particles that can be used to form stable suspensions and that can carry a charge can be used in electrophoretic deposition. This includes materials such as polymers, pigments, dyes, ceramics and metals.


Voltage Conditions

In the electrochemical processing of Al to form an oxide layer, most studies have been made under the potentiostatic conditions of high voltage and low currents (refer to Figure 1). The voltages used are also dependent on the acid type and its molarity. Table 2 summarizes the voltage settings and times of the three main electrolytes used by several research groups in the manufacture of nano-porous oxide layer.

UV CURABLE EPD COATING SYSTEM

  • Product Code: UV-CURABLE-EPD-COATING-SYSTEM
  • Availability: In Stock
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