Carlssoon Technologies (Malaysia) Sdn Bhd added new photo in Temperature, Humidity & Moisture
Dec 25, 2022 at 11:11 pm —
OMEGA - OM-CP-THERMOVAULTX SERIES 4 & 8-Channel Thermocouple Oven Data Loggers / Thermal Profiler

OMEGA - OM-CP-THERMOVAULTX SERIES 4 & 8-Channel Thermocouple Oven Data Loggers / Thermal Profiler

OM-CP-THERMOVAULTX SERIES 4 & 8-Channel Thermocouple Oven Data Loggers / Thermal Profiler   Brand: Omega Model: OM-CP-QUADTHERMOVAULT-A2 OM-CP-OCTTHERMOVAULT-A2     Features: Programmable start time Reusable Convenient size User-friendly Automatic cold junction compensation Automatic thermocouple linearization Type K thermocouples and power supply included   Product Introduction: Oven temperature profiling can help ensure that a quality product is consistently produced. Profiling enables users to optimize their process, prove process control and make corrections to a process when required. The OM-CP-THERMOVAULTX Series is a thermally insulated, battery powered, oven temperature recorder able to withstand extreme temperatures. It can withstand oven temperatures of up to 662 °F for up to 25 minutes when properly sealed. Its stainless steel enclosure and thermal properties lend itself to be the ideal temperature recording device for applications such as powder coating cure ovens, wet coating cure ovens, batch ovens and conveyor ovens. The external thermocouple probes provide accurate temperature measurements, with fast response times.   Our user-friendly software easily downloads the data to a computer, where the readings may be displayed in degrees Celsius, degrees Fahrenheit, Kelvin or Rankine. The software allows the user to view all data points or a range of data points and a summary of the data being viewed for calculations such as Mean Kinetic Temperature (MKT). If additional analysis of the data needs to be performed, the data can be easily exported to Excel® by simply clicking a button.      INTERNAL CHANNELS Temperature Range -20 °C to +60 °C (-4 °F to +140 °F) Temperature Resolution 0.01 °C (0.018 °F) Calibrated Accuracy ±0.5 °C (0 °C to 50 °C) REMOTE CHANNELS Remote Channel Thermocouple Types J, K, T, E, R, S, B, N Thermocouple Connection Female sub miniature (SMP) Cold Junction Compensation Automatic, based on internal channel     REMOTE CHANNELS Thermocouple Range (°C) Resolution Accuracy* J -210 to +760 0.1 °C ±0.5 °C K -270 to +1370 0.1 °C ±0.5 °C T -270 to +400 0.1 °C ±0.5 °C E -270 to +980 0.1 °C ±0.5 °C R -50 to +1760 0.5 °C ±2.0 °C S -50 to +1760 0.5 °C ±2.0 °C B +50 to +1820 0.5 °C ±2.0 °C N -270 to +1300 0.1 °C ±0.5 °C   GENERAL Memory (All channels enabled) 4-channel: 524,032 readings per channel 8-channel: 262,016 readings per channel Start Modes Software programmable immediate start or delay start, up to 6 months in advance LEDs 1 per channel and 2 status LEDs Reading Rate 4 Hz up to 1 reading every 24 hours Calibration Digital calibration through software Calibration Date Automatically recorded within device Battery Type 9 V lithium included, user replaceable Battery Life 18 months typical Data Format Date and time stamped °C, °F, K, °R, mV, V Time Accuracy ±1 minute/month Computer Interface USB-A to micro USB cable (included); 460,800 baud Operating System Compatibility Windows XP SP3/7/8/10 Software Compatibility Standard Software version 4.2.17.0 or later Secure Software version 4.2.16.0 or later Operating Environment See table for temperature 0 %RH to 95 %RH non-condensing Internal OM-CP-QUADTCTEMP-A2 -20 °C to +60 °C 0 %RH to 95 %RH non-condensing OM-CP-THERMOVAULTX SYSTEM -20 °C to +350 °C 0 %RH to 95 %RH non-condensing Dimensions 12.3 in x 6.65 in x 2.45 in (723 mm x 168 mm x 62 mm)[Includes handles, brackets and front enclosure latches] 9.1 in x 5.9 in x 2.45 in (231 mm x 149 mm x 62 mm) [Enclosure case only. Excludes handles, brackets and latches] Weight 4-channel: 8.85 lb (4.01 kg) 8-channel: 8.98 lb (4.07 kg)   read more
Carlssoon Technologies (Malaysia) Sdn Bhd added new photo
Dec 19, 2022 at 02:55 pm —
INSIZE - Digital Caliper 1135-451

INSIZE - Digital Caliper 1135-451

INSIZE - Digital Caliper 1135-241 Brand : Insize Model : 1135-451 Product Description Digital calipers have adjustable jaws that slide along a beam to measure between two opposite sides of a tool or part. They are easier to read and offer higher precision than dial or vernier calipers. These calipers do not have SPC output capability, and are used when a direct reading is needed or for recording measurements by hand. Technical Specification      Range 0 in to 18 in; 0 to 450 mm Absolute Positioning Yes Resolution 0.0005 in/0.01 mm Caliper Material Stainless Steel Accuracy ±0.002 in Dimension Type Inch/Metric IP Rating Not Rated Coolant Resistant No SPC Output Yes Jaw Actuation Type Fine Adjust Carriage Data Output Type Cabled Jaw Depth 3-15/16 in Long Form Calibration Certificate No Jaw Material Stainless Steel Minimum Measurement - Fractional Inch 0 in Measures Step Yes Maximum Measurement - Inch 18 in Minimum Measurement - Inch 0 in Maximum Measurement - mm 450 mm Minimum Measurement - mm 0 mm Measurements Outside, Inside, Step Display Type Digital Measures Depth No Battery Size CR2032 Measures Inside Dimension Yes Case Type Plastic Case Measures Outside Dimension Yes Compatible SPC Cable Mfr. No. 7302-SPC5A; Mfr. No. 7302-SPC5B; Mfr. No. 7305-SPC2A; Mfr. No. 7306-20 Water Resistant No Includes Case Yes Includes Battery Yes Jaw Depth - Upper Jaw 1-3/4 in Jaw Shape Standard With Locking Nut Yes UNSPSC 41111621 Country of Origin China (subject to change) read more
Carlssoon Technologies (Malaysia) Sdn Bhd added 3 new photos
Dec 19, 2022 at 12:19 pm —
FLUKE - Light Meter 941
KYORITSU - Digital Clamp Meter KEW-2200
MADINCOS - Universal Paperless Datalogger MPR5000S
Carlssoon Technologies (Malaysia) Sdn Bhd added new photo in Temperature, Humidity & Moisture
Dec 19, 2022 at 12:02 pm —
SMART SENSOR - 2 Channel K Type Digital Thermometer AS877

SMART SENSOR - 2 Channel K Type Digital Thermometer AS877

SMART SENSOR - 2 Channel K Type Digital Thermometer Brand: Smart Sensor Model: AS877 Applications The thermometers are widely used in science and industry, including temperature measurement for kilns, gas turbine exhaust, diesel engines, and other industrial processes. They are also used in homes, offices and businesses as the temperature sensors in thermostats, or as flame sensors in safety devices for gas-powered appliances.   Features : 2 Temperatures at once, set up and calculate in one touch Measure range: – 200°C ~ 1372°C (-328°F ~ 2501°F), Accuracy: ±0.1% + 0.6°C Multiple Functions: Min, Max, Average, Data Hold; Battery indication and auto power off; Large LCD display with backlight High Accuracy: Use electronic temperature compensation system to decrease the deviation for different thermocouple sensors, and the sensors touch the object directly, so that you can achieve the maximum accuracy. Applications: Widely used in science and industry, including temperature measurement for kilns, gas turbine exhaust, diesel engines, and other processes. Also used in homes, offices and businesses as the temperature sensors in thermostats, or as flame sensors in safety devices.   Specifications : Measure range : – 200°C ~ 1372°C (-328°F ~ 2501°F) Accuracy :±0.1% + 0.6°C Resolution : 0.1°C/°F <1000°; 1°C/°F ≥1000° K type Wire Sensors temperature range : -50°C to 300°C Power : 3 * 1.5V AA batteries (not included) Size : 66*31*159mm Functions: °C/°F switchable Min, Max, Average, Data Hold Battery indication and auto power off Large LCD display with backlight   Includes: Thermocouple thermometer Temperature probes Instruction manual Black carrying pouch read more
Carlssoon Technologies (Malaysia) Sdn Bhd added new photo in Color & Paint Coating Measurement
Dec 17, 2022 at 04:50 pm —
DeFelsko - PosiTector 6000 Series Anodizing Coating Thickness Gages NAS

DeFelsko - PosiTector 6000 Series Anodizing Coating Thickness Gages NAS

DeFelsko - PosiTector 6000 Series Anodizing Coating Thickness Gages Brand: DeFelsko -  US Model: PosiTector 6000 series with NAS Probe Technical Specification:  PosiTector 6000 Series Probe Model   NAS Range 0-25 mils 0-625 um Accuracy ± (0.02 mil + 1%) 0-4 mils ± (0.1 mil + 3%) >4 mils ± (0.5 um + 1%) 0-100 um ± (2 um + 3%) > 100 um   Measuring Anodizing Thickness on Aluminum:   Referenced products: PosiTector 6000   DeFelsko manufactures a hand-held, non-destructive coating thickness gage that is ideal for measuring the thickness of anodizing on aluminum.    What are the challenges of measuring anodizing thickness?To efficiently control the thickness of anodizing and other thin coatings, an accurate non-destructive means of measurement is required.    A secondary challenge is the measurement of anodizing in small or hard-to-reach areas.     Anodizing Coating Thickness Measurement Solutions The PosiTector 6000 ''N'' series of eddy current gages are ideal for non-destructive measurement of nonconductive coatings on non-ferrous substrates. The PosiTector 6000 NAS probe is specifically designed for high resolution measurement of anodizing on aluminum. Though capable of measuring up to 625 μm (25 mils), the PosiTector 6000 NAS probe is most accurate and provides its highest resolution under 100 μm (4 mils) which is within the expected range of most anodizing applications. Figure 1 - PosiTector 6000 NAS probe measuring anodizing  When measuring coating thickness on small or hard-to-reach areas, the PosiTector 6000 N Microprobe series is an ideal measurement alternative. With probe tips of either 0°, 45° or 90° thickness readings can be taken in deep holes, on small ledges or on inside diameters. When a fixture or quick release adapter is used, N microprobes have identical specifications as the NAS probes. Figure 2 - PosiTector 6000 N Microprobe measuring anodizing   What is Anodizing? Anodizing is an electrochemical conversion process in existence since the 1930s. Several metals are capable of being anodized including aluminium, magnesium, titanium, and tantalum. Anodized aluminium is used in many applications due to its low cost, aesthetic qualities, and ideal mechanical properties. Unlike most protective coatings, anodizing permanently changes the outer structure of the metal. When aluminium is exposed to air it naturally develops a thin aluminium oxide film that seals the aluminium from further oxidation. The anodizing process makes the oxidized surface much thicker, up to several thousandths of an inch thick. The hardness of the anodized aluminium oxide coating rivals that of a diamond, enhancing the abrasion resistance of the aluminium. The added depth of the oxide layer improves the corrosion resistance of the aluminium, while making cleaning the surface easier. The porous nature of particular types of anodizing makes it possible to dye the aluminium a variety of colours, making it more attractive. Anodizing typically ranges up to 5 mils thickness. The three most common variations of aluminium anodizing include chromic anodizing (type I), sulfuric anodizing (type II) and hard anodizing (type III). Chromic anodizing utilizes a chromic acid electrolyte and yields the thinnest coatings, only 0.02 to 0.1 mils thick (0.5 to 2.5 microns).  50% penetration into the substrate and 50% growth over original dimensions occurs. Chromic anodizing has the least effect on fatigue strength and is less corrosive, thus ideal for complex and difficult to rinse parts.  Excellent for coating aluminium castings, most chromic anodized parts are used in military and aerospace applications and are more functional than decorative in nature. Sulfuric anodizing is the most common method of anodizing, utilizing sulfuric acid to yield coatings up to 1 mil (25 microns) thick. 67% penetration into the substrate and 33% growth over original dimensions occurs. Due to its permeable nature, sulfuric anodizing is excellent for colour dyeing and provides a base for primers, bonding agents, and organic coatings.  Sulfuric anodizing provides corrosion resistance and is very durable.  Typical applications include architecture, aerospace, manufacturing, automotive, and computers. Hard anodizing (a.k.a. hardcoating) utilizes a higher concentration sulfuric acid electrolyte at a lower temperature resulting in a tough outer skin with excellent abrasion resistance, corrosion resistance, colour fade resistance, dielectric strength, and surface hardness (Rockwell C-Scale up to 70). 50% penetration into the substrate and 50% growth over original dimensions occurs for a total thickness of 0.5 to 4 mils. Hard anodized metals have heightened surface roughness.  Common uses include non-decorative food packing equipment, photocopier paper rolls, and exterior applications such as building storefronts and windows.   Aluminium Anodizing Process The aluminium part is hung on stripped aluminium or titanium racks ensuring good electrical contact. Throughout the anodizing process, parts are affixed and the racks are suspended in a series of tanks. The aluminium part is dipped in a hot tank containing a soak cleaning agent to remove all surface dirt. The part is rinsed to avoid contaminating the solution in subsequent tanks. The next tank de-oxidizes the part with an acid solution (chromic, sulfuric, nitric or phosphoric) removing the thin, non-uniform aluminium oxide surface. Again the part is rinsed to avoid tank contamination. Etching is performed by suspending the part in a tank containing a sodium hydroxide solution. Etching removes the natural shine of the aluminium and provide a soft, matte, textured appearance. The part is suspended in the anodizing tank, which contains a diluted acid and water mixture that is capable of permitting electrical current flow. The type of acid, percent solution, and temperature are all critical parameters and dependent on the desired finish and colour. The negative leg of the electrical circuit is connected to the rack of parts and the positive side of the circuit is connected to one or more ''cathodes'' that introduce electricity into the tank.  Quantity and placement of the cathodes varies with the size and shape of the part, as well as the total square footage of the aluminium surface to be treated. Surfaces closest to the cathode will receive a thicker anodic coating. For normal sulfuric anodizing, a DC power source capable of producing up to 24 volts is used, with the voltage held generally between 18 and 24 volts. The amount of current applied to the anodizing tank will vary depending on the amount of surface to be treated, as a rule between 12 and 16 amps are required for each square foot of coverage. The electrolyte solution is agitated during the anodizing process to provide uniform solution temperature. The anodizing tank process, under normal conditions, takes less than an hour. To add colour (dye), the part is dipped in a tank with a diluted, water soluble, organic dye. Each dye varies in the length of time and temperature for this immersion. The final consideration in the anodizing process is sealing the now dyed outer surface so it doesn't sunlight bleach or stain. Unsealed, the porous outer surface has a lowered corrosion resistance. For non-dyed coatings, the anodized aluminium part is put into boiling de-ionized water for 20 to 30 minutes. This converts the unstructured pores of the aluminium oxide to a more solid crystalline hydrate form. If the anodized parts are dyed, the sealing process is performed for 3 to 5 minutes in a tank with a nickel acetate solution. Hard anodizing, depending on the process, uses a mixture of sulfuric and oxalic acid. Relatively low temperatures are used along with a higher current and a much higher voltage. The “gray” oxide layer produced is typically 2 to 3 mils and is very dense, wear, and corrosive resistant.      An alternative to racking is bulk anodizing which is more ideal for anodizing small, irregularly shaped parts such as rivets, ferrules, and medical hubs. Instead of racks, parts are processed in perforated aluminium, plastic, or titanium baskets. Whether you need coil or batch production, anodizing provides one of the best aluminium finishing options in the industry. Another alternative is coil anodizing.  Coiled aluminium is pre-anodized to lower finishing costs, save production time, and reduce material handling. Advantages of pre-anodized aluminium can be applied to most products that are fabricated from sheet or coil stock. Products that are made from extrusions, castings, rod, bar, or plate are limited to piece anodizing processes such as racking or bulk. Though most aluminum alloys will build aluminum oxide in an anodizing tank, they tend to anodize differently. Some alloys are more difficult to anodize while others anodize to slightly different shades of color. When anodized, various alloys provide different levels of workability (machining, grinding, polishing), environmental resistance properties, and dimensional stability.   Why Anodize? Anodizing is a highly effective and desirable means of finishing aluminum.  Some of the primary advantages of anodizing include: Durability - Most anodized parts experience no wear from handling, installation, usage, and maintenance Adhesion - Anodizing is part of the aluminum for total bonding and unmatched adhesion. Color – Anodized parts maintain good color stability when exposed to ultraviolet rays, do not have an applied coating that is subject to chipping or peeling, and have a repeatable coloring process. Quality of original finish – Parts are not subject to marking from the original anodizing process. Maintenance - Mild soap-and-water cleaning usually will restore an anodized profile to its original appearance. Aesthetics - Anodizing offers a large number of gloss and color alternatives, while allowing the metallic appearance of the extruded aluminum to show through. Cost - Anodizing is a very cost-effective value compared to other finishing methods.   In addition to low processing and maintenance costs, durability minimizes replacement costs. Environment, health and safety - Anodizing is favorable towards current governmental regulations because it is one of the most environmentally friendly industrial processes and is typically not harmful to human health. An anodized finish is chemically stable, will not decompose, is nontoxic, and is heat-resistant to the melting point of aluminum.  Since the anodizing process is a reinforcement of a naturally occurring oxide process, it is non-hazardous and produces no harmful or dangerous by-products. Chemical baths used in the anodizing process often are reclaimed, recycled, and reused.    Why Measure Anodizing Thickness? The anodizing process parameters have a significant influence on the properties of the oxide formed. If low temperatures and acid concentrations are used, it yields a less porous and harder coating. Higher temperatures and acid content, along with longer immersion times produces softer, more porous coatings. Minor changes to the alloy itself or any of these parameters can significantly affect the coating. Through various process controls and measurement techniques, Anodizers are able to monitor, control and correct the anodized coating application.  One of the most critical quality controls for anodizing is thickness. Thickness of anodizing can be measured non-destructively using an eddy current coating thickness gage or by calculating weight per unit area. The simplicity of the eddy current method is not only more efficient than the calculation method, but also enables the inspector to verify that adequate anodizing occurs across all surfaces of the part.     read more
Carlssoon Technologies (Malaysia) Sdn Bhd added 2 new photos
Dec 17, 2022 at 12:27 pm —
UNI-T - Multifunction Installation Tester UT 593
SMART SENSOR - Digital Anemometer ST8816
Carlssoon Technologies (Malaysia) Sdn Bhd added new photo
Dec 16, 2022 at 05:52 pm —
INSIZE - Digital Protactor 2171-250

INSIZE - Digital Protactor 2171-250

INSIZE - Digital Protactor 2171-250 Brand : Insize Model : 2171-250 Product Description The INSIZE 2171-250 Electronic Protractor has the following specifications: Size: 10″ Range: 0-360° Resolution: 0.05° Accuracy: ±0.15° Product Features Buttons: on/off, hold (keep the reading), zero, ABS (absolute and incremental measurement) Fix the locking screw at 4 positions for different measuring ranges: 0°~225°, -225°~O°, 45°~180°, -180°~45° Remove the locking screw for 360° range With level vial Battery CR2032, automatic power off Technical Specification Range : 0 -360 degree Length: 250 mm Resolution: 0.05 degreeAccuracy: ± 0.15  degree read more
Carlssoon Technologies (Malaysia) Sdn Bhd added 2 new photos in Color & Paint Coating Measurement
Dec 15, 2022 at 07:33 pm —
BIUGED - Closed Paint Mixer/Shaker BGD (763/764)
BIUGED - Air Pneumatic Mixer (BGD 720 722 723 725 728)
Carlssoon Technologies (Malaysia) Sdn Bhd added new photo
Dec 14, 2022 at 10:58 pm —
RANKCONN - Stainless Steel 304 Test Sieve A10

RANKCONN - Stainless Steel 304 Test Sieve A10

RANKCONN  - S/S 304 Test Sieve Brand: Rankconn Instruments Model: A10 Product Features: Rigid Structure - Double Layer Stainless Steel Wall Material : Stainless Steel 304   Technical Specification: Nominal Diameter (mm) Upper Frame Diameter (mm) Bottom Frame Diameter (mm) Total Height (mm) 5 5.5 4.5 3.5 6 6.7 5.4 3.5 8 8.1 7.2 4 10 11 10 4.6 15 16 15.9 4.8 20 21 19.8 5.8 25 26.1 24.3 6.3 30 31.3 30.1 7 40 41.2 40 8     Numbers of Hole Aperture (mm) 2 12.5 3 8 4 6 5 5 6 4 8 3 10 2 12 1.6 14 1.43 16 1.25 18 1 20 0.9 24 0.8 26 0.71 28 0.68 30 0.6 32 0.58 35 0.50 40 0.25 Numbers of Hole Aperture (mm) 45 0.4 50 0.355 55 0.315 60 0.28 65 0.25 70 0.224 75 0.2 80 0.18 90 0.16 100 0.154 110 0.15 120 0.125 130 0.112 140 0.105 150 0.100 160 0.096 180 0.09 190 0.08 200 0.074   Numbers of Hole Aperture (mm) 220 0.065 240 0.063 250 0.061 280 0.055 300 0.050 320 0.045 325 0.043 340 0.041 360 0.040 400 0.0385 500 0.0308 600 0.026 800 0.022 900 0.020 1000 0.015 1800 0.010 2000 0.008 2300 0.005 2800 0.003 read more
Carlssoon Technologies (Malaysia) Sdn Bhd added new photo
Dec 14, 2022 at 06:07 pm —
UNI - T - Mini Lightmeter UT-383

UNI - T - Mini Lightmeter UT-383

UNI - T - Mini Lightmeter UT-383 Brand : Uni-T Model : UT-383 Product Description UT383/UT383BT can effectively measure light intensity and display results in units of Lux or Fc. UT383BT can transfer measurement data through Bluetooth to UNI-T's custom mobile APP (iENV2.0) for further analysis, storage, and export. iENV2.0 can be downloaded from Google Play, Apple Store, or UNI-T's website by searching 'iENV2.0'. Technical Specification read more
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