The paint coating thickness gauge meter can measure the thickness of non-magnetic coatings on metallic substrates, as well as the thickness of non-conductive coatings on non-magnetic metallic substrates. It has an ultra-long standby time and can work for 200 hours.
Powerful Functions
- The thickness gauge can be equipped with high-precision probes, and five types of magnetic/eddy current dual-purpose, and all are suitable for magnetic substrates and non-magnetic substrates, and one machine has more scenarios for multiple uses.
The probe adopts dynamic temperature compensation technology, the data temperature is reliable, and it can automatically compensate for the errors caused by changes in ambient temperature and test temperature. - The thickness gauge has five built-in memory units, each of which can store up to 100 values. It should be noted that when each group is full of 100 values, although the measurement can continue, the statistical value cannot be modified. If necessary, the memory unit can be cleared and a new measurement can be made.
- The upper and lower limit alarm values are set in the system, and batch operations are more efficient. The degree of proximity between the upper and lower limits is limited. When the upper limit value is 200μm, the minimum degree of proximity between the upper and lower limits is 3% of the upper and lower limits. When the measurement result is greater than or equal to the upper and lower limit values, the instrument will make a corresponding sound or flashing light prompt.
Quality Assurance
- Anti-interference split probe, using advanced digital probe technology, digital signal processing can be completed directly on the probe, is not easily interfered with, can provide excellent test accuracy and maintains stable readings.
- The thickness gauge adopts a low-power design and can use two No. 5 batteries. It can work continuously for more than 200 hours in the backlight off mode and has a sleep function and an automatic shutdown function.
- The probe contact parts are plated with hard chrome or ruby, which is durable. It uses an ABS plastic shell, which is small, portable, solid, and durable, suitable for harsh operating environments, and resistant to vibration, impact, and electromagnetic interference.
Application
The thickness measurement of the cladding is the most important process of quality inspection implemented in the metal processing industry. The coating thickness gauge perfectly handles these situations and fully enhances manufacturing efficiency, so it is widely used in metal processing, chemical industry, commercial inspection, electroplating, spraying, aluminum profiles, steel structure, etc. It is also suitable for shipbuilding, aerospace, electric power, pot special inspection, technical supervision and other industries.
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| Basic Specs | |||||
| Model | SISCO-DCTG-TT230 | ||||
| Measuring Range | 0-1250μm, depends on probes | ||||
| Working Principle | Magnetic & Eddy | ||||
| Substrate | FE/NFE base | ||||
| Resolution | 0.1μm (F1,N1 Probe) | ||||
| Display | 128x64 LCD with backlight | ||||
| Accuracy | ±2%H+1μm Note: H is thickness reading | ||||
| Memory | 5 files×100 values | ||||
| Unit Switch | Metric(μm) Imperial(mil) | ||||
| Working Temperature | Operation Temp: -10~50℃ Storage Temp:-30~70℃ | ||||
| Power | 3V, AA battery 2pcs | ||||
| Host Weight | 304g | ||||
| Size | 115mm×67mm×31mm | ||||
| Probe Specs | |||||
| Probe Model | F400 | F1 | F1/90 | F10 | N1 |
| Working Principle | Electromagnetic induction | Vortex | |||
| Measurement Range | 0~400 | 0~1250 | 0~1250 | 0~10000 | 0~1250 |
| Lower Limit Resolution | 0.1 | 0.1 | 0.1 | 10 | 1 |
| Indication Error: one-point calibration(μm) | ±(3%H+1) | ±(3%H+1) | ±(3%H+1) | ±(3%H+10) | ±(3%H+1.5) |
| Indication Error: two-point calibration(μm) | ±{(1~3)%H+0.7} | ±{(1~3)%H+1} | ±{(1~3)%H+1} | ±{(1~3)%H+10} | ±{(1~3)%H+1.5} |
| Test Conditions: minimum radius of curvature | Convex curvature>lmm | F1:1.5 | F1:90Straight | 10 | 3 |
| Test Conditions: minimum area diameter (mm) | φ3 | φ7 | φ7 | φ40 | φ5 |
| Test Conditions: basic critical limit thickness (mm) | 0.2 | 0.5 | 0.5 | 2 | 0.3 |
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Structure Diagram
- Test Connection Plug
- Test Value
- Test Type Indicator
- Measurement Method
- Control Keyboard
- Power Display
- Measurement Unit
- Storage Record Count
- Limit
- Probe
- Test Block
Q1: Is laser distance meter accurate?
A1: The laser measure is accurate to within 1/8" and measures to 50 feet. It makes this measuring tool more accurate, easier and faster than a tape measure.
Q2: How do I choose a laser distance meter?
A2: Most lasers measurers are easy to fit into the palm of your hand, but some are bigger than others. If you have small hands and want a small unit that is easily controlled, or if you have big hands and need a larger laser for ease of use, check on the exact size of any model you are considering.
Q3: Do laser distance meter work outside?
A3: If you work outside, an optical scope or digital point finder is a must. Without a scope or a point finder, you can see a laser point at a maximum distance of about 30 feet on a bright day. Chances are, if you are measuring outside, 30 feet isn't going to cut it.
Tips: How to Calibrate The Thickness Coating Gauge?
The first is the zero-point calibration method. Perform a measurement on the substrate, the screen displays a non-zero value and then press the zero key. The screen displays 0.0μm and the calibration is completed. Repeat this method to calibrate different points to obtain higher measurement accuracy.
The second is the two-point calibration method. First, perform a zero-point calibration (refer to the first method), then take out the test piece and place it on the substrate. Perform a measurement on the test piece first. According to the thickness of the test piece, press the up and down keys to correct it to the corresponding standard value, that is, the calibration is completed. This method can be repeated to correct multiple points to improve accuracy and reduce errors.
The third is the modification of the basic calibration. First, in the off state, press the power and down keys at the same time to enter the calibration interface, zero the value, and repeat it several times to improve accuracy. Then use the test piece and test the test piece in the order of increasing thickness. Press the up and down keys to adjust the corresponding standard value of the test piece. The test piece test is completed. Finally, measure the substrate again. The test piece test instrument automatically shuts down, that is, the calibration is completed.
Thank you for buying industrial test and measurement equipment on SISCO.com, all products sold by SISCO and the partner cover a 12 months warranty, effective from the date of receiving the products.
What is covered?
SISCO is responsible for providing free spare parts, and free technical support to assist the customer to repair the defective products until the problem is solved.
What is not covered?
- Product purchased from anyone other than a SISCO store or a SISCO authorized reseller.
- Expendable parts.
- Routine cleaning or normal cosmetic and mechanical wear.
- Damage from misuse, abuse or neglect.
- Damage from use of parts other than SISCO approved.
- Damage from use outside the product’s usage or storage parameters.
- Damage from use of parts not sold by SISCO.
- Damage from modification or incorporation into other products.
- Damage from repair or replacement of warranted parts by a service provider other than a SISCO authorized service provider.
- Damage caused by the application environment not meeting the product usage requirements and the failure to perform preventive maintenance.
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