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1 Products availableThermocouple Cables
1 Products availablePower Connectors
1 Products availableTransmitter Device
1 Products availableThe exceptional corrosion resistance of temperature sensors made of precious metals ensures a long service life and consistent measurement accuracy. Therefore, high-purity platinum or platinum/rhodium alloy thermocouple wires are the answer for sensing high temperatures up to 1700°C. For example, the steel and semiconductor industries employ thermocouples composed of these wires to measure precise temperatures.
Diameter Availability
Applications in industries as under
Specification
Type | Class 1 Deviation [Whichever is greater] [Tolerances as per EN 60584] |
Class 2 Deviation [Whichever is greater] [Tolerances as per EN 60584] |
---|---|---|
R | +/- 1˚C for temperatures [0-1100˚C] & 1.0 °C + ((T–1100) x 0.003 °C) for temperatures [1100˚C-1600˚C] | 1.5 °C or (0.0025 x T) °C for temperatures [0˚C-1600˚C] |
S | +/- 1˚C for temperatures [0-1100˚C] & 1.0 °C + ((T–1100) x 0.003 °C) for temperatures [1100˚C-1600˚C] | 1.5 °C or (0.0025 x T) °C for temperatures [0˚C-1600˚C] |
B | NA | 1.5 °C or (0.0025 x T) °C for temperatures [600˚C-1600˚C] |
Many laboratories around the nation have used our platinum products. The purity you will receive will always be greater than 99.95%. Our extensive selection of diameters, lengths, weights, and capacities, combined with our top-notch sales support, have made it possible for consumers to choose from the many accessible options.
Buyers have a variety of alternatives to pick from, including the following:
Platinum Crucible
Product Name | Capacity | Upper Diameter | Height | Thickness | Weight |
pt crucible with lid Pt purity ≥ 99.95% | (ml) | (mm) | (mm) | (mm) | (g) |
10 | 28 | 28 | 0.26 | 11 | |
15 | 32 | 32 | 0.26 | 15 | |
20 | 35 | 35 | 0.27 | 20 | |
25 | 37 | 37 | 0.27 | 25 | |
30 | 39 | 40 | 0.29 | 30 | |
35 | 40 | 40 | 0.29 | 35 | |
40 | 42 | 42 | 0.29 | 40 | |
50 | 44 | 44 | 0.31 | 50 | |
60 | 49 | 49 | 0.33 | 60 | |
80 | 54 | 54 | 0.35 | 70 | |
100 | 60 | 60 | 0.37 | 85 | |
150 | 70 | 70 | 0.38 | 156 | |
200 | 74 | 74 | 0.38 | 175 | |
250 | 78 | 78 | 0.39 | 198 | |
300 | 86 | 83 | 0.4 | 240 |
Platinum Dishes
Product Name | Capacity | Upper Diameter | Height | Thickness | Weight |
pt dish Pt purity ≥ 99.95% | (cc) | (mm) | (mm) | (g) | (g) |
20 | 41 | 20 | 6 | 6 | |
25 | 42 | 23 | 8 | 10 | |
35 | 49 | 25 | 12 | 13 | |
40 | 51 | 26 | 15 | 14 | |
50 | 53 | 29 | 17 | 15 | |
60 | 58 | 30 | 20 | 19 | |
75 | 65 | 30 | 25 | 22 | |
100 | 70 | 33 | 33 | 25 | |
125 | 74 | 34 | 42 | 28 | |
150 | 77 | 41 | 50 | 33 | |
175 | 84 | 40 | 55 | 41 | |
200 | 90 | 43 | 67 | 44 | |
250 | 94 | 42 | 80 | 51 | |
300 | 110 | 45 | 94 | 55 | |
400 | 115 | 48 | 133 | 58 | |
500 | 124 | 50 | 170 | 61 | |
750 | 124 | 75 | 270 | 61 |
Platinum Tonges
Mode | Stainless Steel Crucible | Stainless Steel Crucible Tongs (cm) | Standard Crucible Tongs Weight (gram) |
---|---|---|---|
1 | 6" | 15 | 4 |
2 | 8" | 20 | 5 |
3 | 10" | 26 | 6 |
4 | 12" | 30 | 7 |
5 | 14" | 36 | 8 |
6 | 16" | 41 | 9 |
7 | 18" | 46 | 10 |
8 | 20" | 51 | 11 |
9 | 22" | 56 | 12 |
10 | 24" | 62 | 14 |
A mineral insulated cable (MI cable), a specialised kind of cable used in high temperatures or harsh environmental conditions, has a low flammability even when running at high temperatures. It can withstand oxidation and allows for accurate measuring.
When utilised in chemically active or moist situations, the metal sheath that covers MI cable aids in preventing the thermocouple wires from oxidation. Mineral insulated cable is the best choice for usage in locations where failure and repair could be risky or even impossible due to corrosion. For instance, nuclear power reactors utilise MI wire to track core temperatures.
The thermocouple wires are kept from coming into touch with other thermocouple wires or with caustic materials like oils, solvents, or water by the superior non- reactive insulation provided by the mineral fillers of MI cables. In applications like heat treatment or sintering, where the quality of the product could be severely affected by temperature variations, this helps to ensure that the thermocouple probes remain correct.
Specification
Sheath Size(mm) | Conductor Diameter(mm) | ||
Diameter | Wall Thickness | K N E J T | S R B |
0.25 | 0.025-0.035 | 0.04-0.05 | - |
0.5 | 0.05-0.1 | 0.08-0.12 | - |
1 | 0.1-0.2 | 0.15-0.2 | - |
1.5 | 0.15-0.25 | 0.23-0.3 | 0.15-0.2 |
2 | 0.2-0.35 | 0.3-0.5 | 0.2-0.25 |
3 | 0.3-0.45 | 0.45-0.6 | 0.3-0.35 |
4 | 0.4-0.6 | 0.55-0.7 | 0.4-0.45 |
4.5 | 0.45-0.6 | 0.68-0.8 | 0.4-0.45 |
5 | 0.5-0.8 | 0.7-0.9 | 0.45-0.5 |
6 | 0.6-0.9 | 0.9-1.1 | 0.45-0.5 |
8 | 0.8-1.2 | 1.2-1.4 | - |
3 | 0.3-0.45 | 0.45-0.6 | 0.3-0.35 |
4 | 0.4-0.6 | 0.55-0.7 | 0.4-0.45 |
4.5 | 0.45-0.65 | 0.68-0.8 | 0.4-0.45 |
5 | 0.5-0.8 | 0.7-0.9 | 0.45-0.5 |
6 | 0.6-0.9 | 0.9-1.1 | 0.45-0.5 |
8 | 0.8-1.2 | 1.2-1.4 | - |
Specification 01
Type | Code | Graduation | Sheath Material | Outer dia. (mm) | Temperature Range |
Ni Cr - Ni Si | KK | K | SS304 | 0.5-1.0 | 400 |
SS321 | 1.5 - 3.2 | 600 | |||
SS316 | 4.0 - 8.0 | 800 | |||
0.5 - 1.0 | 500 | ||||
SS310 | 1.5 - 3.2 | 800 | |||
INCL600 | 4.0 - 6.4 | 900 | |||
8.0 - 12.7 | 1000 | ||||
Ni Cr Si - Ni Si | NK | N | SS304 | 0.5-1.0 | 400 |
SS321 | 1.5 - 3.2 | 600 | |||
SS316 | 4.0 - 8.0 | 800 | |||
0.5 - 1.0 | 500 | ||||
SS310 | 1.5 - 3.2 | 800 | |||
INCL600 | 4.0 - 6.4 | 900 | |||
8.0 - 12.7 | 1000 | ||||
Ni Cr - Konstantan | EK | E | SS304 | 0.5-1.0 | 400 |
SS321 | 1.5-3.2 | 500 | |||
SS316 | 4.0 - 8.0 | 800 | |||
Fe - Konstantan | JK | J | SS304 | 1 | 300 |
SS321 | 1.5-3.2 | 500 | |||
SS316 | 4.0 - 8.0 | 800 | |||
Cu - Konstantan | TK | T | SS304 | 1 | -300 |
SS321 | 1.5-3.2 | 100-200 |
We produce and create resistance thermometers with mineral insulation. Resistance thermometers are sometimes known as Pt100 sensors, resistance thermometer detectors, or platinum resistance thermometers (PRTs). A metal wrapping on the outside of mineral insulated resistance thermometers shields the P100 element from contamination and damage. Magnesium oxide powder is used to insulate this outer sheath, and it is packed securely to ensure that no air is trapped inside. As a result, mineral insulated RTD can be bent into a number of shapes to suit your application in addition to having excellent thermal conductivity.
Available in Designs as
We produce and create thermocouples with mineral insulation. The outer metal sheath of mineral insulated thermocouples shields the thermocouple components from contamination and damage. Because this sheath is flexible, mineral insulated thermocouples can be easily bent and moulded into a variety of shapes to fit your application. Magnesium oxide powder is used to insulate the inner thermocouple elements, and it is packed securely so that no air can get trapped inside. This results in excellent thermal conductivity.
Wide range of designs and applications
Available in Designs as
Thermocouple (or RTD) probe is enclosed in a thermowell, which shields it from process elements including fluid flow rates and caustic or deteriorating chemicals. The integrity of pressure boundaries in systems is also preserved by thermowells.
Thermowells are employed to protect temperature sensors from harm from excessive pressure, material velocity, and corrosion. These sensors include thermocouples, thermistors, and bimetal thermometers. Additionally, they extend the sensor's life, enable sensor replacement without emptying the system, and lower the risk of contamination. In order to assure integrity, thermowells made for high pressure applications are normally machined from bar stock. Tubing with one end welded closed can be used to make smaller thermowells for usage in low pressure settings.
Coatings Availability[For lower erosion, corrosion and resistance against wear and tear] Tungsten Carbide, ZirconiaType, Ceramic coats Or Other customized.
High temperature thermocouple cables, extension cables, and compensating cables for thermocouples and RTDs. D ifferent varieties of braidings, as well as the ideal combinations for your requirement. Select one of the countless combinations or create your own.
Chart To Understand Cable Types, Their Tolerances And Curresponding Temperature Ranges
T/C Type | Conductor | Conductor Combinations | Color Code | Tolerance Class As Per IEC 584.3 | Cable Temp. Range ℃ | ||||
Extension Cable | Compensating Cable | +LEG | -LEG | IEC 5843:1989 | ANSI/MC96.1 | Class 1 | Class 2 | ||
K | CHROMEL | ALUMEL | - | - | ±1.5℃ or 4% of T | ±2.5℃ or 0.75% of T | 0℃ To +1100℃ | ||
KX | CHROMEL | ALUMEL | - | - | ±1.5℃ | ±2.5℃ | -25℃ To +200℃ | ||
KCA | IRON | CONSTANTAN | - | - | - | ±2.5℃ | 0℃ To +150℃ | ||
KCB | COPPER | CONSTANTAN | - | - | - | ±2.5℃ | 0℃ To +100℃ | ||
T | COPPER | CONSTANTAN | - | - | ±0.5℃ or 0.4% of T | ±1.0℃ or 0.75% of T | -185℃ To +300℃ | ||
TX | COPPER | CONSTANTAN | - | - | ±0.5℃ | ±1.0℃ | -25℃ To +100℃ | ||
J | IRON | CONSTANTAN | - | - | ±1.5℃ or 0.4% of T | ±2.5℃ or 0.75% of T | +20℃ To +700℃ | ||
JX | IRON | CONSTANTAN | - | - | ±1.5℃ | ±2.5℃ | -25℃ To +200℃ | ||
N | NICROSIL | NISIL | - | - | ±1.5℃ or 0.4% of T | ±2.5℃ or 0.75% of T | 0℃ To +1100℃ | ||
NX | NICROSIL | NISIL | - | - | ±1.5℃ | ±2.5℃ | -25℃ To +200℃ | ||
E | CHROMEL | CONSTANTAN | - | - | ±1.5℃ or 0.4% of T | ±2.5℃ or 0.75% of T | 0℃ To +800℃ | ||
EX | CHROMEL | CONSTANTAN | - | - | ±1.5℃ | ±2.5℃ | -25℃ To +200℃ | ||
R | RCA | COPPER | COPPER LOW VALUE NICKEL | - | - | - | ±2.5℃ | 0℃ To +100℃ | |
S | SCA | COPPER | COPPER LOW VALUE NICKEL | - | - | - | ±2.5℃ | 0℃ To +100℃ | |
B | BC | COPPER | COPPER | - | - | - | 0℃ To +100℃ | ||
D | DC | ALLOY 203* | ALLOY 225* | - | - | - | ±4.5℃ | 0℃ To +100℃ | |
C | CC | ALLOY 405* | ALLOY 426* | - | - | - | ±4.4℃ | 0℃ To +100℃ |
Braiding Materials Used
Braiding Material | Abbreviation Used |
---|---|
Teflon | Tef |
PVC | PVC |
Asbestos | ASB |
Silicone / Silicone Varnish | Si |
Glass Fibre | FG |
Stainless Steel | SS |
Ceramic Glass / Ceramic Glass wool | - |
Neoprene Rubber | NR |
Transparent shield (Tefllon) | - |
Thermocouples can be quickly connected to and detached from the extension wire using special thermocouple connectors. A male plug and a female jack make up the connector pair. For single thermocouples, the male plug will have two pins; for dual thermocouples, it will have four pins. Three pins will be included on RTD temperature sensors. To ensure precision across the thermocouple circuit, thermocouple alloys are used in the manufacturing of thermocouple plugs and jacks.
To fit your application, thermocouple plugs and jacks can be purchased in a choice of body materials and temperature ratings. High temperature applications up to 650°C can also use High Purity Alumina Ceramic Thermocouple Connectors. Type E, J, K, N, T, R, S, and B thermocouple calibrations are available for all thermocouple connectors.
Thermocouple plugs and jacks can be ordered in a variety of body materials with various temperature ratings to suite your application. High Purity Alumina Ceramic Thermocouple Connectors are also available for high temperature applications up to 650. All thermocouple Connectors can be ordered in Type E, J, K, N, T, R, S, and B thermocouple calibrations
Specification
Product Name | Thermocouple Connectors |
---|---|
Model Number | K/E/T/J/N/S Scoket Connectors |
Color Code | yellow,black,orange,blue,green |
Conductor Material | NiCr-NiSi |
Application | Temperature Connector |
Gender | Male Connector and Female Connector |
Work Environment | -29∼220℃(-20∼425℉) |
The ASHMTT01 by Alba Sensors is a single-input head-mounted temperature transmitter. Thermocouples and RTDs are accepted on the single input. For transmission to your system, all inputs are linearized and transformed into a 4-20 mA output that meets industrial standards. For your monitoring applications, use ASHMTT01.
Specification
Input | |||
Input Signal | Resistance temperature detector (RTD), thermocouple (TC) | ||
Code - junction compensation temperature scope | -20∼60℃ | ||
Compensation precision | ±1℃ | ||
Output | |||
Output Signal | 4...20mA(two-wire) | ||
Load resistance | RL≤(Ue-12)/0.021 | ||
Output current of upper and lower limit overflow alarm | IL=3.8mA IH=21mA | ||
Input Type And Transmission Precision | |||
Type | Measuring Range | Minimum Measurement Range | Conversion Accuracy |
Pt100 | -200∼850℃ | 20℃ | ±0.1% range or ±0.2℃ |
Cu50 | -50∼150℃ | 20℃ | ±0.1% range or ±0.2℃ |
B | 400∼1800℃ | 500℃ | ±0.1% range or ±1.5℃ |
E | -100∼1000℃ | 50℃ | ±0.1% range or ±0.5℃ |
J | -100∼1200℃ | 50℃ | ±0.1% range or ±0.5℃ |
K | -180∼1372℃ | 50℃ | ±0.1% range or ±0.5℃ |
N | -180∼1300℃ | 50℃ | ±0.1% range or ±0.5℃ |
R | -50∼1768℃ | 500℃ | ±0.1% range or ±1.5℃ |
S | -50∼1768℃ | 500℃ | ±0.1% range or ±1.5℃ |
T | -200∼400℃ | 50℃ | ±0.1% range or ±0.5℃ |
Alba Sensors' Thin film Platinum based elements offer Class A outputs using the most cutting-edge high-tech techniques, including laser spray plating, microphotography, and printing lithography. The resistance value is adjusted via digital trimming, which results in the highest level of accuracy.
VersionsPT50, PT100, PT500, PT1000, PT2000, CU50 & more.
Technical description
Specification
Accuracy | Deviation Error | Deviation Resistance (0℃) | (a)(Ohm/Ohm/deg.C) |
---|---|---|---|
A | +/-(0.15+0.002t) | +/-0.06 Ohm | 0.003851+/-0.000005 |
B | +/-(0.3+0.005t) | +/-0.12 Ohm | 0.003851+/-0.000012 |