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Slectionnez une ligne du tableau ci-dessous :
L (mm) A (mm) P (230 V) (W)
1 300 45 255
2 350 45 305
3 400 45 355
4 450 45 405
5 500 45 455
6 550 45 505
7 600 45 555
8 700 45 655
9 800 45 755
10 900 45 855
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Type : Material : Hardness : Surface Treatment RoHS CAD Data
MCHZ 304 Stainless Steel - - Compliant
MCHZA 304 Stainless Steel - - Compliant
MCHZB 304 Stainless Steel - - Compliant
MCHZC 304 Stainless Steel - - Compliant
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When Watlow creates a custom-engineered cast-in product, the result is more than just a heater. It's a "heated part" that becomes a functional component of your equipment, designed in the exact shape and size you need. The IFC heated part consists of a Watlow heater element built into custom metal shapes designed specifically for your application.
Applications
Semiconductor manufacturing
Foodservice equipment
Plastics processing
Medical equipment
Hot glue melt
Circulation heating
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OZARK extrudes insulators from MgO, Al2O3, and HfO2 for use in production of mineral insulated thermocouple cable, cartridge heaters, and other high temperature and electrical applications. Extrusion is a ceramic manufacturing technique which produces any shape with a constant cross section and theoretically
unlimited length. A mix containing the desired ceramic powder and various organic additives is forced through a die opening configured to give the required geometry which may include holes of precise shape and size. The extrudate is subsequently dried, fired, cut, inspected and packaged for shipment. Precise control of process variables is required to obtain high quality extrusions meeting purity, microstructural, and dimensional specifications.
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Ceramic fiber heaters intergrate a high temperature iron-chrome-aluminum (ICA) heating element wire with ceramic fiber insulation. Numerous stock, standard and/or custom shapes can be provided, achieving the "heated insulation" concept for your high temperature, non-contact applications. The ceramic fiber insulation isolates the high temperatures inside the heated chamber from the outside. The heaters are low mass, fast heating, with high insulation values and self-supported heating elements that offer some of the highest temperature heating capabilities within the Watlow family of heater designs.
Applications
High temperature furnaces
Metal melting, holding and transfer
Semiconductor processing
Glass, ceramic and wire processing
Analytical instrumentation
Fluidized beds
Laboratory and R&D
Other high temperature process applications
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ULTRAMIC™ 600 Advanced Ceramic Heater
When you need a lot of power in a small package, the ULTRAMIC™ 600 puts the performance of advanced ceramics to work for you. Constructed of aluminum nitride (AlN), the ULTRAMIC 600 can operate up to 600°C (1112°F) and deliver ultra-fast ramping of up to 150°C (270°F) per second for rapid thermal cycling applications.
The robust mechanical structure of the high density AlN enable these heaters to exhibit exceptional mechanical stability throughout the temperature range. This makes the product especially suitable in applications where consistent part-to-part thermal contact during heating cycles is critical. Additionally, these heaters are applicable when requiring a clean, non-contaminating heat source as they are particle free, impervious to moisture and resistant to acidic attack.
Applications:
Semiconductor wire and die bonding
Analytical instrumentation
Medical devices
Packaging
Aerospace
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Units for DIN or screw mounting.
TH heaters, installed separately from cooling unit, must be connected to a TMC thermostat. When used to prevent cabinet condensate they should be electrically connected also when cabinet is off.In this cabinet it’s better to install more heating elements with small heating power.In this way there is an optimal air temperature distribution.
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Technical details
- Protection class I (ground wire) - protection type IP 54 (DK = IP 20)
- Temperature setting:
ON 25 °C - OFF 55 °C (operating temperature of heating
system itself)*
Tropical version possible: ON 35 °C - OFF 65 °C
-> Other settings upon request
- 2 Connecting alternatives (optional)
Connecting leads (AL) 0.5 m, 3 x 0.75 mm² PVC
- > Other lengths upon request
Lead out terminal (DK) 0.08 - 2.5 mm²
- Mounting position: vertical
- 2 fastening alternatives (optional)
Snap fitting for 35 mm DIN rail (figure 1)*
Screw fastening (figure 2)
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PTC units for DIN bar application.
EH/FH heaters, installed separately from cooling unit, must be connected to TMC thermostat. When used to prevent cabinet condensate they should be eletrically connected also when cabinet is off.In this cabinet it’s better to install more heating elements with small heating power.In this way there is an optimal air temperature distribution.
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The Faratherm Induction Base Heater consists of an induction coil, encapsulated in glass reinforced resin with a heating plate located on top. It uses the same technology as our proven THERMOSAFE Induction Drum Heater.
Powered by single phase ac electricity, it is certified for use in potentially explosive atmospheres to the ATEX and IECEx standards for Zones 1 and 2.
With an ingress protection rating of IP66 and no moving parts, it is suitable for use in harsh environments. There are no heating elements, and no electrical contacts to spark or arc as the maximum temperature is self limiting.
The Faratherm unit can be used by itself, or in conjunction with our THERMOSAFE drum heater for fastest possible melting of solids from drums, and for rapid heating of viscous liquids.
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Technical details
• Explosion proof according to EN: 50018
• Heating element: high-performance heater cartridge
• Radiator: aluminum profile, black anodized
• Connection: Si HF-JZ 3 x 1.5 mm², 1 m long
• Connection PE: 4 mm²
• Fastening: clip for 35 mm top hat rail, EN 50022
• Mounting position: vertical
• Operating / storage temperatures: -20 to + 40°C / -45 to + 70°C
• Protection type: IP 65
• Protection class: I (protective conductor)
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Mechanically-bonded continuous fin assures excellent heat transfer and helps prevent fin vibration at high air velocities.
Several standard formations and mounting bushings available.
Standard fin is high temperature painted steel with steel sheath.
Optional stainless steel fin with stainless steel or incoloy sheath for corrosion resistance.
120v, 208v, 240v, 480v available.
Maximum Sheath Temperature
750°F (400°C) - Steel
900°F (480°C) - ST.ST./INCOLY
Made in U.S.A.
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Applications:
Air Heating, Air Ovens, Load Banks
U.L. Recognized - E56973 C.S.A. Certified - 016386-0-000
Construction:
-Seamless stainless steel sheath
-Post terminals
-Ceramic element support
-Element wire is situated in close proximity to outside surface for maximum heat transfer and minimum internal temperature while preserving good dielectric qualities.
-Magnesium oxide packing
-Aluminum fins offering maximum radiating surface and providing for rapid heat transfer to the surrounding medium. Stainless steel fins are available for corrosive environments.
Aluminum fins are standard.
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Ideal for generating steam and heating gases and liquids in pressure vessels and tanks, flanged immersion heaters are hairpin-bent tubular elements welded or brazed into a flange and provided with electrical enclosures. Chromalox flanged immersion heaters are available in a wide selection of flange sizes and with a variety of electrical enclosures. Most units are UL-listed and CSA-certified or can have ATEX certification. ASME or PED code construction is also available for high-pressure applications. Chromalox can also rebuild large flanged heaters to save you money. Many models in stock.
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Teflon® heaters/ Galvatek flat heaters
ASSEMBLY TYPE F
Standard : heating cable insulated with Teflon® FEP
PP or PVDF rod frame
Non heating cable position either on the small side (J) or on the large one (K)
Power from 0,5 kW to 15 kW
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• Custom Design
• Etch foil and Wire Wound Technology
• Precise Even Heating
• Flexible and Lightweight
• Moisture and Chemical Resistant
• Wide Temperature Range -60c to +230c
• UL and VDE Approval available
• Full Design and Manufacturing Service
• 3-5 Day Delivery
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Honeywell Sensing and Control Flexible Heaters are part of the thermal product portfolio. Honeywell offers multiple insulation and heater configurations to serve a wide variety of application requirements. Combined with the thermal sensing and switching portfolio, this capability provides design flexibility to support many opportunities for total thermal management.
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Flexible Thermofoil™ Solutions for Heating
Thermofoil™ heaters are thin, flexible heating elements consisting of an etched foil resistive element laminated between layers of flexible insulation. Since their introduction by Minco over 45 years ago, Flexible Thermofoil™ heaters have demonstrated significant advantages over conventional electric heaters.
Precise Heating
Thermofoil™ heaters put heat where you need it. You simply apply them to the surface of the part to be heated. Their thin and Flexible profile gives close thermal coupling between the heater and heat sink. You can even specify profiled heat patterns with higher watt densities in areas where heat loss is greater.
Faster Warmup and Longer Life
The flat foil element of Flexible Thermofoil™ heaters transfers heat more efficiently, over a larger surface area, than round wire. Thermofoil™ heaters, therefore, develop less thermal gradient between the resistive element and heat sink. Heaters stay cooler. The result is higher allowable watt densities, faster warmup, and prolonged insulation life. Thermofoil™ heaters can safely run at wattages twice those of their wire-wound equivalents. Insulation life may be ten times greater. For high levels of reliable heat, the obvious choice is Flexible Thermofoil.
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Flexible heaters from Watlow are just what the name implies: thin, bendable and shaped to fit your equipment. You can use your imagination to apply heat to the most complex shapes geometries conceivable without sacrificing efficiency or dependability.
Applications
Medical equipment such as blood analyzers, respiratory therapy units and hydrotherapy baths
Freeze protection for military hardware, aircraft instrumentation and hydraulic equipment
Battery heating
Foodservice equipment
Factory bonding and subassemblies
Any application requiring a flexible shape or design
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Thermofoil heaters put heat where you need it. You simply apply them to the surface of the part to be heated. Their thin and Flexible profile gives close thermal coupling between the heater and heat sink. You can even specify profiled heat patterns with higher watt densities in areas where heat loss is greater.
The flat foil element of Flexible Thermofoil heaters transfers heat more efficiently, over a larger surface area, than round wire. Thermofoil™ heaters, therefore, develop less thermal gradient between the resistive element and heat sink. Heaters stay cooler. The result is higher allowable watt densities, faster warmup, and prolonged insulation life. Thermofoil heaters can safely run at wattages twice those of their wire-wound equivalents. Insulation life may be ten times greater.
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We present the model RFS, an electric flexible serial resistance, specially design to be applied as a heating system: Electric radiant floor, electric radiant floor for ramps, electric trace heating for pipes, electric trace heating for storage tanks, snow melting system for ramps, systems of prevention of accumulation of snow and ice for roofs and roofs, systems of prevention of accumulation of roofs and gutters, electric heating for animals: pigs, pets, exotic animals habitats, etc. electric heating for the farming: small greenhouses, seedbeds, etc.
We use the RFS to manufacture special heating systems:
Heating blankets, heating mats, crankcase heaters, etc.
Technical characteristics
Operating voltages: 12v, 24v, 48v, 110v, 125v, 230v, 380v... 750v.
Power output at 230 V: 8 to 60w/m
Maximum operating temperature: 180ºC
Maximum circuit length: According to model
Heating conductor: Ni/Cr 80/20
Core : Woven glass fibre
Type of insulation: Thermal Silicone, Glass fibre, P.V.C, etc.
Supply
.In reels.
.In groups already finishes, according to longitudes.
.With diameter of the Isolation: 2,9mm, 4mm (normalized), 5mm, 6mm.
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Tubular heating elements are versatile and transfer heat exceptionally well by conduction, convection, or radiant heating to heat liquids, air, gases, and surfaces. Round, triangular, flat press, and formed bends are made to customer requirements. A multitude of sheath materials are available. More than 20 optimal terminations and many stocked accessories are available. Can be furnished as UL-listed and CSA-certified. VDE and CE certification also available.
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Applications:
Dies, Heat Sealing, Hot Melt Adhesive, Plastic Molding, Platens, Shoe Machinery.
U.L. Recognized - E56973 C.S.A. Certified - 016386-0-000
Features :
-Elements are designed for maximum: Watt density, temperature, heat transfer, and heater life.
-The useful life of a cartridge heating element is determined by how quickly the heat generated in the resistance
wire can be dissipated to the outside sheath. With low and moderate watt density elements, such as Hotwatt's
standard line, the conventional method of inserting helical coils in formed ceramics is an entirely satisfactory
method of construction because the wire temperature relative to sheath temperature even though considerably
higher, is still well within safe long-life operating temperatures.
-The Superwatt cartridge heater accelerates the transfer of heat from the resistance wire to the sheath. This is
accomplished by relocating the wire so that it is closer to the sheath; and swaging the outside diameter of the
heater, thereby compressing the magnesium oxide filler so that it becomes an improved conductor of heat from
the wire while maintaining its dielectric properties. (See diagram below). By improving the heat transfer rate, it
is possible to manufacture elements of higher densities because the differential between the wire temperature
and the sheath temperature has been minimized.
-Long, trouble free service.
-Made in U.S.A.
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Teflon® heaters / Galvatek cylindrical heaters
ASSEMBLY TYPE R
Ideally suited to all installations on the side of the tank.
Standard : heating cable insulated with Teflon® FEP
Structure materials : PP or PVDF
Power from 0,5 kW to 15 kW
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U.L. Recognized - E56973 C.S.A. Certified - 16386-0-000
-The Hotwatt Immersion Heater may be supplied with various junction boxes for additional terminal or lead protection.
-For corrosive environments, units can be supplied in other special alloys best suited to the operating conditions.
-The lead end of the unit may be sealed for extreme environmental conditions.
-Units may be supplied for three phase or three heat operation.
Made in U.S.A.
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Electric immersion heaters are especially suitable for heating fluids via natural or forced convection. They are mainly used for water heaters, heating tanks and for fluid circulation heaters.
Depending on the application, they exist in different materials.
Their layout of heating elements allows an optimum heat exchange.
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Heaters with built-in regulation / Control-Therm
A complete device combining heating and regulation
Standard : heating cable insulated with Teflon® FEP
Structure materials : PP or PVDF or PP/PVDF
Control range 0 °C to 90°C
Temperature settings in the terminal casing
From 0,5 kW to 3 kW single-phase
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Mica heaters consist of an etched foil element sandwiched between layers of mica. An organic material binds the layers together and burns off during initial warmup. Installed by clamping to heat sinks, mica Thermofoil™ heaters provide the ultimate temperature and wattage capability for fast warmup.
- Extremely high temperature capability to 600°C (1112°F)
- Power rated to 110 watts per square inch — 50% higher than conventional mica strip heaters
- Can be factory formed to curves
- Clamp directly to heat sink for exceptional heat transfer
- Suitable for vacuum use after organic binder is burned off in initial power-up
- UL component recognition available
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Applications
Dies, Heat Sealing, Hot Melt Adhesive, Plastic Molding, Platens, Shoe Machinery.
U.L. Recognized - E56973 C.S.A. Certified - 016386-0-000
Features
Elements are designed for maximum: Watt density, temperature, heat transfer, and heater life.
The useful life of a cartridge heating element is determined by how quickly the heat generated in the resistance
wire can be dissipated to the outside sheath. With low and moderate watt density elements, such as Hotwatt's
standard line, the conventional method of inserting helical coils in formed ceramics is an entirely satisfactory
method of construction because the wire temperature relative to sheath temperature even though considerably
higher, is still well within safe long-life operating temperatures.
The Superwatt cartridge heater accelerates the transfer of heat from the resistance wire to the sheath. This is
accomplished by relocating the wire so that it is closer to the sheath; and swaging the outside diameter of the
heater, thereby compressing the magnesium oxide filler so that it becomes an improved conductor of heat from
the wire while maintaining its dielectric properties. (See diagram below). By improving the heat transfer rate, it
is possible to manufacture elements of higher densities because the differential between the wire temperature
and the sheath temperature has been minimized.
Long, trouble free service.
Made in U.S.A.
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