Thermal Technology LLC

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Fiber Drawing Furnaces

Thermal Technology’s fiber drawing furnaces are designed for operation to 2400°C with preforms up to 61 mm in diameter. The fiber drawing furnace features a simplified long-life, high-purity graphite resistance element which delivers concentrated heat through a linear graphite tube (available with a split liner for altering the hot zone profile) that serves to protect the element and control inert gas flow. Encapsulated graphite felt insulation surrounds the heating element. Protective inert gas flow routing is simple and effective with top and bottom gas screens, top adjustable iris assembly and bottom water-cooled slide door assembly. Safety interlocked top and bottom plugs permit convenient evacuation and backfilling of the furnace prior to operation. A 30 kVA power supply is also included, complete with a separately housed main transformer in a NEMA enclosure and 10 feet (or longer) of flexible power cables to couple the furnace to the transformer

Our fiber drawing furnace, coupled with Thermal Technology’s Gas Purification and Oxygen Analyzer will produce excellent element life in excess of 1000 hours.

Operating Gas

The fiber drawing furnace MUST be operated with an inert gas (helium, argon or an argon/helium mixture). The gas must be dry and oxygen-free -- less than 1 PPM water and oxygen. The use of Thermal Technology’s Gas Purification System (Model IGP) is recommended.

Recommended Accessories

  • Vacuum Pump
  • Gas Purification and Oxygen Analyzer
 
Model
Maximum
Preform Diameter
 
Power Supply
 
Height
 
Overall Diameter
HR - 80
10 – 30 mm
30 kVA
11”
18 “ (450 mm)
EHR – 85
20 – 41 mm
30 kVA
12”
18 “ (450 mm)
HR – 81
31 – 61 mm
30 kVA
16”
18 “ (450 mm)

Entry and Exit Ports

Top port is closed with a single sliding water-cooled door when there is no preform in the furnace. In open position, the door provides an opening of 2.5” (63mm). The bottom port is closed with dual sliding water-cooled doors with a minimum opening of 0.25” (6mm). Replaceable iris diaphragm assemblies are available as options for both the top and bottom ports. The irises have an adjustable range of 0.2” (5 mm) to 2.5” (63 mm).

Radial Ports

Two 1 ⅛” - 16 threaded ports are provided to view the center of the furnace hot zone. Both ports view the heating element through a 0.31” (8 mm) diameter sighting hole. One port is located 45° to the right of the front of the furnace, the other 90° to the left (135° apart).

A window is installed in the left port which views through the element. The right port views the exterior of the element for accurate temperature control using an optional radiation pyrometer. This port is plugged but will accept the standard window assembly.

Gas Ports

Ports with compression fittings for ¼” (6 mm) outside diameter tubing are provided for gas inlets and venting. All fittings extend toward the rear of the furnace and serve the following purposes:

  • Top gas curtain, inlet, with quick disconnect.
  • Bottom gas curtain, inlet, with quick disconnect.
  • Radial purge, inlet. This port admits inert gas into the thermal insulation area for purge prior to beginning furnace heat-up.
  • Radial pressure monitor. This port allows connection of a very low pressure gauge (1 inch water) to monitor interior pressure with respect to the exterior.

Vents

Gas inlets at top and bottom gas curtains flow to the center of the draw hot zone, exit this area radially, and flow outside the liner tubes to exit at the bottom of the furnace. An additional vent port is provided at the top to allow optional gas flow pattern from the bottom and exiting at the top.

Interior Access

All fiber drawing furnace maintenance can be accomplished without removing the fiber drawing furnace from the drawing tower, disconnecting any water-cooling lines or removing any radial windows or control instrumentation.

The bottom graphite liner is replaced by removing the fiber drawing furnace bottom door/gas screen assembly. The top graphite liner is similarly replaced by removing the top door/gas screen assembly. The heating element is replaced by additionally removing a top cover plate. The heating element is secured at the top to power electrodes using two taper clamps having four mounting screws each. By removing the top furnace head, the entire thermal insulation assembly can be lifted from the fiber drawing furnace as a one piece assembly. Power cables can remain connected for all operations described.

Interior Components

The fiber drawing furnace interior is free of ceramics and other possible contaminating materials. All components are solid, ultra-purified graphite having a typical ash content less than 20 ppm.

The fiber drawing furnace assembly is completely sealed with Viton O-rings. Optional end caps are available to allow vacuum purging prior to operation. These solid caps replace the top and bottom iris diaphragms for vacuum operation.

Power Supply

The furnace power supply and controls are enclosed in separate cabinets. A base mounting enclosure 24” wide x 28” deep x 45” high (610 mm x 730 mm x 1140 mm) contains the main power transformer and can be positioned on or near the drawing tower. Top exiting flexible power cables 10’ (3 m) long connect the furnace to the power transformer (longer cables optionally available). This enclosure also contains the following components:

  • SCR (thyristor) power regulator -- 240 V, 150 A, 1 phase, 0-5 V input
  • Furnace power contactor – 240 V, 150 Z, 2 pole
  • Control power step-down transformer – 1 kVA, 240 V/120 V
  • System fusing
  • Water distribution manifold and flow switches

Facility sources of operation power and cooling water are connected into this enclosure.

Furnace controls are enclosed in a separate bench mounting cabinet which is provided with standard 19” notched rack mounting extensions. Cabinet size is 17” wide x 14" deep x 10.5” high (430 mm x 355 mm x 267 mm).

The control cabinet contains:

  • Control power on-off switch
  • Furnace power on-off buttons
  • Operate/reset switch
  • Indicator lamps
  • Water flow warning lamp and alarm
  • Furnace power (transformer secondary) ammeter and voltmeter
  • Automatic temperature controller

The power supply range provided allows beginning operation at the higher currents and having voltage reserve available for operating as the heating element ages and its resistance increases. This allows continuous operation without the requirements to shut the system down to change transformer voltage taps.

A safety interlock with warning lamp, audible alarm, and operate/reset switch monitors cooling water flow and will shut the system off in case of insufficient flow for furnace cooling.

Control cabinet and power supply enclosure are connected with 16’ (5m) of cable.

Automatic Temperature Controller

Eurotherm Model 2404P4 (or equivalent) single channel, automatic temperature controller/ programmer. Up to 4 programs with 16 segments per program. Program can be linked to accommodate processes that require up to 320 segments. Includes a communications port (RS-232, RS-422 or RS-485). Mounted in the control console.

Temperature Sensor

Ircon (or equivalent) two-color optical pyrometer with optical head and mounting flange to mate with optical window. Temperature range 900-2400°C or 1500-3000°C.

Facility Requirements

Electric: The power supply is completely wired for operation from one source of single phase, 150 ampere power. Facility voltage required is 208/230 volts, 60 Hz or 220 volts, 50 Hz. Options for operation from 440/480 or 380 volts, single or 3 phase power are available at additional cost.

Water: Furnace cooling water is required at a minimum continuous rate of 4.0 gpm at 55 psid, 65-85°F (14 liters/minute at 380 kPa, 18-30°C). The water should be filtered if it contains sand or other solid matter.

Operating Gas: The furnace must be operated with an inert gas -- nitrogen or argon/helium. The gas must be dry and oxygen-free, less than 1 ppm H2O and O2. Use of Thermal Technology’s Gas Purification System is recommended.

fiber draw photo_500

Fiber Draw Furnace Model EHR 85

All specifications are subject to change. Final quotation will be the governing document in all cases.
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