XN-TG1600-L60CB1W single-zone 1600°C laboratory tube furnace with LCD touch screen, MoSi₂ heating elements, alumina tube and B-type thermocouple for CVD experiments, vacuum sintering and battery material preparation

Single-Zone Tube Furnace XN-TG1600-L60CB1W – 1600 °C, LCD Touch Screen, MoSi₂ Heating, Alumina Tube, ±1 °C Accuracy | Xnergy

Single-Zone Tube Furnace XN-TG1600-L60CB1W — high-temperature laboratory tube furnace with LCD touch screen display. Maximum temperature 1600 °C, working temperature ≤ 1500 °C, ±1 °C temperature accuracy, suggested heating rate 0–10 °C/min, 30-step programmable PID control via SCR power control. Built with MoSi₂ heating elements, alumina tube (OD 60 mm, customizable), B-type thermocouple, single 300 mm heating zone (customizable), and stainless steel vacuum flange with valve. Widely used for CVD experiments at ~1600 °C, vacuum sintering, atmosphere-protected sintering, nano-phase material preparation, and battery material research. Power supply configurable per local electrical standards. One-year limited warranty (consumable parts such as heating elements and alumina tube not covered).

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Name: Single-Zone Tube Furnace XN-TG1600-L60CB1W

Equipment Type: Laboratory LCD Touch Screen 1600 °C Single-Zone Tube Furnace with 30-Step Programmable PID Control

Product Code: XN-TG1600-L60CB1W

Product Introduction:

The LCD Touch Screen Single-Zone Tube Furnace XN-TG1600-L60CB1W is part of Xnergy’s 1600 °C tube furnace series, widely used for heat treatment experiments in universities, research institutes, industrial and mining enterprises, and other facilities. The XN-TG1600 series utilizes an intelligent programmable temperature control system with phase-shift triggering, thyristor (SCR) power control, and a 30-step programmable PID controller for precise temperature control. Furnace tubes are available in a variety of materials — including heat-resistant alloys, quartz, and alumina — to accommodate diverse experimental and production needs. The XN-TG1600 series offers safety, reliability, ease of operation, high temperature control accuracy, excellent furnace temperature uniformity, customizable temperature zones, and optional atmosphere and vacuum configurations.

Applications:

The XN-TG1600-L60CB1W is widely used for a variety of reaction temperatures at approximately 1600 °C, including:

  • CVD experiments — chemical vapor deposition experiments at high temperature
  • Vacuum sintering — high-temperature sintering under vacuum conditions
  • Atmosphere-protected sintering — sintering under controlled atmosphere
  • Nano-phase materials preparation — synthesis and processing of nano-phase materials
  • Battery materials preparation — high-temperature processing of cathode and other battery materials
  • Material synthesis and sintering — research and development of new materials including nanomaterials, superconducting materials, ceramics, and composite materials
  • Metal heat treatment — annealing, quenching, and other heat treatments of metals and alloys

Technical Parameters:

Parameter Value
Model XN-TG1600-L60CB1W
Display LCD Touch Screen
Maximum Temperature 1600 °C
Working Temperature ≤ 1500 °C
Heating Rate Suggested 0 – 10 °C/min
Tube Material Alumina tube
Tube Size OD 60 mm (customizable according to customer needs)
Temperature Zone Single zone 300 mm (customizable according to customer needs)
Heating Element MoSi₂ (molybdenum disilicide)
Thermocouple B type
Temperature Control Accuracy ±1 °C
Temperature Control Method PID automatic control via SCR power control
Heating Curves 30-step programmable
Vacuum Flange Stainless steel vacuum flange with valve
Power Supply Configurable according to local electrical standards
Warranty One-year limited warranty (consumable parts such as heating elements and alumina tube are not covered)

Values measured by Xnergy. Typical values for reference; not guaranteed unless otherwise specified.

Customization Options:

The XN-TG1600 platform supports broad customization to match specific research requirements:

  • Tube outer diameter — OD 60 mm standard; other diameters customizable upon request
  • Heating zone length — 300 mm standard; other lengths customizable upon request
  • Number of temperature zones — single-zone standard; multi-zone (e.g., dual-zone) configurations available
  • Tube material — alumina standard; heat-resistant alloy or quartz also available subject to working temperature limits
  • Optional accessories — vacuum system, gas flow meter, atmosphere control, computer interface, remote control

Contact our team for the customization configuration matched to your specific application requirements.

Recommended Operating Procedure:

1. Verify all electrical, gas, and vacuum connections (if applicable) are properly installed before powering on the XN-TG1600-L60CB1W. 2. Power on the furnace; the LCD touch screen interface will display the operating status. Verify that the B-type thermocouple, temperature display, and over-temperature protection are operating normally. 3. Place the sample in a suitable high-temperature crucible or sample holder, then insert into the alumina tube within the 300 mm heating zone. 4. Close and seal the stainless steel vacuum flange. If operating under vacuum or controlled atmosphere, evacuate the tube and/or introduce the working gas as required. 5. On the LCD touch screen, program the target temperature profile (up to 30 steps), including heating rate (suggested 0–10 °C/min), hold temperatures (up to 1500 °C working / 1600 °C maximum), hold times, and cooling rate. 6. Initiate the program; the PID controller with SCR power control manages the temperature profile with ±1 °C accuracy. 7. Monitor the furnace temperature and process via the LCD touch screen display. 8. After the program completes, allow the furnace to cool to a safe temperature before opening the furnace door or vacuum flange and removing the sample. The alumina tube and sample remain very hot for an extended period after the program completes. 9. After the run, clean the furnace chamber and alumina tube as appropriate; periodically inspect MoSi₂ heating elements and alumina tube for wear (these are consumable parts not covered by warranty).

Packaging & Storage:

The XN-TG1600-L60CB1W ships fully assembled with the alumina tube (OD 60 mm standard, customizable), MoSi₂ heating elements, B-type thermocouple, 30-step programmable PID controller with LCD touch screen, SCR power control, stainless steel vacuum flange with valve, furnace shell, and any selected optional accessories. Install on a stable laboratory floor or workstation in a clean, dry environment, away from corrosive atmospheres, with adequate clearance for the heating elements and operator access. Disconnect the power supply when the equipment is not in active use. Inspect the MoSi₂ heating elements, alumina tube, B-type thermocouple, sealing flange, and PID controller periodically for wear, contamination, or signs of degradation. MoSi₂ heating elements and the alumina tube are consumable parts and not covered by the one-year limited warranty.

Safety:

For research and industrial laboratory use only. Do not exceed the maximum temperature (1600 °C) or sustain operation above the working temperature (1500 °C) for extended periods — exceeding these limits may damage the MoSi₂ heating elements, alumina tube, and furnace chamber. Always wear appropriate PPE (safety glasses, high-temperature gloves, lab coat) when loading or unloading samples, especially while the furnace is still hot. Allow the furnace to cool to a safe handling temperature before opening the furnace door — surface temperatures up to 1600 °C and post-run residual heat can cause severe burns. When operating with controlled atmosphere or vacuum, follow standard laboratory protocols for inert gas handling and vacuum-system operation. When processing samples that may release toxic, corrosive, or reactive byproducts, exhaust the furnace tube outlet to a fume hood or scrubber. MoSi₂ heating elements are brittle and temperature-sensitive; handle with care during installation, removal, or replacement to prevent fracture, and avoid rapid thermal cycling that could shorten element service life. Refer to the included user manual for complete safety and operating instructions.

Note: Specifications listed above are typical and for reference only. Actual performance depends on the specific sample material, atmosphere, heating profile, and ambient operating conditions — consult published literature and our technical team for guidance on specific high-temperature tube furnace heat-treatment and CVD protocols. The XN-TG1600 platform supports broad customization (tube diameter, heating zone length, number of zones, optional accessories) to match specific research requirements. For researchers exploring related laboratory heat-treatment equipment, see also Xnergy’s related products: Single-Zone Tube Furnace XN-T1200 (1200 °C version) and the full Sintering Furnaces category, Drying equipment category, and Coating equipment category. For complete electrode formulation systems, see also Cathode Materials, Anode Materials, Binders, and Current Collectors.

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