High Vacuum Furnace

LYL-16ZTL High-Temperature High Vacuum Furnace

DESCRIPTION:

Model No: LYL-16ZTL
Heating Rate: ≤0.1-40°C/min
Rated Voltage: 220V/380V
Chamber Size: Customizable
Design Temperature: 800°C-1800°C
Temperature Control Accuracy: ±1°C
Temperature Measuring Element: K (0-1300°C) / S(0-1600°C)/ B (0-1820°C)

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PRODUCT INTRODUCTION

Brief Introduction

The LYL-16ZTL series high-temperature high vacuum furnace is mainly applied to vacuum sintering, quenching and other thermal processes for cemented carbide, magnetic materials, ceramics and powder materials.

It is designed with reliable heat resistance and insulation properties to adapt to the high-temperature sintering processes of various materials. The optimized electrode structure effectively prevents water leakage of furnace electrodes under high temperature. In addition, the wearing parts of the heating system are convenient for maintenance and replacement.

Application

This equipment is widely used in universities, research institutes, and industrial and mining enterprises. It is an ideal device for experiments and production involving powders, electronics, metallurgy, pharmaceuticals, ceramics, sulfur, glass/new materials, chemicals, metal sintering, and metal heat treatment.

Structure Description

The carbon steel outer shell is welded by a certified pressure vessel factory, ensuring air-tight welds with no leaks from pores or cracks.
A double-layer furnace shell is constructed as required, sealed with O-ring silicone gaskets.
The furnace door seal utilizes a wire-cut flange with an embedded O-ring silicone gasket, secured by a handwheel.
The furnace chamber can be either square or cylindrical, with an optional electric door opening mechanism.
The furnace shell exterior features electrostatic spray painting for rust prevention, offering an aesthetically pleasing appearance.
The furnace chamber is made of alumina polycrystalline fiber, combining an attractive look with energy efficiency.
Well-known brand electrical components are employed to ensure safety and reliable performance.
Temperature control and measurement exclusively use:

Single Platinum-Rhodium (Type S) thermocouples for temperatures ≤1500°C;
Dual Platinum-Rhodium (Type B) thermocouples for temperatures ≤1800°C.

Vacuum System Description

The vacuum system is a diffusion pump unit: consisting of a diffusion pump + a rotary vane Roots vacuum pump. The pumping system comprises a high-vacuum diffusion pump, water-cooled baffle, rotary vane vacuum pump, electromagnetic vacuum valve with gas inlet, high-vacuum pneumatic gate valve (main valve), high-vacuum pneumatic gate valve for roughing, high-vacuum pneumatic gate valve (outlet valve), roughing line gas inlet valve, connecting pipelines, sealing rings, a compound vacuum gauge, and a power distribution cabinet.
This unit is not suitable for pumping gases corrosive to metals or chemically reactive with pump oil. It can serve as a high-vacuum acquisition device for high-tech applications such as vacuum smelting, vacuum sintering, vacuum heat treatment, vacuum coating, vacuum brazing, and space simulation experiments. Operating environment: temperature 5~40°C, relative humidity ≤85%, cooling water temperature 25°C ±5°C.
The achievable vacuum level is related to the pumping capacity of the vacuum pumps, the chamber's airtightness, and the outgassing from internal materials (furnace liner, experimental fixtures, heat sinks, etc.). This unit's ultimate pressure is 1×10⁻³ Pa, with an operating pressure of 1×10⁻² Pa. Pumping time is approximately 1 hour.
The diffusion pump cannot operate alone; a roughing pump must first lower the system pressure to the level required for diffusion pump start-up, typically ≤10 Pa.
A modern water-cooled baffle is installed at the diffusion pump inlet, effectively preventing oil vapor from the diffusion pump from back-streaming into the vacuum chamber and contaminating the experimental apparatus.
To prevent vacuum oil from the roughing pump from flowing back into the diffusion pump cavity upon pump shutdown, an electromagnetic valve is installed at the roughing pump inlet, automatically isolating the system piping when the pump stops.
All valves are pneumatically operated for ease of use.
A roughing bypass is included in the system. During initial pumping, gas is extracted directly by the roughing pump, bypassing the diffusion pump. This prevents contamination (moisture, volatiles, impurities) of the diffusion pump by the gas from the chamber. When the chamber pressure drops to 10 Pa, the roughing valve is closed, the baffle valve is opened, and the diffusion pump begins normal pumping of the chamber.

Qualifications & Honors

ISO 9001:2015 Quality Management System Certification
CE Certification (EU Conformity)
Luoyang City "Model Enterprise for Civilized and Honest Operation"
"Leading Brand in China's Electric Furnace Industry"
"AAA Enterprise for Quality, Service, and Creditworthiness"
Products can withstand testing by authoritative inspection institutions; third-party verification certificates can be provided upon request.

Main Functions & Features

Wide Temperature Range: 800°C - 1800°C (selectable)
High Vacuum Capability: Up to 10⁻³ Pa achievable (selectable)
Energy Efficient & Eco-friendly: Furnace chamber made of high-purity composite alumina/ceramic polycrystalline fiber; lightweight, low thermal mass, energy-saving, typically operating at half power on average.
Easy Maintenance & Time-Saving: Heating elements are high-quality resistance wire / silicon carbide (SiC) rods / molybdenum disilicide (MoSi₂) rods, featuring long lifespan and easy replacement.
Integrated Control: User-friendly operation with a more ergonomic design.
High Temperature Control Accuracy: High-quality controller with precision of ±1°C. Third-party test certificates for the controller are available.
Excellent Temperature Uniformity: Rational layout ensures a balanced temperature field with no dead zones in the chamber.
Intelligent Temperature Control: Adjustable heating rates and automatic operation.
Automatic Protection: Safeguards against over-temperature, over-voltage, and over-current.
Flexible Gas Control: Optional float or mass flow meters for manual or automatic gas flow control. Gas flow can also be shut off.
Wide Application Range: Suitable for experiments and production in universities, research institutes, and industrial enterprises involving powders, military industry, electronics, metallurgy, pharmaceuticals, ceramics, glass, machinery, new material development, special materials, refractory materials, building materials, chemicals, metal sintering, and metal heat treatment.
Double-Layer Shell with Air Insulation: (Chiller unit optional)
Aesthetic Exterior: Powder-coated casing with an elegant two-tone color scheme.
Excellent Reputation: Numerous satisfied customers.
Great Value & Service: Competitive cost-perfor

PRODUCT PARAMETERS

Main Technical Parameters

Item	Specification
Rated Voltage	220V/380V
Design Temperature	800℃, 1000℃, 1200℃, 1400℃, 1600℃, 1700℃, 1800℃
Heating Rate	≤0.1-40℃/min (adjustable)
Heating Element	High-quality imported resistance wire / High-quality U-type silicon carbide rod / High-quality U-type silicon molybdenum rod
Temperature Control Accuracy	±1℃
Vacuum Degree	-0.1MPa~6.7×10⁻³Pa (optional)
Flowmeter	Float flowmeter (mass flowmeter optional)
Control Mode	Intelligent control, PID regulation, intelligent microcomputer control, multi-segment programmable temperature control curve, no need for supervision (automatic heating, heat preservation, power off when door opens)
Temperature Measuring Element	K (0-1300℃) / S (0-1600℃) / B (0-1820℃)
Furnace Chamber Material	Ceramic polycrystalline fiber / Alumina fiber / Composite alumina fiber / High-purity composite alumina fiber / Imported fiber
Atmosphere	Permeable protective cooling gases such as nitrogen, argon, oxygen, carbon monoxide can be used. Option to close off atmosphere is also available.
Heat Dissipation Method	Double-layer shell, air insulation layer (water cooling system optional with chiller)
Surface Temperature Rise	≤30℃
Accessories as per model	2 heating rods, 2 rods, 1 crucible tongs, 1 pair of refractory gloves, 1 instruction manual, 1 certificate of conformity

Selection Guide

Model	Furnace Chamber Dimensions (DepthWidthHeight / Diameter*Height mm)	Power Supply Voltage (V)	Power (KW)	Temperature Control Accuracy
LYL-16ZTL-1	300 * 300 * 300/300 * 300	380	12	±1℃
LYL-16ZTL-2	500 * 500 * 500/500 * 500	380	25	±1℃
LYL-16ZTL-3	700 * 500 * 500/500 * 700	380	30	±1℃
LYL-16ZTL-4	800 * 500 * 500/500 * 800	380	40	±1℃
LYL-16ZTL-5	800 * 800 * 800/800 * 800	380	90	±1℃
LYL-16ZTL-6	1200 * 800 * 800/800 * 1200	380	100	±1℃
LYL-16ZTL-7	1000 * 1000 * 1000/1000 * 1000	380	120	±1℃
LYL-16ZTL-8	1500 * 1000 * 1000/1000 * 1500	380	150	±1℃
LYL-16ZTL-9	2000 * 1000 * 1000/1000 * 2000	380	180	±1℃
Temperature Class	800℃-1800℃ Optional
Customization	Non-standard models can be customized according to customer requirements, including chamber size, voltage, power, operating temperature, control system, etc.

STANDARD ACCESSORIES

Standard Accessories

Name		Picture	Quantity	Description
High-temperature Gloves			1 pair	Excellent comfort, keeps hands warm; Cut-resistant, abrasion-resistant, and heat-resistant (withstands contact with 350°C heat for 60 seconds, 100°C heat for 180 seconds). Durable.
Heating Elements	Silicon Carbide Rods		2 pieces	Silicon carbide elements, characterized by their high operating temperature, hardness, and brittleness, are ready for use after formation. For instance, silicon carbide rods and tubes, made from silicon carbide, can achieve a heating temperature of up to 1500°C under dry air conditions. Under vacuum conditions, the operating temperature ranges from 1000°C to 1200°C, while in a nitrogen atmosphere, the long-term use temperature reaches 1350°C.
Heating Elements	Silicon Molybdenum Rods		2 pieces	Silicon molybdenum rods, when heated to high temperatures in an oxidizing atmosphere, form a dense layer of quartz glass on the surface, protecting them from further oxidation. Therefore, silicon molybdenum rods exhibit high-temperature oxidation resistance. In an oxidizing atmosphere, they can reach temperatures up to 1800°C, making them suitable as heating elements for high-temperature furnaces in industries such as electronics, ceramics, magnetic materials, glass, metallurgy, and refractories.
Crucible Tongs			1 piece	1.A common chemical instrument typically used for handling crucibles. Generally made of stainless steel or other non-flammable, oxidation-resistant hard materials. 2.Clean crucible tongs must be used. 3.When using crucible tongs to pick up a hot crucible, the tips should be preheated first to prevent the crucible from cracking due to localized cooling. After use, the tongs should be placed on a table or asbestos mat with the tips facing upward. 4.After the experiment, crucible tongs should be cleaned, dried, and stored in the laboratory equipment cabinet. 5.Use the curved section for gripping crucibles; the tips are for other purposes. 6.Crucible tongs are not necessarily used exclusively with crucibles; they can also be used independently.

Optional Accessories List

Integrated Control	Touch Screen Instrument	Remote Auxiliary Module
Observation Window	Exhaust Hole and Chimney	Hot Air Fan
Crucible, Boat	Door Plug	Furnace Bottom Plate
Forced Draft	Thermocouple	Centralized Control Industrial Computer
Caster Wheel	Multi-point Temperature Measurement	Exhaust Gas Purification Device

Special Note

Item	Content
Factory Environment	1. Indoor use; 2. Ambient temperature range: ±5~45℃; 3. Relative humidity of surrounding environment does not exceed 85%; 4. No conductive dust, explosive gases, or gases that can severely damage metals and insulating materials around the furnace.
Safety Protection	1. When using the electric furnace for the first time or after long-term shutdown, baking is required; otherwise, it is easy to cause furnace cracking. 2. Keep clean regularly and check whether the furnace wiring is in good contact. 3. When using the electric furnace, the furnace temperature shall not exceed the rated temperature to avoid damaging the heating elements. It is forbidden to pour various flammable liquids and molten metals into the furnace. 4. During operation, generally below 300℃, the heating rate should not be too fast, because the furnace chamber is cold at the beginning of heating and needs to absorb a lot of heat.
Friendly Tips	1. To ensure the normal service life of the equipment, please do not run at the rated temperature for a long time. 2. Carefully check and verify the quantity of goods and accessories upon receipt to avoid inconvenience caused by missing or incorrect items. 3. To extend the service life of the instrument, we recommend a heating rate and cooling rate of 10℃/min. 4. The cooling rate should not exceed 5℃/min. 5. This furnace has no vacuum sealing structure, so flammable and explosive gases must not be introduced. 6. After this furnace has been used for a period of time, slight cracks may appear in the furnace chamber, which is a normal phenomenon and will not affect usage. At the same time, it can be repaired with alumina coating.

Item

Content

Factory Environment

1. Indoor use;

2. Ambient temperature range: ±5~45℃;

3. Relative humidity of surrounding environment does not exceed 85%;

4. No conductive dust, explosive gases, or gases that can severely damage metals and insulating materials around the furnace.

Safety Protection

1. When using the electric furnace for the first time or after long-term shutdown, baking is required; otherwise, it is easy to cause furnace cracking.

2. Keep clean regularly and check whether the furnace wiring is in good contact.

3. When using the electric furnace, the furnace temperature shall not exceed the rated temperature to avoid damaging the heating elements. It is forbidden to pour various flammable liquids and molten metals into the furnace.

4. During operation, generally below 300℃, the heating rate should not be too fast, because the furnace chamber is cold at the beginning of heating and needs to absorb a lot of heat.

Friendly Tips

1. To ensure the normal service life of the equipment, please do not run at the rated temperature for a long time.

2. Carefully check and verify the quantity of goods and accessories upon receipt to avoid inconvenience caused by missing or incorrect items.

3. To extend the service life of the instrument, we recommend a heating rate and cooling rate of 10℃/min.

4. The cooling rate should not exceed 5℃/min.

5. This furnace has no vacuum sealing structure, so flammable and explosive gases must not be introduced.

6. After this furnace has been used for a period of time, slight cracks may appear in the furnace chamber, which is a normal phenomenon and will not affect usage. At the same time, it can be repaired with alumina coating.

Common Faults & Trouble Shooting

Fault Phenomena	Fault Causes	Troubleshooting Methods
No power indication when turning on the control power switch	Control circuit issue, blown fuse, or no power supply	Check for short circuits, rectify, and replace the fuse
Voltage present but no current during equipment operation	Heating element broken	Replace the heating element
Instrument PV display shows the maximum temperature for the corresponding thermocouple type	Thermocouple short circuit	Replace the thermocouple
All power supplies normal but furnace does not heat up	Main control circuit damaged	Notify a qualified technician for repair