• Lifting Debinding Sintering Furnace
  • Lifting Debinding Sintering Furnace
  • Lifting Debinding Sintering Furnace
  • Lifting Debinding Sintering Furnace
  • Lifting Debinding Sintering Furnace
  • Lifting Debinding Sintering Furnace

Lifting Debinding Sintering Furnace

Features a vertical lift structure for convenient loading and uniform temperature distribution. Supports precise control over debinding and sintering cycles.

  • CE/ISO Certification
  • Lifting Structure for Easy Loading and Unloading
  • Integrated Process Saves Space and Time
  • Efficient Debinding with Minimal Residue

Introduction

The lifting sintering electric furnace is very convenient to load and unload. Its heating elements are evenly distributed around the furnace and the heating temperature is uniform. The temperature can reach 1750℃. The material table is located under the electric furnace and can automatically lift and lower the material table. The material table can also be made into a trolley type with electric in and out for easy loading and unloading of materials.

Lift-type electric furnaces have a wide range of applications and are suitable for chemical analysis, physical measurement research, and small-batch production in industrial and mining enterprises, scientific research units, and university laboratories. It has been widely used in the research and small batch production of battery materials, electronic ceramics, magnetic materials, non-ferrous metals, chemical raw materials, and other products. It is also suitable for sapphire wafer annealing and zirconium oxide sensor heat treatment.

lifting-debinding-sintering-furnacedebinding-and-sintering-furnace-details

Features

  • Working temperature RT~1700℃.
  • The loading capacity is large, the furnace bottom opens, and the furnace body can be pulled out for loading and unloading. It is easy to operate and has high production efficiency. It is especially suitable for high-temperature sintering and heat treatment of small and medium-sized workpieces.
  • Heated on all sides, the furnace temperature uniformity is excellent (<±5℃).
  • The furnace materials are all made of vacuum-formed high-purity alumina fiber materials, which have a high operating temperature, small heat storage, resistance to rapid heating and cooling, no cracks, no slag falling, and good thermal insulation performance (the energy-saving effect is 1.6 times higher than that of the old electric furnace).
  • The temperature control system adopts industrial precision 0.2-level intelligent instruments, PID adjustment, and a 50-segment programmable heating curve.
  • The human-machine interface adopts a high-definition touchscreen and has a built-in operating system developed by our company.
  • PLC automatic control system.
  • It can be configured with two rail-type trolleys and used alternately, which greatly improves production efficiency.

Optional Accessories

  • RS232/RS485 software
  • Silicon carbide/corundum backing plate
  • Air intake/exhaust holes
  • Air preheating system, exhaust gas cracking system

Structure

Heating elements:

Choose different heating elements according to the furnace temperature. Heating on all sides, the furnace temperature uniformity is extremely excellent (<±5℃). The heating elements are divided into: resistance wire, resistance band, silicon carbon rod, silicon molybdenum rod, and molybdenum wire.

Inner tank material:

The furnace is made of vacuum-formed high-purity alumina fiber material, which has strong thermal shock resistance, good corrosion resistance, no collapse, no crystallization, no slag, and long service life.

Atmosphere control system:

Including gas flow meters, imported pneumatic valves, atmosphere analyzers and other equipment, which can achieve precise control and detection of atmosphere.

Sealing system:

Including door seals and sealing strips, high-strength silicone sealing materials are used to maintain the sealing of the furnace body and reduce heat loss and external interference.

Protection device:

independent over-temperature protection, over-voltage, over-current, leakage, short-circuit and other protections, with a high degree of automation and various indicators reaching the highest level.

Technical Parameters

1700 type lifting sintering furnace parameters

model

Maximum temperature (℃)

Working temperature (℃)

Inner dimensions (width*height*depth) ( mm )

Volume (L)

Power ( kW )

Phase

Heating element

Thermocouple type

BR-17BL-8

1700

1600

200*200*200

8

6

1

Silicon molybdenum rod

Type B

BR-17BL-12

1700

1600

200*200*300

12

8

1

BR-17BL-27

1700

1600

300*300*300

27

12

3

BR-17BL-36

1700

1600

300*300*400

36

15

3

BR-17BL-64

1700

1600

400*400*400

64

20

3

1750 type lifting sintering furnace parameters

model

Maximum temperature (℃)

Working temperature (℃)

Inner dimensions (width*height*depth) ( mm )

Volume (L)

Power ( kW )

Phase

Heating element

Thermocouple type

BR-17HBL-8

1750

1650

200*200*200

8

6

1

Silicon molybdenum rod

Type B

BR-17HBL-12

1750

1650

200*200*300

12

8

1

BR-17HBL-27

1750

1650

300*300*300

27

12

3

BR-17HBL-36

1750

1650

300*300*400

36

15

3

BR-17HBL-64

1750

1650

400*400*400

64

20

3

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