Send Message
Home ProductsSic Heating Elements

5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters

I'm Online Chat Now

5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters

5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters
5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters 5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters 5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters

Large Image :  5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters

Product Details:
Place of Origin: CHINA
Brand Name: ZG
Certification: CE
Model Number: MS
Payment & Shipping Terms:
Minimum Order Quantity: 1 piece
Price: Negotiation
Packaging Details: Strong wooden box for global shipping
Delivery Time: 7-10 work days
Payment Terms: L/C, D/A, D/P, T/T, Western Union, MoneyGram
Supply Ability: 10000 pieces

5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters

Description
Material: Molybdenum Disilicide And Self-forming Glaze Of Silicide Dioxide Product Name: MoSi2 Heating Element
Dimension(l*w*h): Customized Application: Used Up To Furnace Temperature Of 1800℃
Highlight:

5.5g/Cm3 Density MoSi2 Heating Elements

,

5.5g/Cm3 Disilicide Molybdenum Heaters

,

MoSi2 Disilicide Molybdenum Heaters

 

Disilicide-molybdenum heaters

 

Disilicide-molybdenum heaters used in sintering of ferrites, technical ceramics and refractories; glass industry

Disilicide-molybdenum heaters (MoSi2) are designed for both continuous and periodic operation in a neutral medium, vacuum and oxidizing environment up to 1800°С.

 

One of the unique advantages of a disilicide-molybdenum heater is the formation a protective film of silicon dioxide on the surface, which prevents further oxidation of the heater material.

 

 

Physical Characteristics

 

Volume Density

Bending Strength

Vickers Hardness

Porosity

Water absorption

Heating Elongation Rate

5.5 g/cm3 15-25 kg/cm3 (HV)570kg/mm2 7.4% 1.2% 4%

 

Chemical Characteristics

MoSi2 heating element is used in the high temperature under oxidizing atmosphere. It will form the SiO2 film which can keep the element from being melted. During the oxidizing process, the SiO2 protecting film is formed again when the element continues to be used. The MoSi2 heating element must not be used in the temperature between 400C and 700C for a long time, otherwise the element will be cremated under the strong oxidizing function in the low temperature.

 

 

Also, disilicide-molybdenum heaters have the following advantages:

  • increase in resistance with increasing temperature, which provides faster heating;
  • constant resistance during the whole service life, which makes it easier to replace old heaters with new ones;
  • high load at high temperatures, which allows heating to a higher temperature on a small volume of the furnace.

 

Main applications:

  • sintering of ferrites, technical ceramics and refractories;
  • glass industry;
  • growing crystals etc.

 

5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters 05.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters 15.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters 2

 

 

Product info & Technical Data:

 

Model

TYPE U

5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters 3

 

TYPE W

5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters 4

TYPE L

5.5g/Cm3 Density MoSi2 Heating Elements Disilicide Molybdenum Heaters 5

 

Quality Products

  • Excellent High Temperature and Cycling Properties

  • Performance Consistency

  • Long Life

Fast Delivery

  • Express Orders can be Delivered in 2 to 3 Days
  • We work with you!

Low Discount Prices

  • Shop and Compare
  • Save up to 50% or Better!
  • Satisfaction Guaranteed
  • Your Complete Satisfaction is Very Important to Us!

 

Contact Details
HENAN ZG INDUSTRIAL PRODUCTS CO.,LTD

Contact Person: Daniel

Tel: 18003718225

Fax: 86-0371-6572-0196

Send your inquiry directly to us (0 / 3000)