Element temperature 1500 ℃
Furnace temperature 1300 ℃
Current 150A
Surface loading 14.5W/cm2
2110
2384
2658
2933
3207
3481
3755
0.094
0.106
0.118
0.13
0.143
0.155
0.167
14.1
15.9
17.7
19.6
21.4
23.2
25
600
2148
2422
2696
2970
3244
3519
3793
0.095
0.108
0.12
0.132
0.144
0.156
0.169
14.3
16.1
18
19.8
21.6
23.5
25.3
650
2733
3008
3282
3556
3830
0.121
0.134
0.146
0.158
0.17
18.2
20.1
21.9
23.7
25.5
700
2771
3045
3319
3594
3868
0.123
0.135
0.148
0.16
0.172
18.5
20.3
22.1
24
25.8
Molybdenum disilicide heating elements represent a high-performance solution for industries requiring robust heat sources at elevated temperatures. Operating effectively at up to 1800°C (3272°F), these elements are perfect for applications in the ceramic, glass, and metallurgical sectors.
A key benefit of molybdenum disilicide heating elements is their remarkable oxidation resistance. At high temperatures, a protective layer of silica forms on the element, enhancing durability and longevity. This characteristic leads to lower maintenance needs and reduced downtime, making them a cost-effective choice for continuous production environments.
Additionally, these heating elements excel in providing excellent thermal conductivity. This ensures even heat distribution, minimizing the risk of hot spots, which can negatively affect product quality. Their ability to maintain stable temperatures contributes to enhanced energy efficiency, helping manufacturers reduce costs.
Molybdenum disilicide heating elements are available in a variety of configurations to suit different furnace designs, allowing for easy integration into both new and existing systems. Overall, these elements are essential for achieving high-quality results and operational efficiency in high-temperature industrial applications.
