Nichrome Mesh Tray

Key Features:

1: made of USA/EU imported material

2: widely used for Electronic Parts Sintering Procedures

3: works for long time without deforming nor breaking ,up to 1250oC

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Product Description:

Nichrome Mesh Tray is widely used for Electronic Parts Sintering Procedures. The Nichrome mesh tray is made of USA/EU imported material and made with advanced technique. It can work for long time without deforming nor breaking in high temperature, as high as 1250oC.

Applications:
1: PTC Thermistor and NTC Thermistor sintering,
2: Electronic parts ceramic materials sintering,
3: Silver sintering,
4: Thick film circuit and semiconductor sintering
5: Ceramic capacitor
6: Chip resistance and chip sensor sintering
7: Piezoresistor
8: Li-ion battery anode and photovoltaic wafer sintering

We manufacture the nichrome mesh tray according to each customer’s requirements and also can provide technical support. The commonly used nichrome mesh tray models are showed in the images.

Nichrome Mesh Tray is made of nichrome alloys (the most popular one is Nichrome 80), they are able to withstand repeated stresses, vibration, chafing, corrosion and fluctuated temperatures. Nichrome mesh tray is ideal material for Electronic Parts Sintering processes because of the following advantages:
1: Anti-deformation ability in high temperature,
2: Thermal stability
3: shockproof performance in the hot state
4: oxidation resistance.

 Nichrome Alloy Properties:

Material Cr20Ni80 Cr30Ni70 Cr15Ni60 Cr20Ni35 Cr20Ni30
Component % Ni Remanent Remanent 55.061.0 34.037.0 30.034.0
Cr 20.023.0 28.031.0 15.018.0 18.021.0 18.021.0
Fe ≤1.0 ≤1.0 Remanent Remanent Remanent
Highest temperature 1200 1250 1150 1100 1100
Melting point 1400 1380 1390 1390 1390
Density g/cm3 8.4 8.1 8.2 7.9 7.9
Resistance ratio μΩ·m,20 1.09±0.05 1.18±0.05 1.11±0.05 1.04±0.05 1.04±0.05
Extend ratio % ≥20 ≥20 ≥20 ≥20 ≥20
Specific heat J/g. 0.44 0.461 0.494 0.5 0.5
coefficient of heat conductivity  KJ/m.h 60.3 45.2 45.2 43.8 43.8
Wire expand coefficient a×10-6/201000 18 17 17 19 19
Micro-organization Austenite Austenite Austenite Austenite Austenite
Magnetism Non-magnetism Non-magnetism Non-magnetism Non-magnetism Non-magnetism