High temperature phase change heat storage material
A heat storage material, high temperature phase change technology, applied in heat exchange materials, transportation and packaging, metal processing equipment, etc. Simple production process and high compressive strength
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Embodiment 1
[0035] The first step is to mix 40wt% of quartz sand powder, 30wt% of corundum powder, 15wt% of copper oxide, and 15wt% of zinc oxide in proportion according to the proportion, press molding at 100MPa, heat treatment at 900°C for 3 hours, crush and grind 1. Sieve to obtain sieve material A with particle size less than 0.088mm.
[0036] In the second step, mix 50wt% of sieve material A, 30wt% of carbon black, 10wt% of silicon powder, and 10wt% of aluminum oxalate according to the proportion, heat treatment at 200°C for 2 hours, grind and sieve to obtain a particle size smaller than Abrasive B of 0.045 mm.
[0037] In the third step, 20wt% corundum particles, 30wt% corundum powder, 20wt% abrasive B, 20wt% aluminum-silicon alloy, 5wt% silicon powder, 4wt% silicon carbide powder, 1wt% thermosetting phenolic resin Mix evenly according to the ratio, press and shape at 50 MPa, and heat-treat at 1000° C. for 2 hours to obtain the high-temperature phase-change heat storage material. ...
Embodiment 2
[0040] The first step is to mix 50wt% of quartz sand powder, 30wt% of corundum powder, 15wt% of copper oxide, and 5wt% of zinc oxide in proportion according to the proportion, press molding at 50MPa, place heat treatment at 1000°C for 2 hours, crush and grind 1. Sieve to obtain sieve material A with particle size less than 0.088mm.
[0041] In the second step, 60wt% of sieving material A, 20wt% of carbon black, 10wt% of silicon powder, and 10wt% of aluminum oxalate are mixed uniformly in proportion, placed in 150°C for heat treatment for 3 hours, ground and sieved to obtain a particle size smaller than Abrasive B of 0.045 mm.
[0042] In the third step, 30wt% corundum particles, 10wt% corundum powder, 10wt% abrasive B, 40wt% aluminum-silicon alloy, 4wt% silicon powder, 1wt% silicon carbide powder, 5wt% thermosetting phenolic resin Mix evenly according to the ratio, press and shape at 60 MPa, and heat treat at 1200° C. for 2 hours to obtain the high-temperature phase-change he...
Embodiment 3
[0045] The first step is to mix 60wt% of quartz sand powder, 10wt% of corundum powder, 15wt% of copper oxide, and 15wt% of zinc oxide in proportion according to the proportion, press molding at 70MPa, place heat treatment at 1000°C for 2 hours, crush and grind 1. Sieve to obtain sieve material A with particle size less than 0.088mm.
[0046] In the second step, mix 60wt% of sieve material A, 19wt% of carbon black, 1wt% of silicon powder, and 20wt% of aluminum oxalate in proportion, heat treatment at 250°C for 1 hour, grind and sieve to obtain a particle size smaller than Abrasive B of 0.045 mm.
[0047] In the third step, 40wt% corundum particles, 10wt% corundum powder, 10wt% abrasive B, 30wt% aluminum-silicon alloy, 1wt% silicon powder, 5wt% silicon carbide powder, 4wt% thermosetting phenolic resin Mix evenly according to the ratio, press and shape at 70 MPa, and heat-treat at 1000°C for 3 hours to obtain the high-temperature phase-change heat storage material.
[0048] The w...
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