Egzoset
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For example just using a refurbished Weller instant soldering gun (or clone) coupled to some cheap nichrome heater coil wrapped around an SiC Foam puck that conveniently tuens dim-red in seconds... At least those are heavy-duty.
Not sure what you’re making or why. Any pic or links to show what you are trying to do or share?For example just using a refurbished Weller instant soldering gun (or clone) coupled to some cheap nichrome heater coil wrapped around an SiC Foam puck that conveniently tuens dim-red in seconds... At least those are heavy-duty.
WTF is all i have to say
delete this member please mods
Which implies it can even get "excited" using an IH Driver, but i figure in the radio range instead. Unfortunately i couldn't find much hints about that special feature. This is more reading i checked:Electrical ConductivityDuocel® ceramic foam can be used in electrochemical processes that require low electrical and fluid flow resistance....This is attributable to the reticulated vitreous carbon core encapsulated within the ceramic that has high electrical conductivity.
Great for Pulse Heating applications i guess, since 1967!Thermal Conductivity
Silicon carbide (SiC) has high thermal conductivity. Because of the high surface area of Duocel® foam, heat transfer to/from fluids flowing through the foam is greatly accelerated.
Diamond Thermal Conductivity: 1000 ~ 2200 W/m•°K
Diamond Specific Heat Capacity: 509 J/Kg•°K
Silver Thermal Conductivity: 406 ~ 429 W/m•°K
Silver Specific Heat Capacity: 234 ~ 236 J/Kg•°K
Copper Thermal Conductivity: 385 ~ 397.48 W/m•°K
Copper Specific Heat Capacity: 385 J/Kg•°K
Gold Thermal Conductivity: 310 ~ 314 W/m•°K
Gold Specific Heat Capacity: 125.604 ~ 130 J/Kg•°K
Aluminum Thermal Conductivity: 205 ~ 247 W/m•°K
Aluminum Specific Heat Capacity: 887 ~ 921 J/Kg•°K
Bulk SiC Thermal Conductivity: 120 ~ 350 W/m•°K (5-fold drop in foam)
Bulk SiC Specific Heat Capacity: 750 J/Kg•°K
Zinc Thermal Conductivity: 100 ~ 116 W/m•°K
Zinc Specific Heat Capacity: 380 ~ 389 J/Kg•°K
Iron Thermal Conductivity: 79.5 ~ 94 W/m•°K
Iron Specific Heat Capacity: 462 J/Kg•°K
Nickel Thermal Conductivity: 67 ~ 106 W/m•°K
Nickel Specific Heat Capacity: 452 J/Kg•°K
Steel Thermal Conductivity: 45 ~ 50.2 W/m•°K
Steel Specific Heat Capacity: 460 ~ 468 J/Kg•°K
SS-430 Thermal Conductivity: 26.1 ~ 26.1 W/m•°K
SS-430 Specific Heat Capacity: 450 ~ 480 J/Kg•°K
SS-316 Thermal Conductivity: 13.53 W/m•°K
SS-316 Specific Heat Capacity: 468 ~ 470 J/Kg•°K
Ceramic Thermal Conductivity: 3.8 ~ 180 W/m•°K
Ceramic Specific Heat Capacity: 850 J/Kg•°K
Glass Thermal Conductivity: 0.8 ~ 1.05 W/m•°K
Glass Specific Heat Capacity: 792 J/Kg•°K
Liquid Water Thermal Conductivity: 0.6 W/m•°K @ 20 °C
Liquid Water Specific Heat Capacity: 4181 ~ 4186 J/Kg•°K
Air Thermal Conductivity: 0.024 ~ 0.03 W/m•°K
Air Specific Heat Capacity: 1.005 J/Kg•°K @ constant pressure (IsoBaric)
Air Specific Heat Capacity: 0.718 J/Kg•°K @ constant volume
Water Vapor Thermal Conductivity: 0.023 W/m•°K @ 20 °C
Water Vapor Specific Heat Capacity: 1966 J/Kg•°K
Not really making a revelation neither, lets just look at the evidence:Not really having a conversation here brother.