Gel filled heat pads. How do they work?
Discussion
Sodium acetate trihydrate crystals have a melting point of 58 °C. When they are heated to around 100 °C, and subsequently allowed to cool, the aqueous solution becomes supersaturated. This solution is capable of supercooling to room temperature without forming crystals. By clicking on a metal disc in the heating pad, a nucleation center is formed which causes the solution to crystallize into solid sodium acetate trihydrate again. The bond-forming process of crystallization is exothermic, hence heat is emitted.
knk said:
Sodium acetate trihydrate crystals have a melting point of 58 °C. When they are heated to around 100 °C, and subsequently allowed to cool, the aqueous solution becomes supersaturated. This solution is capable of supercooling to room temperature without forming crystals. By clicking on a metal disc in the heating pad, a nucleation center is formed which causes the solution to crystallize into solid sodium acetate trihydrate again. The bond-forming process of crystallization is exothermic, hence heat is emitted.
Don't listen to him.It's water in the pads, but made of special water molecules that hate thumbs. We'll call them "thumophobic" molecules.
When you squeeze the gel with your thumb and forefinger the thumbophobic water molecules fight like tracksuited single mothers in the Woolies sale to get away from the thumb.
As the water molecules rub against each other in the kerfuffle heat is created by the friction. This is what caused the pad to warm up.
When you boil them to get them ready for another go, the water molecules chill out in this small scale "hot bath" you have run for them, it gets them over the work they've done and they got to bed that night all ready to have another go tomorrow.
HTH.
Bedford Rascal said:
knk said:
Sodium acetate trihydrate crystals have a melting point of 58 °C. When they are heated to around 100 °C, and subsequently allowed to cool, the aqueous solution becomes supersaturated. This solution is capable of supercooling to room temperature without forming crystals. By clicking on a metal disc in the heating pad, a nucleation center is formed which causes the solution to crystallize into solid sodium acetate trihydrate again. The bond-forming process of crystallization is exothermic, hence heat is emitted.
Don't listen to him.It's water in the pads, but made of special water molecules that hate thumbs. We'll call them "thumophobic" molecules.
When you squeeze the gel with your thumb and forefinger the thumbophobic water molecules fight like tracksuited single mothers in the Woolies sale to get away from the thumb.
As the water molecules rub against each other in the kerfuffle heat is created by the friction. This is what caused the pad to warm up.
When you boil them to get them ready for another go, the water molecules chill out in this small scale "hot bath" you have run for them, it gets them over the work they've done and they got to bed that night all ready to have another go tomorrow.
Ha ha ha ha, i like that. And i bet my OH will believe me too.
HTH.
http://www.heatinaclick.com/Products/PocketsSize/t...
I bought three of these last week for a tenner. I was also wondering how they work, thanks for the info!
I bought three of these last week for a tenner. I was also wondering how they work, thanks for the info!
knk said:
Sodium acetate trihydrate crystals have a melting point of 58 °C. When they are heated to around 100 °C, and subsequently allowed to cool, the aqueous solution becomes supersaturated. This solution is capable of supercooling to room temperature without forming crystals. By clicking on a metal disc in the heating pad, a nucleation center is formed which causes the solution to crystallize into solid sodium acetate trihydrate again. The bond-forming process of crystallization is exothermic, hence heat is emitted.
I asked my son, he said " Exotheric reaction to create the heat, ENDothermic reaction to turn it back to the ready state " Apparently he's predicted A* in both Physics and Chemistry at GCSE so I left it at that.
Mr POD said:
knk said:
Sodium acetate trihydrate crystals have a melting point of 58 °C. When they are heated to around 100 °C, and subsequently allowed to cool, the aqueous solution becomes supersaturated. This solution is capable of supercooling to room temperature without forming crystals. By clicking on a metal disc in the heating pad, a nucleation center is formed which causes the solution to crystallize into solid sodium acetate trihydrate again. The bond-forming process of crystallization is exothermic, hence heat is emitted.
I asked my son, he said " Exotheric reaction to create the heat, ENDothermic reaction to turn it back to the ready state " Apparently he's predicted A* in both Physics and Chemistry at GCSE so I left it at that.
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