Nitrogen Hafnium Carbide

In 2017, computations by Axel van de Walle show Nitrogen Hafnium Carbide HfN0.38C0.51 would have a melting point of more than 4400 K (7460°F), which is approximately 2/3 the temperature of the sun and 200k200 K higher than the highest recorded experimental melting point of a material. The work was performed on National Science Foundation's XSEDE computer network and Brown University "Oscar" high-performance computer cluster.

In 2017, computations by Axel van de Walle show Nitrogen Hafnium Carbide HfN0.38C0.51 would have a melting pointmelting point of more than 4400 K (7460°F), which is approximately 2/3 the temperature of the sun and 200k higher than the highest recorded experimental melting point of a material. The work was performed on National Science Foundation's XSEDE computer network and Brown University "Oscar" high-performance computer cluster.

In 2017, computations by Axel van de Walle show Nitrogen Hafnium Carbide HfN0.38C0.51 would have a melting point of more than 4400 K (7460°F), which is approximately 2/3 the temperature of the sun and 200k higher than the highest recorded experimental melting point of a material. The work was performed on National Science Foundation's XSEDE computer network and Brown University "Oscar" high-performance computer clustercomputer cluster.

In 2017, computations by Axel van de Walle show Nitrogen Hafnium Carbide HfN0.38C0.51 would have a melting point of more than 4400 K (7460°F), which is approximately 2/3 the temperature of the sun and 200k higher than the highest recorded experimental melting point of a material. The work was performed on National Science Foundation'National Science Foundation's XSEDE computer network and Brown University "Oscar" high-performance computer cluster.

In 2017, computations by Axel van de Walle show Nitrogen Hafnium Carbide HfN0.38C0.51 would have a melting point of more than 4400 K (7460°F), which is approximately 2/3 the temperature of the sun and 200k higher than the highest recorded experimental melting point of a material. The work was performed on National Science Foundation's XSEDE computer network and Brown UniversityBrown University's "Oscar" high-performance computer cluster.

In 2017, computations by Axel van de Walle show Nitrogen Hafnium Carbide HfN0.38C0.51 would have a melting point of more than 4400 K (7460°F), which is approximately 2/3 the temperaturetemperature of the sun and 200k higher than the highest recorded experimental melting point of a material. The work was performed on National Science Foundation's XSEDE computer network and Brown University's "Oscar" high-performance computer cluster.

In 2017, computations by Axel van de Walle show Nitrogen Hafnium Carbide HfN0.38C0.51 would have a melting point of more than 4400 K (7460°F), which is approximately 2/3 the temperaturetemperature of the sun and 200k higher than the highest recorded experimental melting point of a material. The work was performed on National Science Foundation's XSEDE computer network and Brown University's "Oscar" high-performance computer cluster.

In 2017, computations by Axel van de Walle show Nitrogen Hafnium Carbide HfN0.38C0.51 would have a melting point of more than 4400 K (7460°F), which is approximately 2/3 the temperature of the sun and 200k higher than the highest recorded experimental melting point of a material. The work was performed on National Science Foundation's XSEDE computer network and Brown University's "Oscar" high-performance computer cluster.