Magnesia(mgo)crucibles can face up to the immoderate temperature as much as 2200°c and has brilliant resistance to chemical erosions and thermal surprise.       There is ideal for the melting of precious metals and super-alloys. They possess higher refractory (up to 2000℃ )compared to alumina

Magnesia(mgo)crucibles can resist the excessive temperature as much as 2200°c and has superb resistance to chemical erosions and thermal surprise.       There is ideal for the melting of precious metals and super-alloys. They possess higher refractory (up to 2000℃ )compared to alumina ceramics ,

Magnesia(mgo)crucibles can withstand the high temperature up to 2200°c and has superb resistance to chemical erosions and thermal surprise.       There is ideal for the melting of precious metals and super-alloys. They possess higher refractory (up to 2000℃ )compared to alumina ceramics , better

Magnesia(MgO)crucibles can withstand the high temperature up to 2200°C and has very good resistance to chemical erosions and thermal shock.       There is ideal for the melting of precious metals and super-alloys. They possess higher refractory (up to 2000℃ )compared to alumina ceramics , better

Magnesia(MgO)crucibles can withstand the high temperature up to 2200°C and has very good resistance to chemical erosions and thermal shock.         There is ideal for the melting of precious metals and super-alloys. They possess higher refractory (up to 2000℃ )compared to alumina ceramics , better