The crystallization equipment material is an important selection criterion for crystal growth. It is necessary for the crystallization equipment material to have certain physical and chemical properties, performance and other characteristics.
The crystallization equipment material is required to have macroscopic properties such as strength, toughness, plasticity, weight, color, magnets and heat resistance. It is necessary that it is not affected by water, acid and alkali and other substances. The mechanical properties such as strength and toughness of the crystallization equipments should be strong and able to withstand the factors of pressure, vibration, shock and other extrusion, as well as smooth operation and maintenance.
In addition, the crystallization equipment material must have good thermal and electrical conductivity, as well as resistance to corrosion, oxidation and fatigue. Its chemical stability is also essential, as it must resist chemical erosion from the reagents and liquids used in the process. The crystallization equipment material should have good thermal shock resistance, which means it can withstand the shock of hot and cold temperatures, as well as high temperatures in the reaction zone.
Crystallization equipments should also have sufficient corrosion resistance, since they must withstand the corrosion effect of aggressive agents and acids used in the process. Finally, their dimensional stability should be good, meaning that they should remain almost unchanged in size and form during the operation of the crystallization equipments.
To summarize, in order to ensure the successful operation of crystallization equipments, the crystallization equipment material should be safe and reliable, resistant to damage by wear and tear, have good mechanical properties such as strength, toughness, plasticity and thermal and electrical conductivity, and have good thermal shock resistance and corrosion resistance. Moreover, their dimensional stability should be good to provide accurate results.
