[News & Trends]:Revealing the difference between meta benzene resin and ortho benzene resin

Iso benzene resin and ortho benzene resin are two common resin materials, which have significant differences in chemical structure and properties. This article will introduce these differences one by one to help you better understand them


Let's take a look at their chemical structure. The chemical structure of meta benzene resin is a single bond connection with only one oxygen atom between the two carbon atoms on the benzene ring, while the chemical structure of ortho benzene resin is a double bond connection with two oxygen atoms between the two carbon atoms on the benzene ring. This slight difference leads to differences in their physical properties and usage


These two resins also differ in performance. Benzene resin has excellent heat resistance and chemical resistance, and it can withstand the erosion of high temperature and corrosive substances. And ortho benzene resin is softer, with good plasticity and toughness. This makes it widely used in certain specific application areas such as plastic packaging and electronic component packaging


In addition, there are differences in physical properties between these two resins. Benzene resin is usually a colorless, transparent or slightly yellow solid with strong crystallinity. However, ortho benzene resin appears white or light yellow with poor visibility. This makes meta benzene resin more popular in applications that require transparency


Let's talk about their application areas. Due to its heat and chemical resistance, meta benzene resin is widely used in high-temperature fields, such as aerospace, automotive manufacturing, and electronic and electrical industries. Due to its flexibility and plasticity, ortho benzene resin has been widely used in plastic products, packaging materials, and artificial leather


In summary, there are certain differences between meta benzene resin and ortho benzene resin in terms of chemical structure, properties, physical properties, and application fields. Understanding these differences helps us make informed decisions when selecting suitable materials. I hope this article can provide you with some useful information. Thank you for reading