- 27
- Sep
Is the epoxy glass fiber rod toxic?
Is the epoxy glass fiber rod toxic?
Epoxy resins and epoxy resin adhesives are non-toxic, but due to the addition of solvents and other toxic substances in the preparation process, many epoxy resins are therefore “toxic”. In recent years, the domestic epoxy resin industry is adopting water-based modification to avoid Adding and other ways to maintain the “non-toxic” nature of epoxy resin. At present, most epoxy resin coatings are solvent-based coatings, which contain a large amount of volatile organic compounds (VOC), which are toxic and flammable, thus causing harm to the environment and human body.
Epoxy resin is generally used together with additives to obtain application value. Additives can be selected according to different purposes. Commonly used additives include the following categories: (1) curing agent; (2) modifier; (3) filler; (4) diluent; others.
Is the epoxy glass fiber rod toxic? Among them, the curing agent is a *additive. Whether it is used as an adhesive, coating, or castable, it must be added with a curing agent, otherwise the epoxy resin cannot be cured. Epoxy resins generally refer to organic polymer compounds containing two or more epoxy groups in the molecule. Except for a few, their relative molecular masses are not high. The molecular structure of epoxy resin is characterized by the active epoxy group in the molecular chain. The epoxy group can be located at the end, in the middle or in a cyclic structure of the molecular chain. Because the molecular structure contains active epoxy groups, they can undergo cross-linking reactions with various types of curing agents to form insoluble and infusible polymers with a three-way network structure.
The performance and characteristics of epoxy resin
1. Mefuta e fapaneng. Li-resin tse fapa-fapaneng, lisebelisoa tsa ho folisa le mekhoa ea ho fetola li ka ‘na tsa ikamahanya le litlhoko tsa likopo tse sa tšoaneng ka foromo,’ me moeli o ka ba ho tloha viscosity e tlase haholo ho isa ho lintho tse phahameng tse qhibilihisang.
2. Pheko e bonolo. Khetha mefuta e fapaneng ea mahlahana a fapaneng a folisang, sistimi ea epoxy resin e kanna ea phekoloa mochesong oa 0 ~ 180 ℃.
3. Khomaretsi e matla. Lihlopha tsa tlhaho tsa polar hydroxyl le li-ether bond lihlopheng tsa limolek’hule tsa li-epoxy resin li etsa hore e khomarele lintho tse fapaneng. Ho fokotseha ha epoxy resin ho tlase ha ho phekoloa, mme khatello ea kahare e hlahisoang e nyane, e thusang ho ntlafatsa matla a mamarello.
4. Low shrinkage. The reaction between the epoxy resin and the curing agent used is carried out by direct addition reaction or ring-opening polymerization reaction of epoxy groups in the resin molecule, and no water or other volatile by-products are released. Compared with unsaturated polyester resins and phenolic resins, they show very low shrinkage (less than 2%) during curing.
5. Mechanical properties. The cured epoxy resin system has excellent mechanical properties.
6, electrical performance. The cured epoxy resin system is an excellent insulating material with high dielectric properties, surface leakage resistance, and arc resistance.
7. Chemical stability. Generally, the cured epoxy resin system has excellent alkali resistance, acid resistance and solvent resistance. Like other properties of the cured epoxy system, the chemical stability also depends on the selected resin and curing agent. Appropriate selection of epoxy resin and curing agent can make it have special chemical stability.
8. Dimensional stability. The combination of many of the above properties gives the epoxy resin system outstanding dimensional stability and durability.
9, mold resistant. The cured epoxy resin system is resistant to most molds and can be used in harsh tropical conditions。