Hebei Weimiao Biology Co., LTD 1
Location
  • Home
  • Exploring the Properties and Applications of Chemical Compound with CAS Number 392-85-8

ធ្នូ . 11, 2024 10:46 Back to list

Exploring the Properties and Applications of Chemical Compound with CAS Number 392-85-8



Understanding the Compound with CAS Number 392-85-8


Chemical compounds are essential to a multitude of industries, ranging from pharmaceuticals to agriculture, and understanding their properties, uses, and safety measures is crucial for their application. One such compound is identified by its CAS number 392-85-8, which corresponds to the chemical name 1,2-Benzenedicarboxylic acid, commonly known as phthalic acid. This article explores the characteristics, uses, and safety related to phthalic acid, as well as its importance in various fields.


Chemical Structure and Properties


Phthalic acid is an aromatic dicarboxylic acid composed of a benzene ring with two carboxylic acid (–COOH) groups. Its molecular formula is C8H6O4, and its molecular weight is approximately 166.13 g/mol. Phthalic acid appears as a white crystalline powder that is odorless and slightly soluble in water but soluble in organic solvents like alcohol and ether. The presence of two carboxyl groups allows for the formation of various chemical derivatives, which can interact with a range of other substances.


Industrial Applications


Phthalic acid is used primarily in the production of plasticizers, which are substances added to materials to increase their flexibility and workability. One of the most common plasticizers derived from phthalic acid is dioctyl phthalate (DOP), widely used in the manufacturing of polyvinyl chloride (PVC) products. Beyond plastic production, phthalic acid also serves as an important intermediate in the synthesis of dyes, pigments, and resins.


Understanding the Compound with CAS Number 392-85-8

Environmental and Health Concerns


china 392-85-8

china 392-85-8

While phthalic acid is useful in numerous applications, it is essential to consider its environmental and health implications. Research has indicated that certain phthalates, particularly those used as plasticizers, may have endocrine-disrupting properties and can pose risks to reproductive health. Consequently, regulatory agencies have established guidelines to limit the use of certain phthalates in consumer products, especially those intended for children.


Phthalic acid itself, when handled correctly, poses minimal risks to human health. However, exposure to high concentrations, as may occur in an industrial setting, can lead to skin and eye irritation. Therefore, standard safety protocols should be adhered to when working with or handling this chemical, including the use of personal protective equipment (PPE) and proper ventilation in the workplace.


Future Trends and Research


As the global landscape shifts toward sustainable practices, the chemical industry is also evolving. Researchers are actively investigating alternative substances and methods that could reduce reliance on traditional phthalic acid derivatives. Emerging bioplastics and biodegradable alternatives are gaining attention as potential replacements, promising to mitigate environmental pollution associated with conventional plastics.


Moreover, studies are ongoing to better understand the long-term effects of phthalic acid and its derivatives on human health and the environment. This research is crucial for developing safer chemical processes and identifying safer substitutes that do not compromise the quality and functionality of the products they are meant for.


Conclusion


Phthalic acid, represented by the CAS number 392-85-8, exemplifies the multifaceted roles that chemical compounds play in modern production and manufacturing processes. From its extensive use in plasticizers to its role in paints and coatings, phthalic acid is indispensable in various industries. However, it is vital to approach its application with caution, ensuring that safety measures are in place and that ongoing research continues to find safer, more sustainable alternatives. The balance between utility and safety remains fundamental as industries move toward more responsible practices in the 21st century.


Share
Next:

Latest news

If you are interested in our products, you can choose to leave your information here, and we will be in touch with you shortly.


Hit enter to search or ESC to close
kmKhmer
en_USEnglish afAfrikaans sqAlbanian amAmharic arArabic hyArmenian azAzerbaijani euBasque belBelarusian bn_BDBengali bs_BABosnian bg_BGBulgarian caCatalan cebCebuano zh_CNChina zh_TWChina (Taiwan) coCorsican hrCroatian cs_CZCzech da_DKDanish nl_NLDutch eoEsperanto etEstonian fiFinnish fr_FRFrench fyFrisian gl_ESGalician ka_GEGeorgian de_DEGerman elGreek guGujarati htHaitian Creole haHausa hawHawaiian he_ILHebrew hi_INHindi hmnMiao hu_HUHungarian is_ISIcelandic igIgbo id_IDIndonesian gaIrish it_ITItalian jaJapanese jvJavanese knKannada kkKazakh rwRwandese ko_KRKorean ckbKurdish kyKyrgyz loLao laLatin lvLatvian lt_LTLithuanian lbLuxembourgish mk_MKMacedonian mgMalgashi ms_MYMalay ml_INMalayalam mtMaltese miMaori mrMarathi mnMongolian my_MMMyanmar ne_NPNepali nb_NONorwegian nyNorwegian orOccitan psPashto fa_IRPersian pl_PLPolish pt_PTPortuguese pa_INPunjabi ro_RORomanian ru_RURussian smSamoan gdScottish Gaelic sr_RSSerbian stSesotho snShona sdSindhi si_LKSinhala sk_SKSlovak sl_SISlovenian soSomali es_ESSpanish suSundanese swSwahili sv_SESwedish tlTagalog tgTajik ta_INTamil tt_RUTatar teTelugu thThai tr_TRTurkish tkTurkmen ukUkrainian urUrdu ug_CNUighur uz_UZUzbek viVietnamese cyWelsh xhBantu yiYiddish yoYoruba zuZulu kmKhmer