Product Information
Zinc Dihexyldithiocarbomate
Zinc Dihexyldithiocarbamate (Ethyl Ziram) Supplier in Europe
Zinc Dihexyldithiocarbamate plays a crucial role in the manufacturing and chemical industries, primarily as an accelerator in rubber processing.
This compound is widely appreciated for its ability to speed up vulcanization, making it an essential component in producing durable rubber goods.
The efficiency it brings to the vulcanization process reduces production time and costs, benefiting manufacturers.
In addition to its role in rubber manufacturing, Zinc Dihexyldithiocarbamate provides effective protection against degradation.
It exhibits antioxidant properties, extending the lifespan of rubber materials by safeguarding them from heat and environmental stress.
Its reliability makes it a valued additive in ensuring quality and longevity.
While it offers clear industrial advantages, safety considerations are crucial.
Attention to proper handling and exposure limits is necessary to prevent potential health hazards.
Industry professionals prioritize these aspects to maintain safe working environments and mitigate risks associated with its use.
Chemical Properties
Zinc Dihexyldithiocarbamate is a chemical compound notable for its specific molecular arrangement and distinct physical traits. These properties play a crucial role in its applications and behavior in various environments.
Molecular Structure
Zinc Dihexyldithiocarbamate features zinc as a central element bonded with dithiocarbamate groups. The molecular formula is represented as C14H28N2S4Zn.
The compound consists of dithiocarbamate ligands, characterized by sulfur atoms, offering strong bonding with the zinc ion.
This structure contributes to its stability and resistance to thermal degradation.
Molecular interactions include van der Waals forces and electrostatic interactions, ensuring the compound’s effectiveness as a stabilizer and vulcanization accelerator.
The unique combination of zinc and dithiocarbamate groups enhances its chemical reactivity and functionality in specific industrial applications.
Physical Characteristics
This compound exhibits particular physical attributes such as being a solid at room temperature.
Its appearance is often in the form of a pale yellow or off-white powder, contributing to its identification in industrial settings.
Zinc Dihexyldithiocarbamate has a relatively high melting point indicative of stable intermolecular forces.
The compound is insoluble in water but demonstrates solubility in organic solvents like benzene, chloroform, and carbon disulfide.
Its density and molecular weight are critical for calculations in material preparations.
These attributes let it perform efficiently in polymer industries, particularly as an additive that enhances the mechanical properties of rubber products.
Applications
Zinc Dihexyldithiocarbamate exhibits significant utility in several sectors, prominently within the rubber industry and agricultural fields. These applications capitalize on its effectiveness as an accelerator and fungicide.
Rubber Industry Uses
In the rubber industry, Zinc Dihexyldithiocarbamate serves as a vulcanization accelerator.
It enhances the speed and efficiency of the rubber curing process, which is crucial for producing durable rubber products.
This compound is particularly effective at lower temperatures, making it valuable for specific manufacturing conditions.
In addition to speeding up the process, it helps improve the mechanical properties of rubber, ensuring higher resilience and elasticity.
The use of Zinc Dihexyldithiocarbamate contributes to the production of tires, hoses, and various molded goods by helping achieve desired physical properties and performance.
Agricultural Applications
In agriculture, Zinc Dihexyldithiocarbamate is utilized as a fungicide. Its function is to protect crops from fungal infections that can affect yield and quality.
It is often applied in the cultivation of fruits, vegetables, and ornamentals.
The fungicidal properties of Zinc Dihexyldithiocarbamate help control a wide range of fungal pathogens, contributing to healthier crop production.
Effective application rates ensure that crops are adequately protected while minimizing the risk of phytotoxicity.
This compound’s role in agriculture highlights its importance in maintaining crop health and supporting food supply sustainability.