Errand Enterprises Pvt Ltd is a trusted Sales Channel Partner of Parker Hannifin, having world’s leading brand product offerings for the Oil & Gas, Water & Waste Water, Power, chemical, Pharmaceutical, Dairy product, fertilizer and other process industries. Errand with Parker provides innovative and customized engineering solutions based on regular feedback to ensure customer satisfaction. Both the organizations work with the eye for environment sustainability and cost effective solutions for their customers. Errand Enterprises as a face for the customer works on end user market and major projects through OEM’s viz Indian Oil Corporation limited, Gas Authority Of India Limited, Engineers India Limited, Megha Engineers, Naini Paper, HMEL, Kay Blowers, Sealmatic India Limited, Everest Blower and many others. Errand Enterprises Pvt Ltd supply of quality products together with excellent after sales service results in high customer retention and repetition of business for years.
Errand Enterprises Pvt Ltd supplies a range of high-quality O-rings in various materials, each chosen to meet specific application needs. The different material of O-rings is Perfluoroelastomer, Fluoroelastomer, Polytertrafluoroethylene, Ethylene Propylene Diene Monomer, Nitrile Butadiene Rubber, Neoprene, and Silicone.
Product Offering
- Perfluoroelastomer (FFKM) – It is highly fluorinated synthetic rubber with excellent chemical resistance, high temperature stability, and low permeability it maintain the elasticity under the temperature up to 327 degree Celsius. It is ideal for manufacturing, chemical processing, oil & gas and other Process industries.
- Fluoroelastomer [FKM] – It is a synthetic rubber with high resistance to heat, chemicals, and oils. The temperature resistance is up to 205 degree Celsius. The usage of FKM material ideal industries is chemical processing, oil & gas industry and where resistance to high aggressive chemicals is demanded.
- Ethylene Propylene Diene Monomer [EPDM] – Ethylene Propylene Diene Monomer is a type of synthetic rubber made primarily from ethylene, propylene and a diene component. It performs well across a wide temperature range, typically from -40 degree Celsius to 150 degree Celsius. EPDM’s low permeability makes it an ideal chemical, oil&gas and other process industries.
- Polytetrafluoroethylene (PTFE) – PTFE is a high-performance plastic material with non-stick properties, extreme chemical resistance, and the ability to withstand a wide range of temperatures from -200 degree Celsius to 260 degree Celsius. It is used in environments with extreme temperatures and chemical exposure such as in chemical processing, pharmaceutical applications and other process industry.
- Nitrile Butadiene Rubber (NBR) – It is known for its excellent resistance to oils and fuels. The nitrile applications involving petroleum based fluids. It works under -40 degree Celsius to 108 degree Celsius. Nitrile Rubber oring has good abrasion resistance.
- Neoprene (CR) – It is a versatile synthetic rubber with moderate resistance to oils, chemicals, and ozone. It performs under the temperature resistance of -40°C to 121°C. It is excellent resistance to weathering, ozone, and UV light. The Neoprene oring is highly usage in oil & gas industry, chemical industry and other process industry.
- Silicone – The silicone rubber is a synthetic elastomer with excellent thermal stability. It works under high to low temperature from the range of -60 degree Celsius to 230 degree Celsius. The applications of Silicone are in medical, pharmaceutical, and refineries where non-toxicity and wide temperature resistance are important.
Conclusion
O-rings for environmental sustainability are not only beneficial for the planet but also for businesses. By adopting eco-friendly o rings manufacturing practices, companies can reduce their environmental impact, achieve cost savings, and enhance their brand reputation. As the focus on sustainability continues to grow, innovation and optimization of o ring material will become increasingly important in achieving a balance between economic and environmental goals.