Silicon conductive heating pads have revolutionized the pharmaceutical field, particularly in orthopedic
treatments. These advanced pads are designed to provide targeted therapy for patients suffering from joint pain.
When applied to the affected area, the pad initially delivers soothing heat to relax the muscles and alleviate
discomfort, creating a foundation for deeper therapeutic effects.
What makes these pads particularly effective is their ability to conduct electrical current through the silicone
rubber. Once the muscles are relaxed, a carefully controlled amount of current is introduced to enhance pain
relief and recovery.
Silicon Rubber Cap (Tiffin Cap)
Mr. Ujjwal Vig
This innovative product was developed for the defense unit to address a critical issue faced by soldiers
stationed in extreme cold regions, such as Taiwan, where temperatures drop to -10°C to -15°C.
Food storage in such harsh conditions is a significant challenge, prompting the defense unit to explore
long-lasting, flexible, and non-toxic solutions.
To meet this need, Raghuvanshi Rubber Industries developed a silicon rubber cap with excellent low glass
transition temperature, high flexibility, ozone resistance, and extended shelf life.
The project was accomplished with the support of LD College of Engineering faculty member Mr. Gnanu Bhaat
and student Ujjwal Vig (B.E.).
This solution has proven invaluable for the defense sector, enabling prolonged food storage in
low-temperature environments while maintaining safety due to the non-toxic properties of the silicon grade
used.
Our Latest Research -
Eco-Friendly Vulcanization: Enhancing PBR with ZnO-MgO Synergy
Raghuvanshi Rubber has achieved a breakthrough in reducing the environmental impact of polybutadiene rubber
(PBR) vulcanization.
Their latest research demonstrates that using magnesium oxide (MgO) as a co-activator with zinc oxide (ZnO)
significantly enhances
vulcanization efficiency while lowering ZnO levels.
The optimal blend of 3 phr MgO and 2 phr ZnO achieved superior crosslink density, tensile strength, and
reduced swelling. Additionally,
formulations with higher MgO content showed improved mechanical properties, making this approach a viable,
eco-friendly alternative
for high-performance elastomers, including tires. This innovation reinforces Raghuvanshi Rubber’s commitment
to sustainable, advanced
rubber technologies.
