Betec Inc.
Flame-retardant Material
Flame-retardant Material
In the context of the growing focus on sustainable green energy and achieving net zero carbon
emissions, renewable energy has emerged as a critical developmental objective for countries
worldwide over the next five decades. This shift has led to a significant increase in the use of
lithium batteries in energy storage systems and electric vehicles, contributing to environmental
protection and enhanced convenience. However, the frequent occurrence of thermal runaway
in lithium batteries poses underlying concerns.
Energy storage systems typically consist of multiple lithium battery modules connected in series
and parallel, allowing for flexible configuration based on capacity and charging requirements.
This modular setup enhances safety and enables compatibility with various power sources,
including solar and wind energy, facilitating connection to the grid. These systems store surplus
energy during peak production periods for later use during high-demand periods, such as
nighttime, effectively balancing power supply and demand. Currently, lithium batteries
dominate the field of electrochemical energy storage due to their high energy density and
compact size, despite potential safety risks such as explosion and combustion.
In the realm of transportation, electric vehicles (EVs) are poised to become the future standard.
EVs incorporate busbars that integrate signal and power transmission functions, streamlining
the electronic control system. Ensuring vehicle safety is paramount, necessitating the use of
specialized materials that offer enhanced insulation and safety features. Nytex has developed a proprietary plastic material that meets the highest fire protection standards set by UL. This
material effectively isolates and forms a protective layer in the event of a fire, mitigating heat
propagation and minimizing damage to life and property.
Flame-retardant Material
In the context of the growing focus on sustainable green energy and achieving net zero carbon emissions, renewable energy has emerged as a critical developmental objective for countries worldwide over the next five decades. This shift has led to a significant increase in the use of lithium batteries in energy storage systems and electric vehicles, contributing to environmental protection and enhanced convenience. However, the frequent occurrence of thermal runaway in lithium batteries poses underlying concerns.
Energy storage systems typically consist of multiple lithium battery modules connected in series and parallel, allowing for flexible configuration based on capacity and charging requirements. This modular setup enhances safety and enables compatibility with various power sources, including solar and wind energy, facilitating connection to the grid. These systems store surplus energy during peak production periods for later use during high-demand periods, such as nighttime, effectively balancing power supply and demand. Currently, lithium batteries dominate the field of electrochemical energy storage due to their high energy density and compact size, despite potential safety risks such as explosion and combustion.
In the realm of transportation, electric vehicles (EVs) are poised to become the future standard. EVs incorporate busbars that integrate signal and power transmission functions, streamlining the electronic control system. Ensuring vehicle safety is paramount, necessitating the use of specialized materials that offer enhanced insulation and safety features. Nytex has developed a proprietary plastic material that meets the highest fire protection standards set by UL. This material effectively isolates and forms a protective layer in the event of a fire, mitigating heat propagation and minimizing damage to life and property.
Advantages Of Flame-retardant Plastics
Nytex Material Advantage
Product Tree
|
KF Series 
|
|
Application Field
Product Use Case - Stationery Energy Storage Equipment
Applications - EV
Test Report
UL Card
Product Catalog
|
Categories |
Name |
Series |
|
New Electric Vehicles |
KF Series |
|
|
Energy storage System |
KF Series |
|
