Dongguan City Betterly New Materials Co., Ltd.
Silicone Conductive Paste

Silicone Conductive Paste

This series is made of silver&carbon powder, resin, additives, and solvents with excellent conductivity, and has excellent conductivity. It has excellent adhesion on pet, PI, TPU, and other materials. BTL conductive paste is a kind of paste with certain conductivity after curing or drying. It can connect a variety of conductive materials together so that the connected materials form an electrical path. In the electronic industry, BTL conductive paste has become an indispensable new material. There are many kinds of conductive pastes, which can be divided into general conductive pastes and special conductive pastes from the perspective of application.

Conduction Principle of Conductive Paste

The BTL Conductive Paste is a high-performance, electrically conductive paste designed for various industrial applications. This conductive paste is made from a combination of silver particles, polymers, and other additives. It is designed to enable electrical pathways between surfaces that are difficult to connect. BTL Conductive Paste provides a superior level of conductivity, allowing for reliable and efficient connections.

The paste is composed of small particles of silver, which are suspended in a polymer matrix. The silver particles are distributed evenly throughout the paste, providing excellent electrical conductivity. The polymers act as a filler to ensure the paste is easy to apply and provides a smooth and uniform surface. The paste is also designed to reduce the potential for corrosion, improving the longevity of the electrical connections.

The paste can be applied to a variety of surfaces, including metals and plastics. It is easy to apply and can be used with a brush, roller, or spray gun. Once applied, the paste quickly dries, forming a strong bond between the surfaces. This bond provides excellent electrical conductivity and is resistant to heat, vibration, and electrical loads.

BTL Conductive Paste is an ideal solution for creating reliable electrical connections in industrial applications. It is easy to apply and provides superior electrical conductivity. The high temperature conductive paste and conductive paste for electronics are also resistant to corrosion and can withstand a wide range of temperatures and electrical loads. This makes it an excellent choice for creating electrical connections in difficult environments.

Applications of Conductive Paste

The conductive paste is a type of material used in a variety of applications across many industries. BTL is a leading brand in the manufacture and supply of conductive paste. It is commonly used in the semiconductor and optoelectronic industries for die attach and thermal management, as well as for chip-on-board assembly, LED lighting, and displays. It is also used in automotive, industrial, and medical applications.

BTL’s conductive paste is a silver-filled, electrically conductive, silicone-based material that is used to attach components to a substrate. It has a high thermal conductivity and is able to dissipate heat from components quickly. It is also very flexible, allowing it to conform to component shapes and adhere to complex surfaces. It is resistant to corrosion, humidity, and aging, and can be used in a wide temperature range.

BTL’s electrical contact paste can be used in applications such as photovoltaic cells, integrated circuit packaging, chip-on-board assembly, and automotive electronics. It is also frequently used in applications that require thermal management, such as LED lighting, displays, and power supplies. It is also used in the medical industry for device assembly, and in the industrial industry for thermal management and die attachment.

The conductive paste from BTL is a reliable, durable, and easy-to-use material that can be used in a variety of applications. It has excellent thermal and electrical properties and is able to adhere to complex surfaces. It is also corrosion and aging-resistant and can be used in a wide temperature range.