Perfect Usages with the TPS Insulated Glass

Because of its better ability to save energy, insulating glass is becoming more common in construction. A positive feedback loop is being created when energy-saving building standards and passive buildings are advocated and implemented, increasing demand for energy-saving features in insulating glass. Inert gases like argon and krypton are often used to fill the insulating glass. In the manufacture of windows and doors, warm edge spacer is progressively taking the role of standard aluminum spacer. Now what’s tps insulating glass?

In what way does TPS insulating glass work?

Thermoplastic Pacer is the acronym for TPS. For insulating glass, TPS is a novel kind of warm-edge system that uses butyl rubber and thermoplastic desiccant spacers that can totally replace standard aluminum spacers.

For a long period, TPS was a common technology. The technology was created and commercialized by the Kommerling Group, a German company. In 2010, China’s first tps insulating glass production line was developed in Dalian Huaying, introducing the country’s insulating glass warm edge technology into the worldwide market. In 1974, the first manufacturing line for TPS insulating glass was created.

TPS insulating glass is distinguished by a variety of special features

As a result, the IGU quality and stability are guaranteed by the use of elastic edge sealing. Thermal barrier of the glass edge is improved since TPS thermoplastic spacers do not include metal inserts. In order to minimize condensation, the inner and outer glass surfaces should have more evenly distributed surface temperatures.

  • In addition to the primary sealant, a secondary sealant of silicone or polysulfide may be used.
  • Automatic production, strict quality control, and increased longevity.

To understand why TPS insulating glass is the latest generation, let’s have a look at it

Insulate glass edges by using materials such as organic silicon gaskets or aluminum spacers, steel or stainless steel or other edge sealing methods such as these. Variations in the glass edge heat conduction may be traced back to the materials’ differing thermal conductivities. The table below shows the thermal conductivity of various materials that have been used in insulating glass throughout the years.

Aluminum IGU can’t match TPS when it comes to heat resistance. There’s a good chance it’ll increase the air temperature just next to the window while simultaneously lowering it. There is also less air convection in the interior, a more comfortable indoor climate, and less condensation on the glass edge, resulting in a cheaper window frame maintenance bill.

Low vapour and air transmission rates are achieved with the employment of a particular butyl rubber mixed desiccant in direct extrusion of TPS. As a result of this chemical link, the secondary silicon sealant is more stable and has a stronger bond with the IGU structure than it would be without the TPS.

Automated glass manufacturing

Using only computer-controlled equipment, the TPS insulating glass system is made. Automated systems can perform the whole process, from loading and handling the glass to removing the edge coating, washing, and drying it, and then installing the thermoplastic strip, filling it with argon, and bonding the glass, as well as applying the secondary sealant. Traditional aluminum insulating glass has poor corner sealing, which is fully eliminated with our new technology. TPS IGU of any form or size may be produced by the machine without any faults or inconsistencies due to human operation.