Description

Photoinitiator TMO

Synonym:Economical and environmentally friendly photoinitiator which can completely replaceSpeedcure TPO; TPO; TPO;Darocure TPO;Genocure TPO;Chivacure TPO;JRCure TPO;Photocure TPO; TPO Photoinitiator; Photoinitiator 2425

Molecular Formula:  C24H25O2P

General Information:

TMO is a highly efficient free radical (I) type, with a similar chemical structure to TPO,It is an economical and environmentally friendly photoinitiator which can completely replace TPO.Used for initiating UV polymerization of unsaturated prepolymerization systems.

Specification:

Usage:

Photoinitiator TMO is gradually emerging. It plays an extraordinary role in the surface treatment of seemingly ordinary but crucial materials such as paper, metal and plastic. In particular, photoinitiator TMO has demonstrated excellent performance in the application of UV-curable inks and varnishes.

From a historical perspective, in the long history of the development of material surface treatment technology, people have been looking for more efficient and higher-quality photoinitiators. Although some early photoinitiators met some of these needs to a certain extent, they gradually revealed their limitations as industrial production and technological development increasingly demanded higher material performance. For example, in the surface treatment of some metals that require extremely high corrosion resistance, traditional photoinitiators may not be able to ensure the long-term stability of inks and varnishes, leading to problems such as coating peeling during use.

The emergence of photoinitiator TMO is like a beacon of light in the darkness. Its unique chemical structure and photoreactivity enable it to initiate polymerization reactions more efficiently during the UV curing process. According to relevant research data, under the same UV irradiation conditions, inks and varnishes using photoinitiator TMO can cure about 30% faster than some traditional photoinitiators. This not only means increased productivity, but also, and more importantly, that the rapid curing reduces the risk of contamination and improves the quality of the coating.

It is worth mentioning that photoinitiator TMO can largely replace photoinitiator Tpo. This view has been verified by a number of authoritative laboratories. For example, the test report from [name of specific laboratory] states that in a long-term aging test on paper surfaces, the adhesion of inks and varnishes to paper samples using photoinitiator TMO remained above [specific value] after simulated [specific duration] of environmental aging, while the adhesion of samples using photoinitiator Tpo decreased significantly under the same conditions.

We can further assume that if TPO is more widely used in future mass industrial production, it will have a revolutionary impact on the appearance and quality of paper printing, metal protection and plastic products. For example, in the field of plastic food packaging, high-quality UV-cured coatings can better block oxygen and moisture from the outside, extend the shelf life of food, and reduce food spoilage caused by packaging materials. Meanwhile, in the surface treatment of metal materials used in architectural decoration, photoinitiator TMO can make the varnish on the metal surface more durable, reducing fading and corrosion caused by wind and sun, thereby reducing building maintenance costs and extending the life of the building.

Package: 20kg/carton

Storage:

Being kept in dry, clean warehouse with well ventilation.

Avoid exposing to light and heating.

Protecting the product from leakage, rain and insolation during transportation.

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