Monomer

VISIOMER® c-HMA

VISIOMER® c-HMA (Cyclohexl methacrylate) is a cycloaliphatic monomer with low viscosity. It is used as building block to formulate polymers with very good weathering and chemical resistance.

Product information

Type

Monomer

Sub type

Alkyl / aryl (meth)acrylate

Sustainability

VOC reduction

Markets

Technologies

Waterborne
Solventborne
Solventfree
High solids (solventborne)

Key facts

CAS no.: 101-43-9
Molecular weight: 168.2 g/mol
Glas transition temperature: 110 °C

Manufacturer

VISIOMER Logo
Recording: Ambient-temperature curing with sustainable VISIOMER® Terra CARMA
Course

Coatino Campus

Recording: Ambient-temperature curing with sustainable VISIOMER® Terra CARMA

Recorded Webinar: This webinar introduced Evonik Specialty Methacrylates' new oxidative crosslinker VISIOMER® Terra CARMA. 

VISIOMER® Terra CARMA combines ambient-temperature crosslinking with a high biobased content, offering a more sustainable solution for the coatings industry.

Recording: Improved Wet Adhesion and Scratch Resistance in Coatings with VISIOMER® MEEU Monomer
Course

Coatino Campus

Recording: Improved Wet Adhesion and Scratch Resistance in Coatings with VISIOMER® MEEU Monomer

Recorded Webinar: 

Insufficient wet adhesion has long been a difficult problem for paints, and finding functional adhesion monomers with high efficiency and easy synthesis is an effective shortcut to solve. In this webinar, you will learn about the use of Evonik’s wet adhesion monomer developed by introducing urea group into methacrylate. A small amount of VISIOMER® MEEU added to the emulsion synthesis process can significantly improve the adhesion and scratch resistance of architectural and industrial paints.

Sustainability @ Specialty Methacrylates - Creating possibilities for a sustainable world
Course

Coatino Campus

Sustainability @ Specialty Methacrylates - Creating possibilities for a sustainable world

We had outlined novel sustainable specialty methacrylates from Evonik´s Specialty Methacrylate product line and had given examples including solutions for ambient-temperature crosslinking and for the creation of stable core-shell polymers.                              

  • Biobased methacrylates as drop-in solutions for existing monomers & extended solutions creating new monomers with superior performance 

  • Methacrylate solutions beyond biobased

  • Creating positive effects for carbon footprint & handprint

Automotive Filler & Putties
Course

Coatino Campus

Automotive Filler & Putties

Automotive Refinish Coatings – Part II: Background, chemistry, and product recommendations for automotive refinish coatings in regarding to Filler & Putties.

Automotive Refinish Coatings
Course

Coatino Campus

Automotive Refinish Coatings

Automotive Refinish Coatings – Part I: A General Overview Background, chemistry, market requirements, and future of automotive refinish coatings are discussed.

You can find supplementary content, such as links or documents ready for download, in the “Resources” tab or on the right-hand side of this course page, just below the Tags.

Conference Paper: A defect is not an effect!
Course

Coatino Campus

Conference Paper: A defect is not an effect!

This webinar was organised by UL prospector in November 2021 and discusses the typical defects found in architectural coatings and offers product recommendations to solve these issues. 

ECS 2021: Protecting your walls – novel solutions for interior & exterior wall paints
Course

Coatino Campus

ECS 2021: Protecting your walls – novel solutions for interior & exterior wall paints

Wall paints are a very important application within Architectural Coatings - and renewing them is quite laborious. Optimizing the resistance to damage and wear leads to more economical and sustainable paint formulations, as it makes renovation of e.g. façades with the costly installation of scaffolding redundant. One particular headache for freshly painted façades can be the formation of so called snail trails causing an uneven appearance when there is high humidity or rain. New specialty fillers help to prevent these problems and allow to formulate very long-lasting beautiful films when formulated e.g. with optimized hydrophobing agents. For interior coatings, innovative fillers also play a major role for optimization of mechanical resistance e.g., burnish phenomena - in addition, the use of suitable surface-active agents facilitates the optimization of scuff and chemical resistance. Studies of film formation help to understand and optimize both interior and exterior formulations.

OEM global vehicle production
Course

Coatino Campus

OEM global vehicle production

Deep insight to global vehicle production and OEM market perspective.

Recording:  Beautify your Floor with Evonik Specialty Floor Coating Additives
Course

Coatino Campus

Recording: Beautify your Floor with Evonik Specialty Floor Coating Additives

Recorded Webinar: This webinar shows you how to enhance the beauty of  your floor with a range of coating additives from Evonik.

Recording: Designing Defect-Free Automotive Coatings
Course

Coatino Campus

Recording: Designing Defect-Free Automotive Coatings

Recorded Webinar: We discuss different defects generally happening in Automotive application layer wise and suggest our CAD additives to rectify those defects.

Recording: What CAN we do for can coatings?
Course

Coatino Campus

Recording: What CAN we do for can coatings?

Recorded Webinar: Discover our portfolio for can coating applications with a deep dive for specific effects, such as defoaming, matting, adhesion while meeting your regulatory needs.

Star Products and more:  Automotive OEM Coatings
Course

Coatino Campus

Star Products and more: Automotive OEM Coatings

Beside a basic introduction of automotive OEM coatings and certain coating layers, optimum products are recommended.

You can find supplementary content, such as links or documents ready for download, in the “Resources” tab or on the right-hand side of this course page, just below the Tags.