Selection Guide related to Crosslinking / Curing / Vulcanizing Agents
Selection Guide
Select Curing / Vulcanizing Agents for Adhesives
The transformation of a liquid resin to a solid adhesive or sealant is achieved by the addition of chemically active compounds known as curing, cross-linking, or vulcanizing agents. They are substances that are added to a polymeric resin to assist the curing reaction and cross-linking to further increase the thermal stability and mechanical properties of the polymer.
But how cross-linking affects the mechanical strength of a sealant? What are there important factors that need to be considered for selecting the right curing additive for adhesives?
Explore the chemistry behind cross-linking in detail and learn the criterion of selecting the right curing...
Selection Guide
Additives & Polymers for High Temperature Structural Adhesives
With increasing high-end engineering applications, structural adhesives are now expected to be more and more proficient.
Materials that can withstand long term exposure to elevated temperatures while maintaining their mechanical properties are one of the most preferred choices of all times.
Master here, the key to optimizing your structural adhesive formulations for high-temperature applications. Learn the detailed knowledge about base polymer requirements, strategies to reduce stress, additives for better mechanical strength and more.
Selection Guide
Select Accelerators for Rubbers
Accelerators are added in small amounts to speed up the curing of adhesives by reducing the cure time and temperature of elastomers, particularly latex systems. Selection of an accelerator will depend on the specific vulcanizing system and curing properties.
Explore the classification of accelerators, the checklist to select the right accelerator based on the specific vulcanizing systems and curing properties. Review:
Classification of Accelerators for Rubbers
Selecting the Right Vulcanizing Agents
Checklist to Select an Accelerator
Selecting the Right Accelerator for Your System
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