Examples of 'crosslink density' in a sentence
Meaning of "crosslink density"
Crosslink density: A measure of the number of connections or links between polymer chains in a material, usually used in the context of polymer chemistry and material science
How to use "crosslink density" in a sentence
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crosslink density
The final controlling factor is crosslink density.
High crosslink density is described as necessary for good solvent resistance.
This is believed to be related to poor crosslink density.
It is believed that a higher crosslink density results in these improved properties.
The degree of cure may be expressed in terms of crosslink density.
Crosslink density of coatings.
An example of such property is crosslink density.
If the crosslink density is too high film formation will not be possible.
A one to one ratio leads to the highest crosslink density.
Higher crosslink density values indicate a higher degree of crosslinking in the coating.
The swell ratio is a measure of the average crosslink density.
Higher crosslink density valves indicate a higher degree of crosslinking in the coating.
This indicates an increase in the compound formulation crosslink density.
Crosslink density is measured using techniques such as dynamic mechanical thermal analysis.
An increase in molecular weight and crosslink density improves permanent set.
See also
These are compositions for crosslinked polyurethanes having maximum crosslink density.
A silicone rubber has a sufficiently high crosslink density and exhibits elasticity as a whole.
An increase in the glass transition of the rubber indicates an increase in crosslink density.
The crosslink density substantially affects the mechanical properties of these hydrogel materials.
Such resins provide only limited crosslink density upon cure.
However, high crosslink density leads to poor formability of coated films.
Glass transition temperature of the rubber increases with increasing crosslink density.
Such a multifunctional resin increases the crosslink density of the cured matrix resin.
The compressive modulus of hydrogels is directly proportional to the intermolecular crosslink density.
Divinyl benzene increases the crosslink density and therefore thermal performance of the composition.
Hardeners having three or more phenolic hydroxyls result in resins having higher crosslink density.
Higher levels of photoinitiator increase the crosslink density at the surface of the cured composition.
Such compositions result in a quick molecular weight build up and possibly a higher crosslink density.
The polyurethane prepared therefrom has a high crosslink density and good thermal stability.
Coatings containing melamine-formaldehyde crosslinkers have good hardness and high crosslink density.
This has a significant effect on the potential crosslink density that a polymer system can have.
Flexibility is a function of chain structure, crosslinked structure and crosslink density.
This is especially true as their crosslink density or Tg increases.
As the level of crosslinking increases, the mechanical properties change with the crosslink density.
Cured resins having a high crosslink density have had shortcomings, however.
Preferably the lowest amount of ZnO that will still give maximum crosslink density is used.
However, a further decrease in crosslink density detracts from the insolubilizability of the film.
Zinc Oxide has an effect on the crosslink density.
Such compositions having high crosslink density cure rapidly, even under ambient conditions.
It is believed that a key property influenced by crosslink density is the Tg.
As indicated below, the crosslink density will typically be greater than about 0.1 to 1.
The size of the monomer unit plays a role in the crosslink density of a polymer system.
Preferably, the crosslink density is from about 40 to about 160 moles per milliliter of rubber.
The monomer concentration in the reaction may effect the crosslink density of the product polymer.
In general, chemical resistance and solvent resistance follow a similar trend, increasing with higher crosslink density.
Elevated temperatures can increase the prepolymer 's crosslink density through uncontrolled isocyanate side reactions.
Alternatively, the degree of cure may be expressed in terms of crosslink density.
Component ( E ) may be added to control the crosslink density of the composition as required.
More specifically, the amount to UV curatives and coagents determines the achieved crosslink density.
Using the tri-amine precursor A allowed for higher crosslink density materials and higher strength.
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Examples of using Crosslink
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They then crosslink with water or moisture
The final controlling factor is crosslink density
It is known to crosslink different polymers by means of additives
