imported_memnuts
New member
Intel, you have a PM :wavey
Do synthetics really "bond" to paint?
- Thread starter Corey Bit Spank
- Start date
imported_memnuts
New member
beanbag said:
In context to protectant bonding: Yes there are some covalent bonds that contain enough electronegativity sharing to be stronger than some ionics.
But in general. unlike ionic compounds, covalent molecules exist as true individual molecules. Because electrons are shared in covalent molecules, no full ionic charges are formed. Thus covalent molecules are not strongly attracted to one another. As a result, covalent molecules move about freely and tend to exist as liquids or gases at room temperature.
Ionic compounds tend to form crystalline solids with high melting temperatures.
MattZ28
New member
<------Lost.
:lol
:lol
Corey Bit Spank
Active member
Cool stuff. 
I made a good thread! heh.
I made a good thread! heh.jerry@robs
New member
CBS: You made the older folks remember horrible science class periods hehe.
Corey Bit Spank
Active member
theveed said:
Yes, but back in the day they had Country Time Lemonade!
blkZ28Conv said:
In fact some of the strongest bonds are between elements that have the same electronegativity, e.g the C triple bond and N triple bond. It is due to electron orbital overlap, not electronegitivity
It is easier for ionic molecules to have long range bonding networks, but as you know, covalent bonds can do that too, e.g. the backbone of polymers and diamond are covalent bonds.
...many of which also dissolve when you put it in water.
imported_memnuts
New member
I concede that if we get into the atomic realm your statement is true. But as I stated or prefixed my post:
In context to "protectant bonding"
This discussion is "intramolecular" and devoid of adequate data. :bow
In context to "protectant bonding"
This discussion is "intramolecular" and devoid of adequate data. :bow
imported_Intel486
New member
When polymers crosslink, is the bond formed a covalent bond? or does that depend on the polymer?
From what I've read it seems it's a covalent.
From what I've read it seems it's a covalent.
imported_memnuts
New member
Intel, that's the million dollar question and beyond data available (DK :nixweiss). Without the branching point (crosslinking point of monomer) info it is impossible to guess.
Polymer is such a generic term.
Technically sucrose (table sugar) is a polymer of 3 glucose moleculars (Monomers).
What type of monmer are we dealing with in polymeric sealants?
It would nice to know this info. It would make usage of different products and their reactions to toppers, QD's, surface prep, intra-company product mixing, etc a whole lot more intellectually driven and less trial by error and old wives tells.
But than where would the fun of experiment go..... Down
Polymer is such a generic term.
Technically sucrose (table sugar) is a polymer of 3 glucose moleculars (Monomers).
What type of monmer are we dealing with in polymeric sealants?
It would nice to know this info. It would make usage of different products and their reactions to toppers, QD's, surface prep, intra-company product mixing, etc a whole lot more intellectually driven and less trial by error and old wives tells.
But than where would the fun of experiment go..... Down
blkZ28Conv said:Intel, that's the million dollar question and beyond data available (DK :nixweiss). Without the branching point (crosslinking point of monomer) info it is impossible to guess.
Polymer is such a generic term.
What type of monmer are we dealing with in polymeric sealants?
It would nice to know this info. It would make usage of different products and their reactions to toppers, QD's, surface prep, intra-company product mixing, etc a whole lot more intellectually driven and less trial by error and old wives tells.
But than where would the fun of experiment go..... Down
I agree with you 120%
Corey Bit Spank
Active member
blkZ28Conv said:Intel, that's the million dollar question and beyond data available (DK :nixweiss). Without the branching point (crosslinking point of monomer) info it is impossible to guess.
Polymer is such a generic term.
Technically sucrose (table sugar) is a polymer of 3 glucose moleculars (Monomers).
What type of monmer are we dealing with in polymeric sealants?
It would nice to know this info. It would make usage of different products and their reactions to toppers, QD's, surface prep, intra-company product mixing, etc a whole lot more intellectually driven and less trial by error and old wives tells.
But than where would the fun of experiment go..... Down
This is whay I was wondering, really.