Glass ionomer cements Flashcards
luting
joining underlying tooth material to a fixed prosthesis using cement
what are the 2 components and there constituents that make up conventional glass ionomer cements
liquid acid - usually polyacrylic
powder base - usually aluminium, silica and calcium fluoride
why is tartaric acid added to glass ionomer cements
to control setting characteristics
what is the effect of having small powder particles in conventional GICs
quicker setting time and more opaque
what is the effect of having a greater molecular weight of the acid in conventional GICs
better mechanical properties
however more viscous and difficult to hand mix
what are the 3 phases of conventional GICs setting
1 - dissoloution - dissolving of glass powder in acid
2 - gelation - initial setting
3 - hardening - aluminium ions cross link
describe the dissolution phase of conventional GICs
glass particles are dissolved in acid
H+ ions attack glass surface
ions are released and silica gel forms around the unreacted glass
describe the gelation phase of conventional GICs
Ca ions bind with carboxyl groups on polyacrylic chains
calcium is bivalent so can bond with 2 groups and crosslinking them however also potential to bind with 2 groups on same chain
takes several minutes to form calcium polyacrylate which appears hard in the mouth
describe the hardening phase of conventional GICs
trivalent aluminium ions further cross link which increases strength
aluminium polyacrylate can take days to fully form
greatly improves mechanical properties
why must conventional GICs be protected after placement with varnishes , resins or gel
to prevent moisture contamination, moisture contamination between gelation and hardening can cause aluminium ions to diffuse out which will result in a weaker material
since there is no need for an intermediate how do GICs bond to the tooth
via carboxyl groups from GIC bonding with Ca ions in hydroxyapatite
acid - base reaction
what is a common conditioner used prior to GIC placement
polyacrylic acid
what are 3 advantages to using conventional GICs
no polymerisation contraction when setting
fluoride release
thermal expansion properties are similar to dentine
how does conventional GICs mechanical properties compare to composite
decreased compressive and tensile strength , hardness and wear resistance
what is the concept of a ‘fluoride sink’ when discussing GICs
rather than GICs releasing fluoride throughout their life their are theories that they take in fluoride from the environment e.g toothpaste and gradually re release it
