H IG H D E F IN IT IO N H M P -N

artegral HD
THE
S AV E
HIGH DEFINITION HMP-N
®
®
WAY
Highly Modified Polymer-Network HMP-N
®
merz-dental.de
I N N O VAT I V E P O L Y M E R S
FOR
C O M B I N AT I O N P R O S T H E T I C S
Contemporary removable prosthetics require intelligent materials. They should
resist abrasion, without provoking potentially damaging hyperbalances and their
consequences. On the other hand, they must be fracture-proof to guarantee a long
wearing life in tertiary structures.
HMP-N
H IGHLY M ODIFIED P OLYMER- N ETWORK
®
HMP-N is a dental material developed for implant-borne and periodentally
supported prosthetics with biomimetic properties simulating nature.
®
Thanks to its homogeneous structure with finest crystalline filling material, the Highly
Modified Polymer Network (HMP-N ) provides a balanced combination of
properties.
®
■
Resistance to wear to guarantee vertical support
■
Shock-absorbing for impact and shear forces acting on the tooth
■
Self-regulating biomimetic adaptation reduces hyperbalance contacts
by individual "functional engraving"
■
Homogeneous PMMA layering, therefore easy processing when producing
prosthetics
■
Resistance to plaque due to the uniform PMMA structure
INTELLIGENT POLYMER
WITH INNOVATIVELY HIGH DENSITY
HMP-N
Highly Modified Polymer-Network
®
The low proportion of the crystalline filling material of silica-apatite, which is very
similar to human dental enamel and forms only around 4% of the structure, is
bonded chemically by methacryl silane bridges with the surrounding PMMA resin
matrix.
Density and structure compensate for masticatory wear stresses just as much as
shear loadings, which can lead to chipping.
Nano Filled Composite – Composite Dental Material
The innovative pairing of very fine, uniformly distributed crystalline filling material
and matching sperical polymer macromolecules of different complexity reveal an
innovative high density in polymers.
The high inorganic macro- and microfiller content can be recognized clearly in
conventional composite dental materials. If cleavage occurs in the filling material,
microcracks that can cause fractures under the action of force due to a "ladder
effect" arise. The best material is not always the hardest.
QUALITY MADE IN GERMANY
REM 500x Merz Dental Material Development
SAFE
W E A R - R E S I S TA N T A N D
BIOMIMETIC
RESISTANT TO WEAR
AND ABRASION
Wear compared to resin antagonist
50
45
The silica apatites very similar to human dental enamel endow the HMP-N
very high resistance to wear compared with natural dental enamel. The
resistance to abrasion of this Hybrid PMMA is almost identical to composite dental materials and allows biomimetic adaption to the individual
"functional engraving" of lower tooth-guided movements.
®
Material loss [µm]
40
35
30
25
NFC
HMP-N
20
®
15
10
5
0
120.000 240.000
680.000
1.200.000
THE HARDEST MATERIAL IS NOT
ALWAYS THE BEST
Wear compared to human antagonist /enamel
Forces are distributed uniformly in the material. "Ladder effects" and
thus chipping are reduced.
35
Material loss [µm]
The crystalline silica-apatite content is very uniformly distributed and
forms a homogenous chemically bonded stricture with the PMMA.
40
30
25
20
HMP-N
NFC
®
15
10
5
The finer-grained the filling material, the higher the load bearing
capacity of the dental material. HMP-N is an innovative hybrid PMMA
that fulfils this requirement.
®
HMP-N
HIGHLY MODIFIED POLYMER-NETWORK
0
120.000 240.000
NHC
NANO HYBRID COMPOSITE
®
®
680.000
In vitro study of resistance to wear of the University of Zurich
commissioned by Merz Dental Material Development
NFC
NANO FILLED COMPOSITE
®
F
REM IMAGES - MERZ DENTAL MATERIAL DEVELOPMENT
BIOMIMETIC: SELF-REGULATING
ADAPTATION TO
THE OCCLUSION PATTERN
HMP-N is not brittle, it facilitates adaptation to the tooth-guided movement paths analogously to the individual neuromuscular control.
The material thus supports avoiding hyperbalances that can provoke resulting parafunctions.
®
QUALITY MADE IN GERMANY
1.200.000
THE FUNCTIONAL
HIGH DEFINITION MICHELANGELO
OF POSTEIOR
artegral HD
HIGH DEFINITION HMP-N
XL
®
®
36,7
26
12,4
10,0
THE POSTERIOR
36
■
Fully anatomical, cusp inclination 25°
■
Fully-contoured like a natural tooth
■
Clear centrics for natural and artificial
antagonists
■
Time-saving handling: basal shape, integrated
setting aid, Preventive Shift Groove (PSG )
38,5
L
35,1
26
®
11,7
■
10,0
®
For every case the suitable choice of material:
Posteriors made of HMP-N and OMP-N
®
®
36
HMP-N Highly Modified
®
36,8
Polymer-Network
OMP-N Organic Modified
®
M
32,8
Polymer-Network
26
11,0
9,5
36
34,4
S
Silica-apatitet
31,0
26
11,0
LAYER SCHEME
8,9
36
32,3
XS
29,4
26
02/2011-1090780/en
9,9
8,9
36
30,6
EN ISO 22112 : 2006
16 V-shades A1-D4, Bleach BL1-BL2
Merz Dental GmbH
Eetzweg 20, 24321 Lütjenburg / Germany
Tel +49 (0) 43 81 / 403 - 0
Fax +49 (0) 43 81 / 403 -403
www.merz-dental.de · [email protected]
Certified according to
DIN EN ISO 9001/ DIN EN ISO 13485
C 0482