innovation and productivity

INNOVATION AND PRODUCTIVITY
APPLYING CUTTING EDGE TECHNOLOGY
IN THE DECORATIVE LAMINATES
INDUSTRY
Dr Joseph Giansiracusa
Depco-PPG Pty Ltd
MVD - MELAMINE VAPOUR DEPOSITION
NIR - NEAR INFRA RED TECHNOLOGY
MELAMINE VAPOUR DEPOSITION
ƒ BACKGROUND
• In the late 1990s Dr Shahab Jahromi and colleagues at
DSM developed a process and applied for patents to
cover basic technology of MVD onto a substrate to
achieve a barrier coating
• In 2005 Depco-PPG applied for a patent to cover the use
MVD in the manufacture of decorative laminates
MELAMINE VAPOUR DEPOSITION
• Patents granted to DSM and patent applications by DSM
and Depco are used to protect the IP of the owners.
Depco has signed an MOU with DSM’s licensing co.
(Stamicarbon) for commercial exploitation of the IP.
MELAMINE VAPOUR DEPOSITION
• SUBLIMATION – is the process of a solid changing into
a gas without going through the liquid stage
• Under the appropriate conditions melamine sublimes
• MVD – has been achieved by using well known paper
metallizing equipment modified to allow sublimation of
melamine powder, for example, under vacuum at
pressure of 10 -2 to 10 -3 mbar at temperature of 300C
MELAMINE VAPOUR DEPOSITION
ƒ CONCEPT – 1
• Dense and smooth decor paper for an improved print
base paper (PBP)
• Décor printers may appreciate a dense and smooth
decor paper surface, however dense décor papers have
proven unsuitable for use due to poor saturation and
laminate properties
• MVD opens up new opportunities
MELAMINE VAPOUR DEPOSITION
• From a standard PBP – 70gsm , Gurley 20sec, Bekk 200
sec
• To a high density PBP – 70gsm, Gurley 30sec, Bekk 300
sec
• The paper we used for an MVD trial was actually 65gsm,
40% Ash, Gurley 35sec, Bekk 320 sec., and was coated
with @4.5gsm of melamine applied to the print side of
the paper. The Bekk value was reduced to 276 sec
• Measured across the 130cm web the MVD values were
4.7g - 4.5g - 4.6g - 4.7g - 4.7gsm
MELAMINE VAPOUR DEPOSITION
MELAMINE VAPOUR DEPOSITION
MELAMINE VAPOUR DEPOSITION
MELAMINE VAPOUR DEPOSITION
MELAMINE VAPOUR DEPOSITION
ƒ CONCEPT – 2
• Full core impregnation using MVD to avoid first bath
impregnation … a work in progress
• MVD applied to both sides of the decorative paper,
followed by separate high speed coating of MF resin
• Paper avoids the limitations of saturation speed but still
faces in-line cutting and sheeting limitations
Melamine Vapour Deposition
SEM of paper with 2.5g melamine both sides
Melamine Vapour Deposition
SEM of paper with 5.0g melamine both sides
Melamine Vapour Deposition
SEM of paper with 10.0g melamine both sides
MVD – SEM‘s 500µm
MVD - SEM‘s : 2 x 2,5g – 2 x 5g – 2 x 10g
MELAMINE VAPOUR DEPOSITION
ƒ CONCEPT – 3
• Improved postforming laminate using MVD and standard
MF resins
• Replace or reduce the use of resin modifiers to improve
postforming with MVD applied to either or both the
overlay and the décor paper.
MELAMINE VAPOUR DEPOSITION
Décor paper
• For example, a décor paper of 100gsm saturated to
120% with 1.6 mole ratio (F/M) MF resin, with a
remaining volatile level of 6% contains @77gsm of
melamine
• If 10gsm of melamine per MVD is applied to the paper
before impregnation, the F/M ratio would be @1.42
• If 15gsm of melamine per MVD is applied to the paper
before impregnation, the F/M ratio would be @1.34
MELAMINE VAPOUR DEPOSITION
Overlay paper
• For example, an overlay paper of 22gsm saturated to
400% with 1.6 mole ratio (F/M) MF resin, with a
remaining volatile level of 6% contains @59gsm of
melamine
• If 10gsm of melamine per MVD is applied to the paper
before impregnation, the F/M ratio would be @1.37
• If 15gsm of melamine per MVD is applied to the paper
before impregnation, the F/M ratio would be @1.27
Part 2
NIR Technology
Near Infra Red
NIR-Technology
NEAR INFRA RED
ƒ BACKGROUND
• We were asked to consider what options existed in
drying technologies
• An introduction was made to Adphos and after an
appropriate confidentiality agreement was put in place,
the concept of using NIR to evaporate water from an
impregnated paper was discussed in detail
NIR-Technology
NEAR INFRA RED
NIR Technology
Near Infra Red
• The business relationship was secured with an
agreement that Depco-Europe would take exclusive
responsibility for the exploitation of AdPhos NIR
equipment to the laminate and woodpanels industry
• AdPhos has numerous patents and patent applications
for NIR Technology and NIR equipment. Separately,
Depco has applied for several patents to protect the IP
developed for using NIR in the laminate and woodpanels
industry
NIR Technology
Near Infra Red
Electromagnetic Spectrum
NIR Technology
Near Infra Red
• Approximately 52% of the energy radiating from the sun
is NIR wavelength
• NIR frequencies are typically in the range of
700 – 2500nm
• Water, the preferred solvent in impregnation resins is
very sensitive to NIR radiation
NIR Technology
Near Infra Red
specific frequencies
Spectral Radiation Output for Tungsten Filament Lamps
(Including Halogen Lamps & Technical Lamps)
Spectral Radiation Output
NIR-Technology
Near Infra Red
ƒ some advantages
¾ Instant on-off, less than 2 sec. to full power
¾ NIR bridge built in segments allowing active NIR emitters to match width of
impregnated paper
¾ A range of emitters, eg., from 800W to 4400W, with a rated life of > 5000hrs
¾ NIR emitters are only 25cm long (web direction) therefore at 60 m/min the
web is only seeing each NIR bridge for ca. 0.25 sec
¾ Siemens system control unit for NIR can be integrated into existing treater
PLC
¾ Narrow band of specific energy applied instantly results in fast removal of
water rather than conventional method of increasing and decreasing
temperature of web over the length of a typical drying tunnel
NIR Technology
Near Infra Red
NIR Technology
Near Infra Red
There are some limitations for NIR
•
High contrast prints do not so far seem suitable for intense NIR radiation
due to different absorption characteristics of the pigments
Energy consumption
•
Differences in energy prices, for example between electricity and gas have
to be considered, and the energy efficiency of NIR versus gas fired ovens
has to be considered (from the lab work we only have theoretical
calculations until a fully enclosed NIR optimized with reflectors has been
installed and operated for a reasonable period of time). Our expectation is
that we will not have a significant impact on the energy bill - individual
companies have site specific arrangements for energy supply, however…
A Major Commercial Advantage is Productivity
•
Increased line speed without increasing the number (length) of drying ovens
NIR Technology
Near Infra Red
ƒ CONCEPT
• Water removal from the impregnated paper at high
speed without causing resin / surface degradation = no
dusting
• A simple view of the process of impregnation and
producing a b-stage film of a white décor paper for
carcass application on a modern split oven treater can
be expressed as the following
¾pre-wetting and core saturation
¾reduction of water content and start resin curing
¾coating
¾drying and curing to required b-stage
¾cutting to sheets
NIR Technology
Near Infra Red
• Application of NIR radiation after the core impregnation
enables a smooth and flexible impregnated paper with a lower
volatile content to be presented to the coating section. This
lower volatile content after the first stage means that less
water has to be removed from the core in the second set of
ovens, and from our experience means a lower volatile
content in the b-staged impregnated paper is acceptable
• One result achieved on the lab treater at Dynea Krems was
¾75g white décor paper (35% ash)
¾Core impregnation 46,4g UF resin (starting 50% solids)
¾NIR : one bridge with 1200 Watt emitters at 80% power
¾Coating 37,3g MF (starting 54% solids)
¾6 metres gas fired drying
¾End weight 168,3g inclusive 5.11% volatile content
¾Line speed 9.3 metres / minute
NIR Technology
Near Infra Red
ƒ Using NIR Technology has shown us we can achieve –
¾Higher line speed
¾Little to no dusting
¾Lower volatiles
¾High flow
¾No porosity
NIR Technology
Near Infra Red
• The following are some pictures from the trials in Krems
on the Dynea laboratory treater
• We are extremely grateful to Dynea and AdPhos for their
assistance and patience with us
Dynea Krems Laboratory Treater
NIR Technology
NIR Technology
NIR Technology
NIR Technology
NIR Technology
NIR Technology
NIR Technology
NIR Technology
Near Infra Red
• In the next slides you will see that
sometimes we had to really improvise, in
this case there was really not enough
space after the gravure section and before
the second dryers. But the Dynea people
said „let‘s try to hang it to the frame with
wire and protect the paintwork with alu-foil“
... looks terrible, but it worked!
NIR Technology
NIR Technology
NIR Technology
Near Infra Red
• Pre-assembly and functional check of all components
before delivery
• Plug and Produce after delivery
• Safety-first ... Special dark glasses are needed to look
into an operating NIR
NIR Technology
NIR Technology
Near Infra Red
• Today a modern impregnation line will have between 10 - 12
drying ovens (perhaps a total drying length of 40 metres)
including the use fans for hot air circulation to promote drying
and cure
• For NIR Technology the space required between the wet end
and the coating station can be reduced, for example to
approximately 3 metres (one NIR bridge) or approximately
5 metres for 2 NIR bridges with interim cooling
• Extensive trials conducted at the AdPhos laboratory and on
the “lab treater” at Dynea Krems have shown that NIR is an
effective method to remove water after the first bath
impregnation
• The initial tests at AdPhos demonstrated significant water
removal at 60 metres / minute
NIR Technology
NIR Technology
NIR Technology
NIR Technology
Near Infra Red
•
On the Dynea lab treater using a single NIR bridge we have successfully
removed 35gsm of water from the first stage impregnation (UF resin at 50%
solids). The paper was further coated with MF resin by a set of gravure
rollers and dried to b-stage using 6 metres of conventional ovens
•
Samples are available if any one is interested to see the results
•
With faster line speed being reached through new crosscutter technologies,
treaters operating at >100 metres / minute may well become the norm
•
NIR Technology is an ideal addition to an existing treater or integrated into
a new treater working in combination with conventional drying ovens to
produce b-staged films to your specification
Tappi Symposium, Cologne 2007
MVD and NIR … adding value
Application of MVD and NIR Technology in
the manufacture of decorative laminates
… a work in progress ...
for more information please visit us on the
Munksjö booth in Hall 6 at the Interzum
fair.
MELAMINE VAPOUR DEPOSITION
and
NIR TECHNOLOGY
Acknowledgements
In particular we would like to thank the people of
AdPhos, DKB, DSM, Dynea and Munksjö.
Without their support the results from our
endeavours would have been much more
difficult to achieve.