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Inorganicorganic Nanocomposites

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Title: Inorganicorganic Nanocomposites


1
Inorganic-organic Nanocomposites Nanoscale
Surface ModificationEnergy Consumption
Reduced Capital Costs
  • Ted Wegner
  • USDA Forest Service
  • Forest Products Laboratory
  • June 15, 2007

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Nanocomposites
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Technical Challenges Understand control
surface chemical reactivity Characterization
of structures at nanoscale Measurement of
physical properties at nanoscale Multiple
material compatibility Directed self assembly
of nano-components
Focus Area 4 Inorganic-organic nanocomposites
nanoscale surface modification Target Produce
nano-composite materials from forest materials
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Strength of Materials building blocks and
interfaces
Gecko Feet
Source K Autumn, PNAS 2006
Source Gao, Fratzl et al, PNAS 2004
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Perceived Issues with Wood-based Composites
  • Low strength and stiffness with eventual
    rheological/creep problems
  • Poor durability and water-related problems
  • Limited service life
  • Limited or poor fire performance
  • Requirement for enhanced performance, durability,
    fire resistance, and service life in
    non-residential construction

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Nanotechnology Advanced Wood-based Composites
  • Natural composite components
  • Combined wood and natural biofiber composites
    possessing synergistic performance and service
    life using bio-based resins
  • Totally bio-based, sustainable composites
  • High-performance bio-based composites using
    inorganic binders or natural bio-based binders
    such as lignin
  • Biomimetic composites
  • Self-healing systems that include resins or
    sub-systems that reactivate when they sense
    degeneration of bond properties or mechanical
    displacement
  • Recycled materials
  • Systems that promote use of recycled materials
  • Systems that enhance its later recyclability

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Nanotechnology Advanced Wood-based Composites
  • Smart composites
  • Systems that sense and warn users of mechanical
    overload
  • Systems that sense moisture and warn users of its
    presence
  • Systems that sense fungal or enzymatic activity
    and react to suppress it
  • Systems that sense fire and react to suppress and
    extinguish it
  • Additives (such as wax, preservative chemicals,
    fire retardants)
  • Systems that enhance bonding by acting as
    coupling agents
  • Systems that result in water-resistanteven
    water-proofconstituent materials
  • Binders
  • New bio- or synthetic-based binders with enhanced
    performance
  • Environmentally responsible and sustainable
    binder systems

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New Markets Needed !!
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Nanotechnology for Reduced Energy Consumption
Reduced Capital Costs
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Objectives
  • Apply nanotechnology and employ nanomaterials in
    forest products processing in order to reduce
    manufacturing costs by both reducing the amount
    of energy consumed during processing and capital
    equipment required.

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  • Nanotechnology applications can take the forms
    of
  • nano-catalysts to reduce the temperatures and
    time needed to delignify wood in pulping
  • low corrosion nano-coatings and nano-materials to
    prolong the life of capital equipment
  • nano-dimensional tags/markers for fiber
    separations
  • nano-inspired products that help with water
    removal on paper machines (drainage wires, vacuum
    boxes, wet presses, and dryers), kilns, and hot
    presses
  • robust nano-dimensional sensors (temperature,
    pressure, tensile/compressive forces, etc.) that
    can be used to monitor and optimize processing
    conditions as well as reduce/eliminate off
    specification product productions etc.

23
Pulping and Paper/Paperboard Production Targets
  • Reduce pulping process energy consumption by at
    least 33 and produce the same or better quality
    fiber at 5-10 higher yield
  • Reduce energy consumed in the process of
    increasing black liquor solids (kraft pulping) by
    at least 50
  • Develop lower-cost technology to replace the
    current (energy and capital intensive)
    causticizing process
  • Reduce energy and produce same or better-quality
    paper products by using (a) nano-coating
    pigments and (b) three times the non-fiber filler
    content
  • Reduce the energy consumed in paper dewatering,
    pressing, and drying by at least 50

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  • Waste Streams/Wastewater
  • develop cost-effective methods to reduce or
    eliminate odorous kraft emissions beyond the mill
    property
  • Develop alternative methods for wastewater
    treatment that are less energy- and
    capital-intensive than current biological
    effluent treatment systems.
  • Develop low corrosion nano-coatings and
    nano-materials to prolong the life of capital
    equipment

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  • Fiber Recovery and Recycling
  • Develop functional nanomaterials to enable paper
    and fiber tagging
  • Use nanomaterials to facilitate ink removal (i.e.
    de-inking) and contaminant removal
  • Develop low corrosion nano-coatings and
    nano-materials to prolong the life of capital
    equipment
  • Develop nanomaterials to improve recyclability of
    paper and paperboard products

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  • Wood Products
  • Reduce VOC and HAP emissions from manufacturing
    wood-based products by 90
  • Use nanoscale materials and technology to improve
    conversion efficiencies of wood products
  • Use nano-coatings and nano-catalysis to decrease
    emissions to indoor air from wood-based products
    by 50
  • Investigate ways to use nanotechnology and
    nanomaterials to enhance and increase the
    efficiency of drying wood and wood-based
    materials in kilns and presses
  • Increase marketable chemical byproducts of wood
    by 10
  • Employ robust nano-dimensional sensors
    (temperature, pressure, tensile/compressive
    forces, etc.) to monitor and optimize processing
    conditions and improve conversion yields as well
    as reduce/eliminate off specification product
    productions etc.

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