smart materials
DESCRIPTION
smart materialsTRANSCRIPT
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MAE 438/538 Smart Materials
Professor Deborah [email protected]
Furnas Hall, Room 608Tel. (716) 645-2593 X2243
Fax. (716) 645-3875
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Grading scheme for MAE 438
Test 1 25%Test 2 25%Final 50%
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Grading scheme for MAE 538
Test 1 20%Test 2 20%Final 40%Paper 20%
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Test dates
Test 1: Feb. 3, 2005Test 2: Mar. 22, 2005
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Smart materials
Materials for
smart structures
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Smart structures
Structures that can sense stimuli and
respond to them in appropriate fashions
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Civil structures
Buildings Bridges PiersHighwaysAirport runwaysLandfill cover
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Lightweight structures
Aircraft Satellites Turbine blades Automobiles Bicycles Sporting goods Wheelchairs Transportable bridges
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Functions for structures
• Structural• Vibration reduction• Self-sensing of strain/stress• Self-sensing of damage• Electromagnetic interference (EMI)
shielding• Lightning protection• Self-heating (e.g., deicing)• Self-healing
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Applications of strain-stress sensing
• Traffic monitoring
• Weighing (including weighing in motion)
• Building facility management
• Security
• Structural vibration control
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Applications of damage sensing
• Structural health monitoring
• Damage/microstructural evolution study
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Damage sensing methods
• Acoutic emission
• Electrical resistivity measurement
• Optical fiber sensor embedment
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Piezoresistivity• Change of electrical resistivity due
to strain• Gage factor = fractional change in
resistance per unit strain (more than 2)• Gage factor up to 700 attained in
carbon fiber reinforced cement
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Self-healing concept• Embedding microcapsules of monomer in
composite
• Having catalyst in composite outside the microcapsules
• Upon fracture of microcapsule, monomer meets catalyst, thereby former a polymer which fills the crack.
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Problems with self-healing
• Toxicity of monomer
• High cost of catalyst
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Types of smartness
•Extrinsic smartness
• Intrinsic smartness
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Advantages of intrinsic smartness
• Low cost
• High durability
• Large functional volume
• Absence of mechanical property loss
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Advantages of automatic highway
SafetyMobility
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Lane Lane
(a) (b)
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Applications of materials
Topic 1
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Reading assignment
Chung, “Composite Materials”, Ch. 1 on Applications.
Askeland and Phule, The Science and Engineering of Materials, 4th Edition, Ch. 15 on Polymers.
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Applications
Structural applicationsElectronic applicationsThermal applicationsElectrochemical applicationsEnvironmental applicationsBiomedical applications
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History of human civilization
Stone AgeBronze AgeIron AgeSteel AgeSpace Age Electronic Age
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Types of materials
MetalsCeramicsPolymersSemiconductorsComposite materials
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Ceramics
Ionic/covalent bondingVery hard (brittle)High melting temperatureLow electrical/thermal
conductivity
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Examples of ceramics
Al2O3 (aluminum oxide or alumina)
Fe3O4 (iron oxide or ferrite)
WC (tungsten carbide)Cement (silicates)
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Polymers
MoleculesSoftLow melting temperatureLow electrical/thermal
conductivity
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(PVC)
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©2003 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
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©20
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Styrene
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Examples of polymers
RubberPolyesterNylonCellulosePitch
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Copolymer
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Polymer blend
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©2003 Brooks/Cole, a division of Thomson Learning, Inc. Thomson Learning™ is a trademark used herein under license.
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©20
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Styrene-butadiene block copolymer
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Branching
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Types of polymer
Thermoplastic (softens upon heating)
Thermoset (does not soften upon heating)
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Compression molding
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Composites
Artificial combinations of materials
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Composite materials
Polymer-matrix compositesCement-matrix compositesMetal-matrix compositesCarbon-matrix compositesCeramic-matrix composites
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Composite materials
ParticulateFibrous (discontinuous fibers)Fibrous (continuous fibers)Lamellar
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Cement-matrix composites
Cement pasteMortarConcrete
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Carbons Graphite Diamond Fullerenes (buckminsterfullerenes) Carbon nanotubes Turbostratic carbon Diamond-like carbon (DLC) Intercalation compounds of graphite Exfoliated graphite (“worms”) Flexible graphite
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Structures
Buildings, bridges, piers, highways, landfill cover Aircraft, satellites, missiles Automobiles (body, bumper, shaft, window,
engine components, brake, etc.) Bicycles, wheelchairs Ships, submarines Machinery Tennis rackets, fishing rods, skis
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Structures (continued)
Pressure vessels, cargo containersFurniturePipelines, utility polesArmor, helmetsUtensilsFastenersRepair materials
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Multifunctionality in structures
Load bearingAssembly and packagingVibration reduction (damping)Structural health monitoring (damage
sensing)Structural vibration controlModulus control
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Multifunctionality in structures (continued)
Self-sensing of strain, damage and temperature Building management Building security Thermal insulation Self-heating (e.g., deicing) Self-healing Electromagnetic interference (EMI) shielding Low observability (Stealth) Energy generation
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Embedded or attached devices or materials
Sensors (e.g., , strain gages, optical fibers)Actuators (e.g., electrostrictive materials,
magnetostrictive materials, shape-memory alloys, etc.)
Viscoelastic materialsMagnetorheological materialsElectrorheological materials
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Disadvantages of embedded or attached devices
High costPoor durabilityPoor repairabilityLimited functional volumeDegradation of mechanical
properties
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Structural performance
High strength High modulus (stiffness) Mechanical fatigue resistance Thermal fatigue resistance Low density Corrosion resistance Moisture resistance Freeze-thaw durability
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Structural performance (continued)
High temperature resistance Thermal shock resistance Low thermal expansion coefficient Creep resistance Low fluid permeability Repairability Maintainability Processability
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Electronic applications
Electrical applicationsOptical applicationsMagnetic applications
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Electrical applications
Computers Electronics Electrical circuitry (resistors, capacitors,
inductors) Electronic devices (diodes, transistors) Optoelectronic devices (solar cells, light sensors,
light-emitting diodes) Thermoelectric devices (heaters, coolers,
thermocouples)
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Electrical applications (continued)
Piezoelectric devices (sensors, actuators) Robotics Micromachines (microelectromechanical
systems or MEMS) Ferroelectric computer memories Electrical interconnections (solder joints, thick-
film conductors, thin-film conductors) Dielectrics (electrical insulators in bulk, thick-
film and thin-film forms)
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Electrical applications (continued)
Substrates for thin films and thick films Heat sinks Electromagnetic interference (EMI) shielding Cables Connectors Power supplies Electrical energy storage Motors Electrical contacts, brushes (sliding contacts)
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Electrical applications (continued)
Electrical power transmissionEddy current inspection (use of a
magnetically induced electrical current to indicate flaws in a material)
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Optical applications
Lasers Light sources Optical fibers (materials of low optical absorptivity for
communication and sensing) Absorbers, reflectors and transmittors of
electromagnetic radiation Photography Photocopying Optical data storage Holography
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Magnetic applications
TransformersMagnetic recording (data storage)Magnetic computer memoriesMagnetic field sensorsMagnetic shieldingMagnetically levitated trains
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Magnetic applications (continued)
Robotics Micromachines Magnetic particle inspection Magnetic energy storage Magnetostriction Magnetorheological fluids Magnetic resonance imaging (MRI, for patient
diagnosis) Mass spectrometry (for chemical analysis)
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Electronic packaging
Electrical interconnections Chip carriers Interlayer dielectrics Encapsulations Heat sinks Thermal interface materials Housings EMI shielding
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Thermal applications
Heating and cooling of buildings Industrial heating (casting, annealing,
deicing, etc.)RefrigerationMicroelectronic coolingHeat removal (brakes, cutting,
welding, chemical reactions, etc.)
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Mechanisms of heat transfer
Conduction (by electrons, ions or phonons)
Convection (by hot fluid, whether forced or natural convection)
Radiation (black-body radiation, particularly infrared radiation, for space heaters)
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Materials for thermal applications
Thermal conductorsThermal insulatorsHeat retention materials (high heat
capacity)Thermal interface materialsThermoelectric materials
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Electrochemical reaction
AnodeCathodeElectrolyteCatalyst (optional)
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Electrochemical applications
Batteries Fuel cells (galvanic cells in which
the reactants are continuously supplied, e.g., the hydrogen-oxygen fuel cell)
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Environmental protection
Pollutant removal (e.g., filtration, absorption by activated carbon)
Reduction in the amount of pollutant generated (e.g., use of biodegradable polymers)
RecyclingElectronic pollution control
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Biomedical applications
Diagnosis TreatmentScope: conditions, diseases,
disabilities, and their prevention
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Biomedical materials and devices
ImplantsBone replacement materialsBone growth supportSurgical and diagnostic devicesPacemakerElectrodes for collecting or sending
electrical or optical signals
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Biomedical materials and devices (continued)
WheelchairsDevices for helping the disabledExercise equipmentPharmaceutical packagingInstrumentation
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Requirements of implant materials
BiocompatibleCorrosion resistantWear resistantFatigue resistantDurability for tens of years
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A biomedical composite material
Particulate composite Ceramic particles:
hydroxyapatite + tricalcium phosphate
Polymer matrix: collagen
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Desirable qualities of an adsorption material
Large adsorption capacity Pores accessible from the outside Pore size large enough for relatively large
molecules or ions to lodge Ability to be regenerated or cleaned after use Fluid dynamics for fast movement of the fluid Selective adsorption of certain species
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Pore size nomenclature
Macropores (exceeds 500 Å)Mesopores (between 20 and 500 Å)Micropores (between 8 and 20 Å)Micromicropores (less than 8 Å)
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Functions of filter materials
Molecule or ion removal (by adsorption)
Particle removal