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Soft Materials ~Application to Artificial Muscle~kanai/seminar/pdf/Lit_H_Mitsunuma_D...Application...
Transcript of Soft Materials ~Application to Artificial Muscle~kanai/seminar/pdf/Lit_H_Mitsunuma_D...Application...
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Soft Materials ~Application to Artificial Muscle~
Literature Seminar
H. Mitsunuma (D1)
06/18/2012 1
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What Is “Gel” ?
2
Gels are defined as a substantially dilute cross-linked system, which exhibits no flow when in the steady-state.
Ferry, John D. Viscoelastic Properties of Polymers. New York: Wiley, 1980.
Konjak Contact lens Nappy
Examples of “Gel” around us
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Charactaristics of “Gel”
3
1. Solid + Liquid = “Soft material”
2. Open system in non-equiliblium state
3. Intelligent function
+ = ??
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Today’s Topics
4
1. Basic concept and history of “Gel”
2. Application to artificial muscle
3. Future outlook
1. Basic concept and history of “Gel”
2. Application to artificial muscle
3. Future outlook
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Types of “Gel”
5
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History of “Gel”
6
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Evaluation of Gel Point
7
Flory-Stockmayer model
ゲル化点 =重量平均重合度無限大
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Osmotic Theory of Gel
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ゲル網目の変形に伴うギブス自由エネルギーの変化 ∆G = ∆Gm + ∆Ge
∆Gm 網目と溶媒との混合からの寄与 ∆Ge 弾性からの寄与
∆Gm = kBT[n1lnv1+n2lnv2+χn1v2] kB:ボルツマン定数、n1 :溶媒分子数、 n2 :高分子鎖数 v1:溶媒の体積分率、 v2:溶媒の体積分率 χ :高分子-溶媒相互作用パラメータ
∆Ge = (3/2) kBTve (α2-1-lnα) ve:実在の網目中における鎖の有効数、α :変形因子 ∆G = n1kBT[lnv1+χv2]+ (3/2) kBTve (α2-1-lnα) (n2 =1よりn2を含む項は無視できる)
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Osmotic Theory of Gel
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化学ポテンシャル変化 ∆µ1 = NA(∂∆Gm/∂n1)T, p + NA(∂∆Ge/∂α)T, p (∂α/∂n1)T, p
= RT[lnv1+v2+χv22+V1(ve/V0)(v2
1/3-v2/2)]
V0:高分子網目の膨潤前体積、V1:溶媒のモル体積 α3 = V/V0 = 1/v2 (V:高分子網目の膨潤体積) 平衡膨潤状態のとき、 ∆µ1 = 0
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Equation of State of Gel
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浸透圧 π = −∆µ1/V1 = -(RT/V2)[ln(1-v2)+v2+χv2
2]+RT(ve/V0)(v2/2-v21/3)
= … = -(NkT/v)[φ+ln(1-φ)+(∆F/2kT)φ2]+vkT[φ/2φ0-(φ/φ0)1/3]+fvkT(φ/φ0) = (網目高分子と溶媒の混合による圧力)+(弾性による圧力)+ (対イオンによる圧力) ただしR = kN, V1 = v, v2 = φ, χ = ∆F/2kT, ve/V0 = v, f: 架橋点高分子鎖一本当たりの解離している対イオンの数 平衡状態(π = 0)においてτ = 1-(∆F/kT)と定義すると、 τ= -vv/Nφ2 [(2f+1) (φ/φ0)-2 (φ/φ0)1/3 ]+1+2/φ+[2ln(1-φ)]/φ2
(V/V0 = φ0/φ)
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Volume Phase Transition
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τ= -vv/Nφ2 [(2f+1) (φ/φ0)-2 (φ/φ0)1/3 ]+1+2/φ+[2ln(1-φ)]/φ2
(V/V0 = φ0/φ, τ = 1-(∆F/kT))
体積相転移: 温度や溶媒組成などの外部条件の連続的な変化に応じて、 ゲルの平衡膨潤度(体積)が大きな不連続変化を示す現象
T. Tanaka, Phys. Rev. Lett., 1978, 40, 820.
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Kinetics of Osmotic Theory
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(a) ink: diffusion (b) gel
膨潤の緩和時間 τ= a2/π2D a:半径、
D:ポリマー網目の拡散係数
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Summary of First Topic
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Volume phase transition (1978 T.Tanaka)
Explosive development In the field of gel chemistry !!
(intelligent gel, actuator…)
Gel is essential for our life.
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Today’s Topics
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1. Basic concept and history of “Gel”
2. Application to artificial muscle
3. Future outlook
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The Structure of Muscle
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Chemical reactions produce ATP molecules which are used to power the movement of the myosin heads.
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Artificial Muscle
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Artificial muscle: actuators which mimic the muscles in our own human bodies Actuator: type of motor for moving or controlling a mechanism or system. It is operated by a source of energy, usually in the form of an electric current, hydraulic fluid pressure or pneumatic pressure, and converts that energy into some kind of motion. Functions needed for artificial muscles: 1. High compliance, flexiblity 2. High power density, small 3. Compact, mobile
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Types of Actuators
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Artificial muscles
Electroactive Polymers
Pneumatic artificial muscles
Shape memory
alloys
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Pneumatic Artificial Muscles
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Pneumatic artificial muscles (PAMs) : contractile or extensional devices operated by pressurized air filling a pneumatic bladder.
Problems: 1. These systems require air compressors that are neither light nor small. 2. Their response speed is limited by the ability of compressors. 3. Consumable
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Shape Memory Alloys
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Shape-memory alloys (SMAs): an alloy that "remembers" its original, cold-forged shape: returning the pre-deformed shape by heating.
Problems: 1. It takes time to cool the alloy and return to the rest position. 2. Low efficiency
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Types of Actuators
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Compliance Power density Mobility
Electroactive polymes
Very good Not so good Possible
Penaumatic artificial muscles
Good Very good Difficult
Sharp memory alloys
Good Good Possible
Electroactive polymers are being developed as a prominent candidate of artificial muscles !!
(also see appendix for detail values)
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Electroactive Polymers (EAPs)
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Electroactive Polymers (EAPs): polymers that exhibit a change in size or shape when stimulated by an electric field.
EAPs
Ionic polymers
Field-activated polymers
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Field-Activeted Polymers
22 Mat. Today. 2007, 10, 30.
Dielectronic elastomers
When a voltage is applied across these materials, the attraction between opposite charges and the repulsion of like charges generates stress in the dielectric, known as Maxwell stress, which compresses and elongates the dielectric.
DEs are one of the most studied polymer actuators and numerous applications are being developed. (electroactive fluid pumps, conformal skins for Braille screens, insect-like robots, and Artificial Muscles’ autofocus lens positioner)
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Ionic Polymers
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Ionic polymers
Ionic polymer-metal
composites
Ionic gels
Carbon nanotubes
Conductive polymers
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Ionic Polymer-Metal Composites
24
IPMCs consist of a solvent swollen ion-exchange polymer membrane laminated between two thin flexible metal or carbon-based electrodes
General basic ion exchange polymer: Perfuluorinated alkanes with side- chains terminated by ionic group Ex) Nafion from DuPont
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Nafion
25
Structure of Nafion
State of Understanding of Nafion Chem. Rev. 2004, 104, 4535.
Nafion :sulfonated tetrafluoroethylene based fluoropolymer -copolymer discovered in the late 1960s by Walther Grot of DuPont.
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Synthesis
26
Preparation copolymerization of tetrafluoroethylene (TFE) and a derivative of a perfluoro (alkyl vinyl ether) with sulfonyl acid fluoride.
Synthesis of perfluorinated vinyl ether monomer: see appendix
F
F F
F+
F
FO2SF
F
OF
CF3
FF
OF
F
F
Fcopolymerizaton
Naf ionbasic process
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Typical Bending Response of IPMC
27
When a water-saturated cantileverd strip of Nafion-based IPMC is subjected to a small DC Potential, it undergoes a fast bending deformation towards the anode, followed by a slow relaxation in the opposite direction.
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Effect of Different Cations
28 Effect of various cations on blocking force
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Ionic Hydration Effect
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J. Am. Chem. Soc. 1980, 102, 4665.
Result of IR analysis
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Ionic Hydration Effect
30
J. Am. Chem. Soc. 1980, 102, 4665.
1. Completely dissociated hydrated ion pairs 2. Ion pairs at the contact of undisturbed primary hydration shells 3. Outer-sphere complexes
4. Inner-sphere complexes
Four-state model
Lithium ion: stronger electrostatic field large hydration sphere
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Performance Improvement
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1. Solvent loss in IPMC (electrolysis and evaporation)
2. Lowering surface resistance of IPMC surface electrode (gold coating)
3. Encapsulation of IPMC 4. Structure of membrane
Etc…
Int. J. Control. Autom. Syst. 2006, 4, 748. International Journal of Precision Engineering and Manufacturing. 2012, 13, 141.
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Mechanical Applications
32
Flapping device
Int. J. Control. Autom. Syst. 2006, 4, 748.
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Mechanical Applications
33
Flapping device
Int. J. Control. Autom. Syst. 2006, 4, 748.
Applied voltage: 3~4 V Square wave form: 0.5~10 Hz
Maximum flapping angle: 85 degree (1 Hz input)
Flapping angle:
15 degree (3V, 15 Hz input)
The flapping device should be useful for mimicking an insect flying at low frequency.
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Mechanical Applications
34
IPMC valve-less micro pump Biomimetic jellyfish robot Mechanical gripper Fish robot (developed by Eamax, a Japanese company) etc…
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Ionic Polymers
35
Ionic polymers
Ionic polymer-metal
composites
Ionic gels
Carbon nanotubes
Conductive polymers
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Carbon Nanotube Actuators
36
Carbon nanotubes: very good conductors of both electricity and heat very strong and elastic molecules in certain directions tensile modulus (640 GPa), tensile strength (20-40 GPa)
Science. 1999, 284, 1340.
An applied potential injects charge in the Two nanotube electrodes in solution
Charge injection at the surface of a nanotube bundle
Coulombic forces resulted in actuation !!
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Carbon Nanotube Aerogel Muscles
37 Science. 2009, 323, 1575.
50-mm-long 2-mm-wide nanotube aerogel sheet
Applying a field of 5kV width: 220% elongation !! (3.7*104)% per second
25-mm-long nanotube sheet (1500 K by applying 3kV)
Actuation in sheet width
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Carbon Nanotube Aerogel Muscles
38 Science. 2005, 309, 1215.
Carbon nanotube sheet
Carbon nanotube forest plane 90 degree rotation of MWNTs in a a forest to form a sheet
The measured gravimetric strength of orthogonally oriented sheet arrays exceeds that of sheets of high-strength steel.
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Torsional CNT Artificial Muscles
39 Science. 2011, 334, 494.
Carbon nanotube yarn
Carbon nanotube yarn provides a reversible 15000 degree rotation and 590 revolutions per minute !!
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Summary of Second Topic
40
1. Electroactive polymers appear to provide the best conbination of properties for muscle like actuation. 2. The field of EAPs is under development.
3. CNT artificial muscles show the best result.
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Today’s Topics
41
1. Basic concept and history of “Gel”
2. Application to artificial muscle
3. Future outlook
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Current Trends of Gel
42
Medical field
Biochemistry
Biomaterial, DDS, Microallay etc…
Actuator
Functional gel
Strong Gel
TP gel, NC gel etc…
Analysis
Theory
Application of Gel
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Future Outlook
43
Gel with “emergence” functionality
Actin
Myosin
Interaction Nano meter
Sarcomere
Pico newton
Actual force
Centi meter, kg
Gel has the potential to artificially mimic “biological emergence” !!
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Future Outlook
44
Gel with “emergence” functionality
1. Artificial biological machine system Ex) muscle like gel engine, brain like computer, biomining…etc
2. Recognition of “life”
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Reference
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1. 「驚異のソフトマテリアル 最新機能性ゲル研究」 日本化学会 2. 「ゲルハンドブック」 エヌティエス 長田義仁他 3. 「高分子ゲル」 高分子学会 吉田亮 4. 「図解 人工筋肉 ソフトアクチュエーターが拓く世界」 日刊工業新聞社 中村太郎
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Appendix 1
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Macromol. Rapid Commun. 2010, 31, 10.
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Appendix 2
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Preparation procedure for IPMCs Supply: Nafion, NaBH4, Aqueous solution of platinum ammine complex, Hydrazine hydrate Hydroxylamine hydrochloride, Diluted ammonium hydroxide solution, Diluted hydrochloric acid, Deionized water 1. Surface roughening of the membrane a. Mild sandblast b. Ultrasonic washing c. Treatment with HCl d. Treatment with water 2. Ion-exchange 3. Primary plating 4. Secondary plating
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Appendix 3
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Synthesis of comonomer
J. Fluorine. Chem. 2004, 125, 1211.