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Published by송희 서문 Modified 8년 전
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Slide # 1 Engineering Plastics and Polymer Engineering 신소재공학과 허정림 Konkuk University
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Slide # 2 Engineering Plastics
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Slide # 3 Coming from a Long Way, Polymer Becomes Very Personal * 의료용 고분자 : 생체 분해성 고분자는 단순 가수분해 또는 효소의 작용으로 분해소멸되는 고분자이다. 대부분의 합성고분자는 분해되 지 않지만, 일부 지방족 폴리에스터 혹은 폴리카보네이트들은 가수분 해에 의해 천천히 분해된다. 치과용 고분자로는 구강내 특수한 상황으 로 요구특성이 매우 까다로와, PMMA 와 bis-GMA 계 복합재가 주종을 이룬다. 혈액투석기, 혈장분리기, 인공심폐기등에 쓰이는 분리막 소재 로는 PMMA, PP, PAN, polysulfone, cellulose, PVA, PE, poly(ethylene-co- vinylacetate) 등이 사용된다. * 콘택트 렌즈 : 초기에 개봘된 PMMA 는 투명하 고 기계적 강도는 우수하나 착용감이 나쁘고 산 소투과성이 거의 없으므로 시장에서 쇠퇴하고, 최근에 많이 쓰이는 경질 콘택트 렌즈에 재료로 서 PHEMA(poly hydroxyethylmethacrylate) 계 친 수성 하이드로젤을 사용한다. PMMA 에 비하여 기계적 강도는 떨어지지만, 친수성이며 산소투 과성이 높아 널리 사용된다. 인공 뼈 인공피부 인공혈관 After Lee, 2004 Source: UML Nylon in 1940 Plastic Now
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Slide # 4 Hip Implant With age or certain illnesses joints deteriorate. Particularly those with large loads (such as hip). Adapted from Fig. 22.25, Callister 7e. Hip Implant Requirements –mechanical strength (many cycles) –good lubricity –biocompatibility
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Slide # 5 Hip Implanting Using plastics Key problems to overcome –fixation agent to hold acetabular cup –cup lubrication material –femoral stem – fixing agent (“glue”) –must avoid any debris in cup
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Slide # 6 Smart Phone http://www.reuters.com/article/idUKLDE6291AB2010031 1?type=companyNews&symbol=AMZN.O iPhone
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Slide # 7 Materials technology in a key role Materials technology as a potential enabler for: –Enhanced user experience –New functionality –New form factors –Improvements in production efficiency –New solutions for energy management, data storage Need multi-disciplinary research –materials, mechanics, memory, electronics, energy Considerations for environmental sustainability, volume production Source: Yrjö Neuvo of Nokia, 2006
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Slide # 8 8 Most Successful Technology Ever 3-4B cellphone users worldwide –Vastly outpaces TV, PCs, 1.13 billion phones sold in 2009 –36 per second –Versus 15 billion shoes per year –Versus 0.3 billion PCs 174M were smart phones –15% (up from 12.8% in 2008) –Smart phones will pass PCs in the near future Source: Brewer, 2010
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Slide # 9 9 What’s in an iPhone? Source: Brewer, 2010
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Slide # 10 10 What’s in an iPhone? Phone Address book Watch Alarm clock Calculator Pager Timer Stopwatch Flashlight MP3 Player Camera USB drive Remote control Voice recorder Radio Video camera Video player TV GPS + Maps Compass Gameboy or PSP Source: Brewer, 2010
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Slide # 11 Miniaturization – Challenges for Polymer Materials Strong and tough structural materials (thickness <0.5 mm) –Novel polymer composites (plastics with carbon nanotubes or nanofibers) Good heat transfer properties –Hybrid materials (metal/plastic, ceramic/plastic) For high-quality feel –Novel metal alloys (amorphous, nanocrystalline) Stronger than current metal forming methods Active support materials to protect electronics –Shock absorption –Water-proof –EM shielding Monoblock Flexible Max. Deflection vs. load Source: Yrjö Neuvo of Nokia, 2006
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Slide # 12 Engineering And High-Performance Polymers Price for performance High-Performance Polymers (HPP) (TI 1 > 150 °C) Engineering Polymers (ETP) (TI 1 > 90 °C) Amorphous Partially crystalline PBT POM LFT PSU FP PPA PAI PEEK PI PES PAR PPO PC ABS PA 6/66 PEI LCP PPS TI 1 = Temperature Index PET Commodity (TI 1 < 90 °C) PP SAN PS PMMA HDPE LDPE
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Slide # 13 13 Categories of Polymers 0,15 % 0,24 MM tons High-Performance Polymers (HPP) (TI 1 > 150 °C) 96 % 149 MM tons Standard Polymers (TI 1 < 90 °C) 4 % 5,9 MM tons Engineering Polymers (ETP) (TI 1 90 – 150 °C) TI 1 = Temperature Index Price for performance
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Slide # 14 World Plastics Market – Growth vs. Crude Steel and Paper Plastics have outgrown competing materials such as steel and paper Compound Annual Growth Rates : Plastics 6 % Steel 2 % Paper 3 % However – in the most recent years growth rates for steel have taken ground and increased Index: 1970 = 100 Source: *Stahl-Zentrum/International Iron and Steel Institute (IISI) **Verband Deutscher Papierfabriken e.V. (VDP)
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Slide # 15 15 Transportation Auto Electrical Systems (Polyester, PPS, LCP, POM) Under Body Covers (LFRT, Polyester) Airbag (Polyester) Safety Systems (POM, Polyester, LCP, LFRT) Door Lock Systems (POM, Polyester) Window Winders (POM, Polyester, LFRT) Seating Systems (POM, Polyester, LFRT) Under the Hood Applications (PPS, Polyester, LCP, POM, LFRT) Speaker Grilles (POM) Wiper Systems (POM, Polyester, LFRT) Fuel Systems (POM, PPS) Instrument Panel (LFRT) Frontend (LFRT, Polyester) Door Module (POM, LFRT, Polyester) Battery Tray (LFRT, Polyester) Sun Roof Systems (POM, Polyester, PPS, LFRT) Mirrors (POM, Polyester, LFRT) Power Distribution Box (LFRT, Polyester)
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Slide # 16 Current Main Applications I/O Connector PSGA Battery Housing SIM-Lock Telecom ~650 MM Cell Phones per Year ! 31g Metal, 106g Plastic
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Slide # 17 Desktop Connectors Flat TV Connectors Printer Connectors Telecom Connectors Connector in E/E Devices(PBT, PPS, PPA and LCP)
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Slide # 18 범용 고분자범용 엔지니어링 플라스틱 LDPE / LLDPE HDPE PP PS PVC POM PBT / PET PA6 / PA66 PC MPPO 준 엔지니어링 플라스틱 ABS
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