접착과학 및 바이오복합재료 연구실

Books

Total Results : 53

  • 53. Packaging Applications of Biodegradable Nanocellulose CompositesPackaging Applications of Biodegradable Nanocellulose Composites_2023.pdf
    Sanjiv Sonkaria Kwang-Hyun Ryu Varsha Khare Hyun-Joong Kim
    Springer Singapore, pp. 1-26, ISBN : 978-981-16-6603-2 (2023)
    Introduction
    -Importance of Biodegradable Packaging

    Nanocelluloses
    -Potential Use of Nanocellulose in Packaging
    -A Brief Look at Degradation from a Biopolymer Bonding Perspective

    References
  • 52. Rapid Cure Composites Materials, Processing and ManufacturingRapid Cure Composite (Only Chap10 Contained).pdf
    Elsevier Science, pp. 179-212, ISBN : 9780323983372 (2023)
    1. Introduction
    Ahmed Al-Qatatsheh, Mazhar Peerzada, Nisa Salim,
    Jyotishkumar Parameswaranpillai and Nishar Hameed

    2. Synthesis and advances in rapid curing resins
    Sukanya Pradhan

    3. Important curing agents used for rapid curing
    Roberta Motta Neves, Lucas Dall Agnol, Francisco Maciel Monticeli
    and Heitor Luiz Ornaghi Jr.

    4. Fabrication methods of rapid cured composites
    Mazhar Peerzada, Sadaf Abbasi, Abdul Sattar Larik,
    Noor Ahmed Sanbhal and Iftikhar Ali Sahito

    5. Monitoring techniques to measure the rapid curing of polymer composites
    Abhishek K. Pathak, Hema Garg, Tomohiro Yokozeki and Sanjay R. Dhakate

    6. Joining of Composites using Rapid Curing Resin Systems
    Muhammad Kashif Bangash, Madeha Jabbar, Yasir Nawab
    and Khubab Shaker

    7. Self-healing composites: Healing using rapid cure resin systems
    Madeha Jabbar, Yasir Nawab and Khubab Shaker

    8. Cross-linking problems during rapid curing of adhesives and composites
    Thomas D. Lazzara and Kiersten M. Smith

    9. Characterization of Rapid Cured Composite Materials: A Comprehensive Review
    Yashwanth Padarthi, Raghu Raja Pandiyan Kuppusamy
    and Swati Neogi

    10. Rapid cure composites used in Electronics Industry
    Jae-Ho Shin, Mo-Beom Yi, Seong-Ju Lee and Hyun-Joong Kim

    11. Rapid cure composites used in Aerospace Industry
    Sadaf Abbasi and Mazhar Peerzada

    12. Rapid cure composites used in Spray and Paints Industry
    Qinghua Zhang, Shen Zhang, Xiaoli Zhan and Zheming Tong

    13. Key challenges and prospects of rapid cure composites material production
    Hamed Yazdani Nezhad and Paul Liddel
  • 51. Biopolymer-Based Blends (in Handbook of Biopolymers)Book Chapter - Biopolymer-based Blends - Published.pdf
    Sanjiv Sonkaria Ji-Hyun Cho Hyeon-Su Jo Hyun-Joong Kim
    Springer Singapore, pp. 1-29, ISBN : 978-981-16-6603-2 (2023)
    Biopolymer-Based Blends (in Handbook of Biopolymers)
    Edited by Sabu Thomas, Ajitha AR, Cintil Jose Chirayil, Bejoy Thomas

    1. Applications of Biopolymer-Based Nanofibers and Nanomembranes
    2. Bacterial Nanocellulose From Agro-Industrial Wastes
    3. Biocompatibility of Nanocellulose
    4. Biomolecules from Humus Oil
    5. Biopolymer Films and Composite Coatings
    6. Biopolymer Waste Management
    7. Biopolymer-Based Blend Nanocomposites
    8.
    9. Biopolymer-Based Composites
    10. Biopolymer-Based Nanocomposites for the Treatment of Organic Pollutants from the Synthetic Wastewater
    11. Mechanical Properties of Biopolymers
    12. Safety Issues, Environmental Impacts, and Health Effects of Biopolymers
    13. Sustainable Biodegradation and Extraction of Keratin with Its Applications
  • 50. Nanocomposite materials for 3D printing (in Applications and Industrialisation of Nanotechnology)'Applications_and_Industrialisation_of_Nanotechnology'_book (Only Chap5 Contained).pdf
    Hoon Kim Tanveer Ahmed Khan Kwang-Hyun Ryu In-Sung Sohn Hyun-Joong Kim
    One Central Press, pp. 91-118, ISBN : 9781910086230 (2022)
    Nanocomposite materials for 3D printing (in Applications and Industrialisation of Nanotechnology)
    Edited by Dr Maria Aparecida Medeiros Maciel

    Chapter 01 - Copaiba oil loaded into self-nanoemulsifying drug delivery system enriched with powdered coconut water as a strategy for therapeutic enhancement of skin wound healing

    Chapter 02 - Biological efficacy of Phyllanthus amarus Schumn. & Thonn. loaded into a nanoemulsion system on the in vitro culture of pig ovarian follicles

    Chapter 03 – Development of chitosan biofilms as a biocompatible matrix for incorporation of Croton cajucara Benth loaded into SNEDDS nanoemulsion systems applied as wound dressings on in vivo experimental model and its histopathological studies

    Chapter 04 – Layered double hydroxides (LDHs) as promising electrode materials for commercial supercapacitors

    Chapter 05 –

    Chapter 06 – Applications and Industrialisation of Nanotechnology

    Chapter 07 – Novel Synthesis for Functional Polymers and Nanomaterials: Electrochemical Synthesis; Molecular Imprinting Synthesis; Molecular-Level Hybridization

    Chapter 08 – Principles and Functionalization of Thermoplastic Elastomers for Use in the Energy, Environment and Healthcare Sectors

    Chapter 09 – Copaiba oil as a natural product challenge in the chemistry, pharmacological and biotecnological fields

    Chapter 10 – Nanotechnology: a powerful therapeutic strategy for naturally derived anticancer agents
  • 49. Fabrication technology of biofiber based biocomposites (in Advances in Bio-Based Fiber)Fabrication technology of biofiber based biocomposites.pdf
    Sanjiv Sonkaria Soo-Kyung Hwang Hyun Joong Kim
    Elsevier Science, pp. 511-551, ISBN : 978-0-12-824543-9 (2021)
    Fabrication technology of biofiber based biocomposites (in Advances in Bio-Based Fiber)
    Edited by Sanjay Mavinkere Rangappa, Madhu Puttegowda, Jyotishkumar Parameswaranpillai, Suchart Siengchin, Sergey Gorbatyuk

    1. Introduction to bio-based fibers and their composites
    2. Synthesis and surface treatments of bio-based fibers
    3. Properties of bio-based fibers
    4. Preparation methods of biofiber-based polymer composites
    5. Static mechanical properties of biofiber-based polymer composites
    6. Thermal properties of biofiber-based polymer composites
    7. Dielectric properties of biofiber-based polymer composites
    8. Tribological properties of biofiber-based polymer composites
    9. Advances and applications of biofiber-based polymer composites
    10. Optimization of parametric study on drilling characteristics of sheep wool reinforced composites
    11. Investigating the tribological behavior of biofiber-based polymer composites and scope of computational tools
    12. Properties of filler added biofiber-based polymer composite
    13. Advances and applications of biofiber polymer composites in regenerative medicine
    14. Keratin-based biofibers and their composites
    15. Biofiber composites in building and construction
    16. Evaluating biofibers’ properties and products by NIR spectroscopy
    17. Impact strength retention and service life prediction of 0 degree laminate jute fiber woven mat reinforced epoxy composites
    18. Acoustic and mechanical properties of biofibers and their composites
    19. Identification of the elastic and damping properties of jute and luffa fiber-reinforced biocomposites
    20. Tribological characterization of biofiber-reinforced brake friction composites
    21. Investigation of the mechanical properties of treated and untreated Vachellia farnesiana fiber based epoxy composites
    22. Study on the degradation behavior of natural fillers based PLA composites
    23.
    24. Rheological properties of biofibers in cementitious composite matrix
    25. Advances and applications of biofiber-based polymer composites
    26. Future scope of biofiber-based polymer composites
    27. Engineering applications of biofibers
    28. Performance of cementitious composites incorporating coconut fibers as reinforcement
    29. The effect of modified natural fibers on the mechanical properties of cementitious composites
    30. Challenges and solutions for the use of natural fibers in cementitious composites
    31. Biofibers of papaya tree bast: a statistical study of the mechanical properties for use potential in polymeric composites
    32. Coir fiber as reinforcement in cement-based materials
    33. Environmental impact analysis of plant fibers and their composites relative to their synthetic counterparts based on life cycle assessment approach
  • 48. Chitosan-based Biocomposites for Biomedical Application (in Value Added Biocomposites: Technology, Innovation, and Opportunity)Chapter11.pdf
    Chong-Su Cho Soo-Kyung Hwang Hyun-Joong Kim
    CRC Press, pp. 1-17, ISBN : 9780367679262 (2021)
    Chapter 1 Introduction to Biomass and Biocomposites
    Tibor Alpar, K. M. Faridul Hasan, and Peter Gyorgy Horvath
    Chapter 2 Influence of Natural Fibers and Biopolymers on the
    Biocomposites Biodegradation
    L. Joana Rodriguez and Carlos E. Orrego
    Chapter 3 Property Analysis and Characterization of Biomass-Based Composites
    Tejas Pramod Naik, Ujendra Kumar Komal, and Inderdeep Singh
    Chapter 4 Tensile Properties Analysis and Characterizations
    of Single Fiber and Biocomposites: A Weibull Analysis and Future Trend
    Mohamad Zaki Hassan, Mohamad Ikhwan Ibrahim,
    and SM Sapuan
    Chapter 5 Crashworthiness Measurement on Axial Compression Loading of Biocomposite Structures: Prospect Development
    Mohamad Zaki Hassan Zainudin A. Rasid, Rozzeta Dolah, SM Sapuan, and Siti Hajar Sheikh Md. Fadzullah
    Chapter 6 Structure and Surface Modification Techniques for Production of Value-Added Biocomposites
    Chaniga Chuensangjun, Sarote Sirisansaneeyakul, and
    Takuya Kitaoka
    Chapter 7 Design and Fabrication Technology in Biocomposite Manufacturing
    K. M. Faridul Hasan, Peter Gyorgy Horvath, Kovacs Zsolt, and Tibor Alpar
    Chapter 8 Progress in Development of Biorefining Process: Toward Platform Chemical-Derived Polymeric Materials
    Malinee Sriariyanun, Prapakorn Tantayotai, Y u-Shen Cheng, Peerapong Pornwongthong, Santi Chuetor, and Kraipat Cheenkachorn
    Chapter 9 Biocomposite Production from Ionic Liquids ( IL)-Assisted Processes Using Biodegradable Biomass
    Marttin Paulraj Gundupalli, Kittipong Rattanaporn, Santi Chuetor, Wawat Rodiahwati, and Malinee Sriariyanun
    Chapter 10 Deep Eutectic Solvent-Mediated Process for Productions of Sustainable Polymeric Biomaterials
    Elizabeth Jayex Panakkal, Yu-Shen Cheng, Theerawut Phusantisampan, and Malinee Sriariyanun

    Chapter 12 Starch-Based Biocomposites: Opportunity and Challenge
    Ankit Manral, Ranjana Mishra, and Rahul Joshi
    Chapter 13 Current Status of Utilization of Agricultural Waste and Prospects in Biocomposites
    Pervinder Kaur and Harshdeep Kaur
    Chapter 14 Applications of Biocomposites in Reduction of Environmental Problems
    Chukwuma Chris Okonkwo, Francis Odikpo Edoziuno, Adeolu Adesoji Adediran, and Kenneth Kanayo Alaneme
  • 47. Nanoscale Configuration of Clay-Interlayer Chemistry: A Precursor to Enhancing Flame Retardant Properties (in Flame Retardant and Thermally Insulating Polymers)
    Sanjiv Sonkaria Hyun Joong Kim Edited by Yanfei Xu
    IntechOpen, pp. 1-27, ISBN : 978-1-83968-715-0 (2021)
    1. Introduction
    2. Igniting low dimensional chemistry to extinguish flame propagation
    3. Current challenges in flame retardant design
    4. Polymers - a fire safety perspective
    5. Nanoclays composites: challenging the role of conventional flame retardant mode of action
    6. Synergistic effects of nanoclays
    7. Concluding comments
  • 46. Formaldehyde: Polymer Surface Chemistry and Detection (in Comprehensive Guide to Formaldehyde)formaldehyde.pdf
    Sanjiv Sonkaria Hyun-Joong Kim
    Nova Science Pub Inc, pp. 47-85, ISBN : 978-1-53619-465-4 (2021)
    Chapter 1. Thermal Curing Characteristics of Bisbenzoxazines Based on 4,4′-Diaminodiphenyl Sulfone and 4,4′-Dihydroxy Diphenyl Sulfone and Thermal Degradation of Thermosets Derived from These Monomers



    Chapter 3. Electrochemical Assessment of Formaldehyde with Doped Nanorod Materials

    Chapter 4. Thermal Studies on Styryl Modified Resorcinolic Resin – Formaldehyde Donor Adhesion Systems for Rubber Industry
  • 45. Pressure-Sensitive Adhesives for Flexible Display Applications (in Hybrid Nanomaterials)
    Co-Author(s): Tae-Hyung Lee Ji-Soo Kim Jung-Hun Lee Hyun-Joong Kim Rafael Vargas-Bernal
    InTech, pp. 67-82, ISBN : 978-1-83880-338-4 (2020)
    1. Introductory Chapter: Hybrid Nanomaterials
    2. Electronic Transport in Few-Layer Black Phosphorus
    3. Synthesis of Three-Dimensional Nanocarbon Hybrids by Chemical Vapor Deposition
    4. Hybrid Ion Exchangers

    6. Numerical Simulation and Compact Modeling of Thin Film Transistors for Future Flexible Electronics
    7. Smart Manufacturing Technologies for Printed Electronics
    8. Plastic Inorganic Semiconductors for Flexible Electronics
  • 44. 제4장 4.10. 접착제 산업 (in 한국산업기술발전사-화학)화학_pdf.pdf
    김현중, 장성욱
    제4장 정밀화학 산업 404

    4.1 화장품 산업 405
    4.1.1 한국 화장품 산업의 전개 405
    4.1.2 가내 수공업에서 선진 기술제휴까지 (~1960년대) 407
    4.1.3 1970년대 다양한 제형 개발 409
    4.1.4 1980년대 세대별 기호 반영 410
    4.1.5 1990년대 신세대에 맞춘 제품 개발 411
    4.1.6 2000년대 첨단 생명과학과 IT의 만남 412
    4.1.7 2010년대 고객의 생각을 연구하다 414

    4.2 비누 샴푸 산업 415
    4.2.1 비누, 샴푸 국내 생산 시작 416
    4.2.2 국산화와 자동화 418
    4.2.3 기능성 제품 개발 421
    4.2.4 한국의 미를 담아낸 기술개발 424

    4.3 안료 산업 427
    4.3.1 한국 안료 산업의 변천 427
    4.3.2 주요 안료 제조사 430
    4.3.3 안료의 구분 : 유기, 무기, 기능성 432

    4.4 도료 산업 436
    4.4.1 도료 산업의 태동 438
    4.4.2 도료 산업의 고속성장(1970~1980년대) 439
    4.4.3 기술 선진화와 고기능·친환경 제품
    (1990년대 이후) 441
    4.4.4 국내 도료 시장 현황 444
    4.4.5 환경규제와 향후 발전 방향 445
    4.5 반도체 공정소재 산업 447

    4.5.1 개요 447
    4.5.2 기술도입(1988~1996)
    : 포토레지스트 국산화 개발 450
    4.5.3 기술력 향상과 경쟁력 증가
    (1996~2002) 453
    4.5.4 선도 기술로 전환(2002~2012) 454
    4.5.5 선도 기술개발과 기술전망
    (2012년 이후) 457

    4.6 이차전지 소재 산업 458
    4.6.1 개요 458
    4.6.2 이차전지 소재별 기술 459
    4.6.3 전지 기술 463

    4.7 디스플레이 산업용 소재 산업 470
    4.7.1 개요 470
    4.7.2 디스플레이용 소재 기술 : LG화학 473
    4.7.3 디스플레이 공정용 소재 기술
    : 동진쎄미켐 492

    4.8 실리콘 웨이퍼 산업 499
    4.8.1 실리콘 웨이퍼 기술 500
    4.8.2 한국 실리콘 웨이퍼 산업 전개 501
    4.8.3 기술도입(1983~1993)
    : 100, 125, 150mm 제품 기술 502
    4.8.4 기술체화(1994~2000)
    : 200mm 제품 기술 503
    4.8.5 기술성장(2001~2008)
    : 300mm 제품 기술 505
    4.8.6 첨단 기술로 전환(2009~)
    : 첨단 소자용 300mm 제품 기술 506

    4.9 계면활성제 산업 508
    4.9.1 한국의 계면활성제 산업 509
    4.9.2 다양한 산업 분야별 기술발전 510
    4.9.3 계면활성제 개발 방향 519









    4.11 촉매 산업 530
    4.11.1 개요 530
    4.11.2 기업사례 1 : SK이노베이션 530
    4.11.3 기업사례 2 : 희성촉매 531
  • 43. Lignin-based Adhesives and Coatings (in Lignocellulose for Future Bioeconomy)
    Co-Author(s): Tanveer Ahmed Khan Jung-Hun Lee Hyun-Joong Kim (pp. 153-205) Edited by Hidayah Ariffin S.M. Sapuan Mohd Ali Hassan
    Elsevier Science, p. 360, ISBN : 978-0-12-816354-2 (2019)
    Table of Contents

    1. Potential Tropical Species for Bioenergy
    Ahmad Ainuddin

    2. Superheated Steam Pretreatment for Surface Modification of Lignocellulosic Materials
    Noor Ida Amalina

    3. Lignocellulose structure and the effect on bioproducts
    Ferial Ghaemi

    4. Multi-step pretreatment for cellulose separation
    Hidayah Ariffin

    5. Fermentable sugars from oil palm biomass: potential, issues and challenges
    Mior Ahmad Khushairi Mohd Zahari

    6. Lignocellulose based fibres and their composites: preparation, properties and applications
    Sabu Thomas

    7. Cellulose Nanofiber Production from Oil Palm Biomass
    Hidayah Ariffin

    8. One-pot nanofibrillation and nanocomposites production through extrusion
    Haruo Nishida

    9. Tannin-based Bioresin as Adhesive
    Paridah Md Tahir

    10. Oligosaccharides from Hemicellulose
    Mohd Rafein Zakaria
















    12. Effect of stacking sequence of kenaf/glass fiber bands on filament winding hybrid energy absorption composite tubes
    S.M. Sinon

    13. Natural fibre reinforced biopolymer composites: Review
    S.M. Sinon

    14. Sustainability of oil palm biomass-based products
    Mohd Ali Hassan

    15. R&D and Industrialization of Cellulose Nanofibers in Japan
    Satoshi Hirata

    16. Biopolymer innovations and product development for packaging applications
    Jan E.G. van Dam

    17. Oil Palm Biomass Biorefinery for Future Bioeconomy in Malaysia
    Mohd Ali Hassan

    18. The Finnish way of the future bioeconomy
    Orlando J. Rojas

    19. Bioresources and biocommodities for the global bioeconomy
    Jan E.G. van Dam

    20. Lignocellulose in Malaysian Bio Economy: The review of Bio Economy Transformation Program (BTP) 
    Zaiton Samdin

    21. Design and fabrication of shoe shelf from kenaf fibre reinforced unsaturated polytester composites
    S.M. Sinon
  • 42. Fatigue Delamination of Carbon Fiber-reinforced Polymer-matrix Composites (in Failure Analysis in Biocomposites, Fibre-Reinforced Composites and Hybrid Composites)
    Co-Author(s) : Tanveer Ahmed Khan Hoon Kim Hyun-Joong Kim (pp. 1-28) Edited by Mohammad Jawaid Mohammad Thariq Naheed Saba
    Elsevier Science, p. 245, ISBN : 978-0081-02-2931 (2018)














    Chapter 2

    Investigation of the Deformation Behavior of Epoxy-based Compostie Materials

    Author(s) : Hind Abdellaoui, Marya Raji, Rachid Bouhfid, Abou el kacem Qaiss

    2.1. Introduction
    2.2. Thermosetting matrix: epoxy
    2.3. Mechanisms of rupture and damage of composites based on epoxy
    2.4. Epoxy reinforced composites
    2.5. Rupture criteria
    2.6. Conclusion
    References

    Chapter 3

    Effects of Strain Rate on Failure Mechanisms and Energy Absorption in Polymer Composites

    Author(s) : M.R. Nurul Fazita, H.P.S. Abdul Khalil, A.Nor Amira Izzati, Samsul Rizal

    3.1. Introduction
    3.2. Energy absorption capability
    3.3. Failure mechanisms
    3.4. Strain rate
    3.5. The effect of strain rate on the failure mechanisms and energy absorption
    3.6. Conclusions
    References

    Chapter 4

    Bolted joint Behavior of Hybrid Composites

    Author(s) : Ng Lin Feng, Sivakumar Dhar Malingam, Siva Irulappasamy

    4.1. Introduction
    4.2. Overview of hybrid composite materials
    4.3. Structural applications of bolted joint
    4.4. Factors influencing the bearing strength of hybrid composites
    4.5. Failure analysis of hybrid composite due to bolted joint
    4.6. Conclusions
    References

    Chapter 5

    Failure Analysis and The Optimal Toughness Design of Sheep–Wool reinforced Epoxy Composites

    Author(s) : K.N. Bharath, G.B. Manjunatha, K. Santhosh

    5.1. Introduction
    5.2. Experimental details
    5.3. Results and discussion
    5.4. Linear regressions
    5.5. Conclusion
    References

    Chapter 6

    Edge Crack Effect on Tensile Behavior of Diversified Wood Particulate Composites

    Author(s) : Nadendla Srinivasababu

    6.1. Introduction
    6.2. Discarded particulate natural fiber materials
    6.3. Preparation of particulate composites and testing
    6.4. Results and discussion
    6.5. Conclusions
    References

    Chapter 7

    Investigation of Mechanical Testing on Hybrid Composite Materials

    Author(s) : Mohd Hafizal Hamidon, M.T.H. Sultan, Ahmad Hamdan Ariffin

    7.1. Introduction
    7.2. Methodology
    7.3. Failure analysis on tensile and compression
    7.4. Conclusions
    References

    Chapter 8

    Cracks, Microcracks, and Fracture Toughness of Polymer Composites: Formation, Testing Method, Nondestructive Detection, and Modifications

    Author(s) : M.A.A zmah Hanim, Dermot Brabazon, M.S.J. Hashmi

    8.1. Introduction
    8.2. Formation of cracks and microcracks in polymeric composites
    8.3. Fracture mechanics in polymeric composites
    8.4. Detection of cracks and microcracks using the nondestructive testing method in a polymeric composite
    8.5. Current modifications to improve fracture toughness for polymeric composites
    8.6. Conclusion
    References

    Chapter 9

    Shape Memory Polymer and Its Composites as Morphing Materials

    Author(s) : M.H. Mat Yazik, M.T.H.Sultan

    9.1. Introduction
    9.2. Concept of shape memory polymer
    9.3. History of shape memory polymer
    9.4. Reinforcement of shape memory polymer (SMP)
    9.5. Applications of shape memory polymer (SMP)/shape memory polymer composites (SMPC)
    9.6. Conclusion
    References

    Chapter 10

    Fabric-Reinforced Cementitious Matrix (FRCM) Composites: Mechanical Behavior and Application to Masonry Walls

    Author(s) : Fulvio Parisi, Costantino Menna, Andrea Prota

    10.1. Introduction
    10.2. Mechanical behavior of FRCM composites
    10.3. Mechanical behavior of masonry walls with FRCM strengthening
    10. 4. Conclusions
    References

    Chapter 11

    Failure Analysis in Hybrid Composites prepared Using Industrial Wastes

    Author(s) : V. Arumugaprabu, Tae Jo Ko, M. Uthayakumar, R. DeepakJoel Johnson

    11.1. Introduction
    11.2. Materials and methods
    11.3. Mechanical performance studies on the hybrid composites
    11.4. Effect of industrial waste-filled hybrid composites on the mechanical performance
    11.5. Failure analysis of the hybrid composites with industrial wastes
    11.6. Conclusions
    References

    Index
  • 41. Flame Retardant Nano-Composites containing Nano-Fillers (in Science and Applications of Tailored Nanostructures)
    Co-Author(s): Hoon Kim Ji-Won Park Hyun-Joong Kim (pp. 2-24) Edited by Professor Paolo Di Sia
    One Central Press, p. 250, ISBN : 978-1-910086-19-3 (2017)


















    Chapter 2

    Nanostructures Fabricated by Laser Techniques for Sensors Applications

    Author(s): Aurelian Marcu, Cristian Viespe


    Chapter 3

    Carbon Nanotube Based Sensors on Polymer Substrates for Pressure and Strain Measurements

    Author(s): Alex Hariz, Ming Foey Teng


    Chapter 4

    Polymer nanocomposites – synthesis techniques, classification and properties

    Author(s): Waseem. S. Khan, Nawaf. N. Hamadneh, Waqar A. Khan



    Chapter 5

    Oxide semiconductor nanoparticles for infrared plasmonic applications

    Author(s): Hiroaki Matsui, Hitoshi Tabata



    Chapter 6

    Quantum Dots versus Dyes in Sensitized Solar Cells: Synthesis, Optimization, Performance

    Author(s): Bogdan – Catalin Serban, Marius Bumbac, Octavian Ionescu, Viorel Dumitru, Mihai Brezeanu, Octavian Buiu, Cornel Cobianu



    Chapter 7

    Systematic study of organic solar cells cross-section by EDS to correlate donor-acceptor vertical concentration gradients and device performances

    Author(s): Varun VOHRA, Nur Tahirah Razali and Hideyuki Murata



    Chapter 8

    Welded metal nanowire networks for transparent electrode

    Author(s): Force Tefo Thema, Ishaq Ahmad, Javed Iqbal and Maaza Malik


    Chapter 9

    Nanopowders synthesized by solution combustion method and their applications

    Author(s): Sung Park, Jae Chun Lee


    Chapter 10

    Smart Materials with Future Application in Drug Delivery

    Author(s): Dr Maryam Malekigorji and Dr Clare Hoskins


    Chapter 11

    Nanotechnology, Nanomaterials and Thin Films for Energy Applications

    Author(s): L.L. Noto, F.V. Molefe, P.S. Mbule, G. Kabongo, M. Khenfouch, B.M. Mothudi, M.S. Dhlamini


    Chapter 12

    Metal Nanocomposites: Synthesis, Characterization and their Applications

    Author(s): Ambreen Lateef, Rabia Nazir
  • 40. 9장 전기·전자용 점·접착소재 (in 고분자제품 접착)
    공동저자 김현중, 박지원 (pp. 166-182) 대표저자 김진국
    가람출판사, p. 231, ISBN : - (2017)
    1장 고무 접착 기술
      1.1 개요
      1.2 접착제용도
      1.3 접착이론
      1.4 고무배합
      1.5 접착을 위한 피착체의 표면처리법
      1.6 접착제 사용기술
      1.7 고무와 금속
      1.8 프라이머 및 접착제 도포
      1.9 고무와 금속접착
      1.10 접착불량의 교정
      1.11 접착불량

    2장 접착과 코팅
      2.1 서론
      2.2 접착
      2.3 표면처리를 이용한 복합체의 기계적 물성 변화
      2.4 코팅
      2.5 코팅의 방법과 기술
      2.6 결론

    3장 고무계 접착제 기술
      3.1 개요
      3.2 고무계 접착제 종류
      3.3 고무계 접착제
      3.4 용제 규제
      3.5 향후 고무계 접착제의 동향

    4장 타이어코드 접착
      4.1 개요
      4.2 접착 개론
      4.3 RFL 처리
      4.4 Polyester-고무 접착

    5장 Brass coated steel cord와 rubber compound와 접착
      5.1 개요
      5.2 NR-base polymer에서 집착 system의 최적화 연구
      5.3 맺음글
      5.4 참고 문헌

    6장 신발용 접착제Ⅰ
      6.1 개요
      6.2 신발과 접착과 접착제
      6.3 갑피와 창의 접착 준비공정
      6.4 신발용 접착제
      6.5 맺음글

    7장 신발용 접착제 Ⅱ
      7.1 접착 개요
      7.2 접착 공정
      7.3 접착 강도
      7.4 접착제의 종류
      7.5 신발용 접착제 개발 현황
      7.6 맺음글

    8장 오일씰 접착 기술
      8.1 개요
      8.2 오일씰의 접착공정
      8.3 오일씰의 접착불량


      
      
      
      

    10장 3D프린팅에서의 고분자재료 응용
      10.1 3D 프린팅
      10.2 3D 프린팅 기술 분류
      10.3 3D 프린팅용 고분자재료
      10.4 Soft한 프린팅용 탄성체 고분자재료
      10.5 3D 프린팅용 고분자재료의 사용 시 공정 분량
      10.6 3D 프린팅용 고분자재료의 개발현황

    11장 분말 이용 3D 프린팅과 접착
      11.1 개요
      11.2 파우더 베드 프린팅(Powder Bed Printing(PBP))
      11.3 잉크젯 프린팅
      11.4 접착제
      11.5 PBP방식 3D 프린터 소재개발-PET 분말/바인더
  • 39. Renewable Biocomposite Properties and their Applications (in Composites from Renewable and Sustainable Materials)
    Co-Author(s): Thimmapuram Ranjeth Kumar Reddy Hyun‑Joong Kim and Ji-Won Park (pp. 177-197) Edited by Matheus Poletto
    InTech, p. 332, ISBN : 978-953-51-2793-2 (2016)
    Contents

    Chapter 1 Polyolefine Composites Reinforced by Rice Husk and Saw Dust..... 1
    Thi Thu Loan Doan, Hanna M, Brodowsky and Edith Mader

    Chapter 2 Characterization of Rice Husk Biofibre-Reinforced Recycled Thermoplastic Blend Biocomposite..... 25
    Ruey Shan Chen and Sahrim Ahmad

    Chapter 3 High-Content Lignocellulosic Fibers Reinforcing Strach-Bssed Biodegradble Composites : Properties and Applications..... 45
    Sherif Mehanny, Lamis Darwish, Hamdy lbrahim, Mohamed Tarek, El-Waked and Mahmoud Farag

    Chapter 4 Polysaccharides as Composite Biomaterials..... 65
    Izzati Fatimah Wahab and Saiful Izwan Abd Razak

    Chapter 5 Thermoplastic Starch (TPS)-Celluosic Fibers Composites:
    Mechanical Properties and Water Vapor Barrier: A Review.....85
    Emilio Perez-Pacheco, Jorge Carlos Canto-Pinto, Victor Manuel
    Moo-Huchin, Ivan Alfredo Estrada-Mota, Raciel Javier Estrada-Leon and Luis Chel-Guerrero

    Chapter 6 Composite Coatings Based on Renewable Resources Synthesized by Advanced Laser Techniques.....107
    Anita-loana Visan, Carmen-Georgeta Ristoscu and Ion N. Mihailesccu

    Chapter 7 Biodegradable Polyactide-Baed Composties.....133
    Ester Zuza, Emilio Meaurio and Jose-Ramon Sarasua

    Chapter 8 The Role of Biopolymers in Obtaining Environmentally Friendly Materials.....151
    Rodolfo Rendon-Villalobos, Amanda Ortiz-Sanchesz, Efrain Tovar-Sanchez and
    Emmanuel Flores-Huicochea

    Chapter 9 Waste and Recycled Materials and their Impact on the Mechanical Properties of Construction Composite Materials.....162
    Gonzalo Martinez-Barrera Nelly Gonzalez-Rivas, Enrique Vigueras-Santiago
    Angel Martinez-Lopez, Jorge A. Tello-Gonzalez and Carmina Menchaca-Campos


  • 38. Bio-nanocomposite Properties and its Food Packaging Applications (in Polymer Science: Research Advances, Practical Applications and Educational Aspects)
    Co-Author(s) : T. Ranjeth Kumar Reddy Hyun-Joong Kim Ji-Won Park (pp. 77-88) Edited by A. Mendez-Vilas A. Solano-Martin
    Formatex Research Center, p. 591, ISBN : 978-84-942134-8 (2016)












  • 37. Cellulose Nanofibers in Adhesive Application (in Nanocellulose, Cellulose Nanofibers and Cellulose Nanocomosites: Synthesis and Application)
    Co-Author(s) : Hyun-Joong Kim Jackapon Sunthornvarabhas Ji-Won Park (pp. 319-332) Edited by MD. Ibrahim, H. Mondal
    Nova Science Pub Inc, p. 540, ISBN : 978-1-63483-885-6 (2015)
    Nanocellulose, Cellulose Nanofibers and Cellulose Nanocomposites: Synthesis and Applications

    Chapter 1
    Nanocellulose: Synthesis and Application
    (Ali Jebali, Seyedhossein Hekmatimoghaddam, Iraj Rezapour and Aliasghar Behzadi, Department of Laboratory Sciences, School of Paramedicine, Shahid Sadoughi University of Medical Sciences, Yazd, Iran)

    Chapter 2
    Nanocellulose: Production and Properties
    (Jorge A. V. Cock, Jean-Luc Putaux, Marlon A. O. Delgado, Cristina I. C. Herazo, Piedad G. Rojo and Robin Z. Gallego, Facultad de Ingeniería Química, Universidad
    Pontificia Bolivariana, Medellín, Colombia, and others)

    Chapter 3
    Extraction of Cellulose Nanocrystals from Natural Fibers and Their Composites for Biomedical Applications
    (M. Saifur Rahaman, Jahid M. M. Islam, Abdullah Al-Jubayer, A. H. Mostofa Kamal, Mubarak A. Khan and Md. Ibrahim H. Mondal, Institute of Radiation and Polymer Technology, Bangladesh Atomic Energy Commission, Dhaka, Bangladesh, and others)

    Chapter 4
    Extraction of Nanocellulose from Natural Sources: Potential Applications in a Nanocomposite Approach
    (Debora Puglia, Elena Fortunati, Luigi Torre and Jose M. Kenny, University of Perugia, Civil and Environmental Engineering Department, Materials Engineering Center, UdR INSTM, Terni, Italy)

    Chapter 5
    Bacterial Cellulose Nanocrystals: Synthesis, Characterisation and Applications
    (Johnsy George, Shanmugham N. Sabapathi, Karna V. Ramana and Siddaramaiah, Defence Food Research laboratory, Siddarthanagar, Mysore, Karnataka state, India, and others)

    Chapter 6
    Potential of Bacterial Nanocellulose for Wound Dressings
    (Genqiang Chen, Lin Chen and Feng Hong, Group of Microbiological Engineering and Industrial Biotechnology, College of Chemistry, Chemical Engineering and Biotechnology, Donghua University, Shanghai, PR China, and others)

    Chapter 7
    Microwave and Ultrasound Assisted Degradation of Cellulose and Isolation Processes of Cellulose Nanocrystals
    (Alojz Anžlovar, Majda Žigon and Ema Žagar, Laboratory for Polymer Chemistry and Technology, National Institute of Chemistry, Ljubljana, Slovenia)

    Chapter 8
    Electrospinning of Cellulose and Cellulose Derivatives
    (Ali A. Merati and Najmeh Moazeni, Advanced Textile Materials and Technology Research Institute (ATMT), Amirkabir University of Technology, Tehran, Iran)

    Chapter 9
    Advances in Bacterial Cellulose Nanofibers: From Production to Utilization
    (Minakshi Goyat and Yaser Dahman, Department of Chemical Engineering, Ryerson University, Toronto, Ontario, Canada)

    Chapter 10
    Active Bio-based Packaging: Toward Nanofibrillated Cellulose Applications
    (Nathalie Lavoine and Julien Bras, Laboratory of Pulp and Paper Science and Graphic Arts, Saint-Martin d'Hères Cedex, France)

    Chapter 11
    Bagasse as an Important Promising Agricultural Residue for Nanofibrillated Cellulose: A Valorization Strategy
    (Seyed R. D. Petroudy, Department of Cellulose and Paper Technology, Zirab Science and Technology Park, Faculty of New Technologies and Energy Engineering, Shahid Beheshti University (SBU), Tehran, Iran)

    Chapter 12
    Application of Nanofibrillated Cellulose for Papermaking
    (Pejman R. Charani and Mohammad H. Moradian, Department of Wood and Paper science and Technology, Behbahan Khatam Alanbia University of Technology, Behbahan, Iran)







    Chapter 14
    Bionanocomposites Based on Biopolymers and Nanocellulose
    (Aitor Arbelaiz, Gurutz Mondragon, Ander Orue, Cristina Peña and Arantxa Eceiza, „Materials + Technologies‟ Group, Dpto. Ingeniería Química y M. Ambiente, Escuela Politécnica, Universidad del País Vasco/Euskal Herriko Unibertsitatea (UPV/EHU), Donostia-San Sebastián, Spain)

    Chapter 15
    Polyurethane Bionanocomposites as Stimuli-Responsive Smart Materials
    (Ainara Saralegi, María Á. Corcuera and Arantxa Eceiza, Laboratory of Separation and Reaction Engineering (LSRE)-Associate Laboratory LSRE/LCM, Polytechnic Institute of Bragança, Campus Santa Apolónia Ap., Bragança, Portugal)

    Chapter 16
    Synthesis of Quantum Dot Doped Electrospun Cellulose and Other Polymer Based-nanocomposites and Their Applications
    (Shah M. R. Billah, CCIRA UK Limited, UK, Department of Chemistry, Durham University, Durham DH1 3LE, UK, School of Textiles and Design, Heriot-Watt University, Galashiels TD1 3HF, UK)

    Chapter 17
    Synthesis of Photochromic Dye Doped Cellulose Composite Based Electrospun Nanofibres for High-tech Applications
    (Shah M. R. Billah, CCIRA UK Limited, UK, Department of Chemistry, Durham University, Durham DH1 3LE, UK, School of Textiles and Design, Heriot-Watt University, Galashiels TD1 3HF, UK)

    Chapter 18
    Nanophased Cellulose-Based Structural Composites
    (Mohammad K. Hossain and Shamim A. Begum, Department of Mechanical Engineering, Tuskegee University, Tuskegee, AL, USA, and others)

    Chapter 19
    Hybrids Materials based on Bacterial Cellulose for Electromagnetic Interference Shielding Applications
    (Jéssica A. Marins and Bluma G. Soares, Universidade Federal do Rio de Janeiro/ Instituto de Macromoléculas - Centro de Tecnologia, Rio de Janeiro, RJ, Brazil)

    Chapter 20
    Synthesis and Assessment of Peptide-Nanocellulosic Biosensors
    (Krystal R. Fontenot, J. Vincent Edwards, Nicolette Prevost, Sunghyun Nam, Monica Concha and Brian Condon, Southern Regional Research Center, USDA, New Orleans, LA, USA)
    Free Download Available

    Chapter 21
    Nanofinishing of Cotton Fabrics
    (Narayanan gokarneshan, Palanisamy Gopalakrishnan and Ballad Jeyanthi, NIFT TEA College of knitwear fashion, Tirupur, India, and others)
  • 36. Electrical and Optical Properties of Nanocellulose Films and Its Nanocomposites (in Handbook of Polymernanocomposites. Processing, Performance and Application - Volume C:)
    Co-Author(s) : Hyun-Joong Kim Hyeok-Jin Kwon Sera Jeon Ji-Won Park Jackapon Sunthornvarabhas Klanarong Sriroth (pp. 395-432) Edited by Jitendra K. Pandey Hitoshi Takagi Antonio Norio Nakagaito Hyun-Joong Kim
    Springer, p. 475, ISBN : 978-3-642-45231-4 (2015)

















  • 35. Proceedings of the First International Conference on Construction Materials and Structures (in Construction Materials and Structures)
    Co-Author(s) : Ji-Won Park Jung-Hun Lee Hee-Chun Choi Hyun-Joong Kim Hyun-Min Jang Jung-Yun Choi (pp. 526-531) Edited by S.O. Ekolu M. Dundu X. Gao
    IOS Press, p. 1533, ISBN : 978-1-61499-466-4 (2014)




    Abstract
  • 34. Polysaccharide Bio-Based Composites: Nanofiber Fabrication and Application (in Bio-Based Composites for High-Performance Materials)
    Co-Author(s) : Jackapon Sunthonrvarabhas Klanarong Sriroth Hyun-Joong Kim (pp. 149-166) Edited by Wirasak Smitthipong Rungsima Chollakup Michel Nardin
    CRC Press, p. 325, ISBN : 978-1-4822-1448-2 (2014)