• Title/Summary/Keyword: Bio-polymer

Search Result 398, Processing Time 0.02 seconds

Evaluation of Mechanical Characteristics of Castor Oil Based Bio-Polymer Concretes for Ultra Thin Overlays (피마자유를 이용한 초박층 덧씌우기용 바이오 폴리머 콘크리트의 역학적 특성 평가)

  • Park, Hee Mun;Choi, Ji Young;Kim, Tae Woo;Ahn, Young Jun;Le, Van Phuc
    • International Journal of Highway Engineering
    • /
    • v.15 no.2
    • /
    • pp.39-45
    • /
    • 2013
  • PURPOSES : The objective of this study is to evaluate the mechanical characteristics of castor oil based bio-polymer concrete for use of ultra thin overlays. METHODS : To evaluate the mechanical properties of bio-polymer concrete, the various laboratory tests including compressive, tensile, and flexural strength, and elongation tests were conducted on bio-polymer concrete specimens in this study. The mechanical characteristics of bio-polymer concretes were examined by changing the content of hardener and polymer binder to determine the optimum content for ultra-thin overlays. The bio-polymer concrete developed in this study was used for field trial test of the ultra-thin bridge deck pavement for verifying the workability and monitoring the long-term performance of materials. RESULTS : Test results showed that tensile and the flexural strength of bio-polymer concretes increase and the elongation of bio-polymer concrete decreases with increase of binder content. A field adhesive strength tests conducted on bridge deck pavement indicates the bio-polymer concrete has more than 2MPa of adhesive strength satisfy with the design criteria. CONCLUSIONS : The bio-polymer concrete with more than 20% content of castor oil was developed for ultra-thin overlays in this study. It is found from this study that the 35% of hardener content is most appropriate for maintaining the strength characteristics and flexibility.

A Evaluation of Environmental Resistance for Bio-Polymer Concretes (바이오 폴리머 콘크리트의 환경 저항성 평가 연구)

  • Kim, Je Won;Kim, Tae Woo;Park, Hee Mun;Kim, Bu Il
    • International Journal of Highway Engineering
    • /
    • v.15 no.5
    • /
    • pp.75-79
    • /
    • 2013
  • PURPOSES : The objective of this study is to evaluate the environmental resistance of bio-polymer concrete for use of pavement materials developed for reducing the carbon-dioxide. METHODS : The compression, tension, and bending strength tests were conducted on the bio-polymer concrete specimens with and without environmental conditioning. The specimens were conditioned using the freezing-thaw and accelerated weathering process for long period of time. To assess the resistance against chloride, the chloride ion penetration resistance tests were carried out on the bio-polymer concrete specimens. RESULTS : Test results show that the maximum difference in strength between specimens with and without conditioning is about 2.6MPa indicating that the effect of environmental conditioning on specimen strength is negligible. Based on the chloride ion penetration resistance test, the penetration quantity of electric charge of the specimens is zero and there is no ion penetration within the bio-polymer concrete. CONCLUSIONS : It is found from this study that there is slight change in strength of bio-polymer concretes before and after environmental conditioning process and no chloride ion penetration observed in these specimens. Therefore, the developed bio-polymer concretes can be applied effectively as pavement materials due to the small change of physical properties with environment change.

Durability Performances of Concrete Produced with Recycled Bio-Polymer Based on Sargassum Honeri (괭생이모자반 기반의 자원순환형 바이오 폴리머를 혼입한 콘크리트의 내구성능)

  • Lee, Byung-Jae;Lee, Sun-Mok;Hyun, Jung-Hwan;Kim, Yun-Yong
    • Journal of the Korean Recycled Construction Resources Institute
    • /
    • v.7 no.4
    • /
    • pp.445-451
    • /
    • 2019
  • In this study, we evaluated the durability of concrete produced with recycled polymer that could replace synthetic polymer, which is the main raw material of bridge deck concrete pavement. As a result of the slump and air content test, the requirements of the Korea Highway Corporation Standard were satisfied with all mixing conditions. The slump was lowered when incorporating the recycled bio-polymer, compared to other mix proportions concrete. In contrast, the compressive strength was increased by 6.3~24.4% when the recycled bio-polymer was mixed, compared to the concrete produced with synthetic polymer. It should be noted that the compressive strength was lowered when synthetic polymer was added to concrete mixture. Durability test results showed the best durability when incorporating synthetic polymer. The durability of concrete also increased as the amount of recycled bio-polymer increased, however, the impact was slightly smaller than that of synthetic polymer.

Effect of Electron Beam Irradiation on the Interfacial and Thermal Properties of Henequen/Phenolic Biocomposites

  • Pang, Yansong;Yoon, Sung Bong;Seo, Jeong Min;Han, Seong Ok;Cho, Donghwan
    • Journal of Adhesion and Interface
    • /
    • v.6 no.4
    • /
    • pp.12-17
    • /
    • 2005
  • Natural fiber/phenolic biocomposites with chopped henequen fibers treated at various levels of electron beam irradiation (EBI) were made by means of a matched-die compression molding method. The interfacial property was explored in terms of interfacial shear strength measured by a single fiber microbonding test. The thermal properties were studied in terms of storage modulus, tan ${\delta}$, thermal expansion and thermal stability measured by dynamic mechanical analysis, thermomechanical analysis and thermogravimetric analysis, respectively. The result showed that the interfacial and thermal properties depend on the treatment level of EBI done to the henequen fiber surfaces. The present result also demonstrates that 10 kGy EBI is most preferable to physically modify the henequen fiber surfaces and then to improve the interfacial property of the biocomposite, supporting earlier results studied with henequen/poly (butylene succinate) and henequen/unsaturated polyester biocomposites.

  • PDF

Synthesis of Host Polymers and Guests for Electrophosphorescence

  • Holmes Andrew B.;Chan, Khai-Leok;Cho, Sung-Yong;Evans Nicholas R.;Grimsdale Andrew C.;Mak Chris S.K.;Sandee Albertus J.;Watkins Scott E.;Williams Charlotte K.
    • Proceedings of the Polymer Society of Korea Conference
    • /
    • 2006.10a
    • /
    • pp.21-22
    • /
    • 2006
  • Significant progress has been realized in the design and synthesis of light emitting polymers with emission over the whole range of the visible spectrum. However up to seventy-five percent of charge recombination events can lead to triplet states that decay non-radiatively. Following the pioneering work in the field of small molecule organic light emitting devices it has been found that solution processible iridium polymer complexes can be used to harness the wasted triplet energy. In this paper new results concerning electrophosphorescence of solution processible tethered iridium polymer derivatives will be presented. Furthermore our approaches to the design of new high triplet energy conjugated polymer hosts will be reported.

  • PDF

Synthesis of Host Polymers and Guests for Electrophosphorescence

  • Watkins Scott E.;Chan, Khai Leok;Cho, Sung-Yong;Evans Nicholas R.;Grimsdale Andrew C.;Holmes Andrew B.;Mak Chris S.K.;Sandee Albertus J.;Williams Charlotte K.
    • Macromolecular Research
    • /
    • v.15 no.2
    • /
    • pp.129-133
    • /
    • 2007
  • Significant progress has been realized in the design and synthesis of light emitting polymers that emit over the entire visible spectrum. However, up to seventy-five percent of charge recombination events can lead to triplet states that decay non-radiatively. Following the pioneering work in the field of small molecule organic light emitting devices, it has been found that solution processible iridium polymer complexes can be used to harness the wasted triplet energy. In this paper, new results with respect to the electrophosphorescence of solution processible tethered iridium polymer derivatives are presented. Furthermore, our approaches to the design of new high triplet energy conjugated polymer hosts are also reported.

Mechanical Properties of Repair Mortar Incorporated with Bio Polymer (바이오 폴리머를 이용한 구조물 보수용 모르타르의 역학적 특성 평가)

  • Lee, Sun-Mok;Hyun, Jung-hwan;Kwon, Ki-Seong;Kim, Yun-Yong
    • Journal of the Korea institute for structural maintenance and inspection
    • /
    • v.22 no.6
    • /
    • pp.97-104
    • /
    • 2018
  • In recent years, more than 5,000 tons of sargassum honeri have been infested in the southern coast and the coast of Jeju Island, causing serious damage to the farms and fisheries, and environmental problems. The alginate contained in the sargassum honeri is a natural polymeric substance mainly used for medicines and foods. However, since there is no way to utilize it in large quantities, a study was carried out to utilize bio polymer obtained from sargassum honeri in producing polymer mortar for repairing deteriorated infrastructures. From the tests of setting time, it was found that the L0BP12 mixture containing 12% of bio polymer increased the setting time by 20% as compared with the L12BP0 mixture using only synthetic polymer. From the tests of water absorbtion, the LOBP12 combination decreased by 0.36% compared to Plain-URHC using ultra rapid hardening cement. This indicated that the watertightness of the mortar was increased by the incorporation of the bio polymer. In the compressive and flexural strength tests, the strength decreased as the amount of bio polymer increased. The incorporation rate of the maximum bio polymer satisfying the KS F 4042 standard was determined to be 12%. In addition, the bond strength of the mortar produced with biopolymer was higher than that of Plain-URHC specimens, and it was confirmed that incorporation of bio polymer improves bond strength of mortar.

Bio-Nanotechnology Challenges for Intelligent Materials

  • Aizawa, Masuo
    • Proceedings of the Polymer Society of Korea Conference
    • /
    • 2006.10a
    • /
    • pp.78-79
    • /
    • 2006
  • Bio-nanotechnology challenges have been emerging in development of molecular and cellular intelligent bio-materials, engineered cells for enhancing intelligence, biodevices for diagnosis and prevention, and biodevices for therapeutics and prevention. The perspectives of bionanotechnology challenges are overviewed.

  • PDF