• Title/Summary/Keyword: fibrous microstructure

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Fabrication of Fibrous A12O3-(m-ZrO2)/t-ZrO2 Composites Having 2, 3-Dimensional Array (2,3차원배열을 갖는 섬유상 A12O3-(m-ZrO2)/t-ZrO2 복합재료의 제조)

  • Kim Ki-Hyun;Lee Byong-Taek
    • Korean Journal of Materials Research
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    • v.15 no.9
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    • pp.608-612
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    • 2005
  • Microstructure and mechanical properties of fibrous $A1_2O_3-(m-ZrO_2)/t-ZrO_2$ composite were investigated depending on the dimensional array. By the change of stacking arrangement of fibrous filaments, 2 and 3-dimensional fibrous composites were successfully obtained without bulk defects such as shrinkage cavity and cracks. The maximum mechanical properties were achieved In the 3-dimensional array composite, due to the fine fibrous and dense microstructure control, in which the values of vickers hardness, fracture toughness and bending strength were about 1507 Hv, $7.2MPa{\cdot}m^{1/2}$ and 650 MPa, respectively.

Effects of Three-dimensional Scaffolds on Cell Organization and Tissue Development

  • Yan Li;Yang, Shang-Tian
    • Biotechnology and Bioprocess Engineering:BBE
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    • v.6 no.5
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    • pp.311-325
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    • 2001
  • Tissue engineering scaffolds play a critical role in regulating the reconstructed human tissue development. Various types of scaffolds have been developed in recent years, including fibrous matrix and foam-like scaffolds. The design of scaffold materials has been investigated extensively. However, the design of physical structure of the scaffold, especially fibrous matrices, has not received much attention. This paper compares the different characteristics of fibrous and foam-like scaffolds, and reviews regulatory roles of important scaffold properties, including surface geometry, scaffold configuration, pore structure, mechanical property and bioactivity. Tissue regeneration, cell organization, proliferation and differentiation under different microstructures were evaluated. The importance of proper scaffold selection and design is further discussed with the examples of bone tissue engineering and stem cell tissue engineering. This review addresses the importance of scaffold microstructure and provides insights in designing appropriate scaffold structure for different applications of tissue engineering.

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Microstructure Control of Fibrous Monolithic Al2O3-ZrO2 Composites (섬유단상 Al2O3-ZrO2 세라믹 복합재료의 미세조직제어)

  • Kim, Ki-Hyun;Kim, Taek-Soo;Lee, Byong-Taek
    • Korean Journal of Materials Research
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    • v.13 no.4
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    • pp.213-218
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    • 2003
  • Fibrous monolithic control of$ Al_2$$O_3$ -$ZrO_2$composite was investigated by multi-pass extrusion process. To obtain sound $Al_2$$O_3$-X $O_2$sintered bodies, burning out and sintering process were carefully carried out. The sintered bodies showed continuous, fibrous monolithic microstructure without any swelling. Many microcracks were observed at the $Al_2$$O_3$-$ZrO_2$interfaces due to the mismatching of thermal expansion coefficient between $Al_2$$O_3$ and $ZrO_2$phase. Most of m- $ZrO_2$grains included twin defects such as (001), (010) and (011) type to accommodate the phase transformation induced stress.

Effect of Siliceous Slury Coating on Microstructure of Concrete under Damp Environment (규산질미분말혼합시멘트계도포방수재료가 습윤환경하의 콘크리트의 미세조직에 미치는 영향)

  • 오상근
    • Proceedings of the Korea Concrete Institute Conference
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    • 1992.10a
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    • pp.1-4
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    • 1992
  • This paper deals with the effect of siliceous slurry coating on concrete microstructure under damp environment. This material is mixed inorganic powder consisted of silica, cement and fine sand and water. Water pressure was given on the coated surface of concrete. for estimation on effect of siliceous slurry coating, microstructure of coated concrete was observed through SEM, and chemical components of crystals were analyzed with X-ray diffraction and EDX. A number of needle and fibrous crystals were produced in microstructure. And based on X-ray diffraction and EDX, needle crystal mainly consist of Al, Si, and Ca, and it is concluded to be ettringite. Fibrous crystals consist of Ca and Si, and it to be calcium silicate hydrate.

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Microstructure and Material Properties of Fibrous Al2O3-(m-ZrO2)/t-ZrO2 Composite Depending on the Volume Fraction of Core/Shell (코어/쉘 부피비에 따른 섬유상 Al2O3-(m-ZrO2)/t-ZrO2 복합재료의 미세조직 및 물성)

  • Kim Ki-Hyun;Lee Byong-Taek
    • Korean Journal of Materials Research
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    • v.15 no.12
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    • pp.751-755
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    • 2005
  • Fibrous $Al_2O_3-(m-ZrO_2)/t-ZrO_2$ composites having core/shell structure were fabricated by multi-extrusion process. The effect o volume fraction between core ($Al_2O_3-(m-ZrO_2)$) and shell ($t-ZrO_2$ was investigated to understand the relationship between microstructure and material properites, in which the volume fractions of core and shell were varied as 40:60, 50:50 and 60:40. The material properties o hardness and bending strength were increased as the volume fraction of core was increased, and their maximum values were about 1320 Hv and 750MPa, respectively. However, as the volume fraction of core increased, the values of relative density and fracture toughness were decreased from 97.1 to $96.5\%$ and from $6.5MPa{\cdot}m^{1/2}$ to $5.7MPa{\cdot}m^{1/2}$, respectively.

Study on the Hindered Diffusion Within Disordered-Fibrous Membrane and Gels(I) (불규칙 섬유상(disordered-fibrous) 멤브레인이나 젤(gel)에서의 제한적 확산(hindered diffusion) 현상에 관한 연구(I))

  • 전명석;김재진
    • Proceedings of the Membrane Society of Korea Conference
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    • 1997.10a
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    • pp.139-140
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    • 1997
  • 1. 서론 : 한외 및 정밀여과의 분리메카니즘에 연관된 물리적 현상에 대해 현재까지 진행된 많은 연구들은, 막기공이 갖는 복잡하고 불규칙한 구조를 단순하고 규칙적인 well-defined 구조인 실린더형이나 슬릿형 기공으로 가정하여 문제를 전개하고 있다. 본래, 다공성 매질(porous media)에서의 유체흐름을 다루는 이론 및 실험연구자들에 의해 제안된 섬유상 매질(fibrous media)에 대한 해석은 계의 미세구조(microstructure)에 추계적 개념을 적용시키려는 최근의 추세에 따라 점차 관심이 높아가고 있다.(생략)

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Development of Carbon-Ceramic Composites using Fly Ash and Carbon Fibers as Reinforcement

  • Manocha, S.;Patel, Rakesh
    • Carbon letters
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    • v.7 no.1
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    • pp.27-33
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    • 2006
  • Carbon-ceramic composites were fabricated by using fly ash and PANOX fibers as reinforcement. Fly ash, because of its small size particles e.g. submicron to micron level can be effectively dispersed along with fibrous reinforcements. Phenolic resin was used as carbon precursor. Both dry as well as wet methods were used for forming composites. The resulting composites were characterized for their microstructure, thermal and mechanical properties. The microstructure and mechanical properties of composites are found to be dependent on type of the fly ash, fibrous reinforcements as well as processing parameters. The addition of fly ash improves hardness and the fibers, which get co-carbonized on heat treatment, increase the flexural strength of the carbon-ceramic composites. Composites with dual reinforcement exhibit about 30-40% higher strength as compared to the composites made with single reinforcement, either with fly ash as filler or with chopped fibers.

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