• Title/Summary/Keyword: 필라멘트와인딩 공법

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Experimental Investigation on Relationship of Winding Process Variables and Mechanical Properties for Filament Wound Composites (필라멘트와인딩 복합재의 기계적 특성과 와인딩시 공정변수와의 관계에 대한 실험적 고찰)

  • 윤성호;김준영;황태경
    • Journal of the Korean Society of Propulsion Engineers
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    • v.3 no.2
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    • pp.56-65
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    • 1999
  • The relationship of the winding process variables and the mechanical properties of filament wound composites is investigated experimentally. The winding process variables considered are the fiber tensions and the fiber ends. The filament wound ring specimens are fabricated using 3-axis controlled filament winding machine. Two types of carbon fibers, TZ-507 and IZ-40, are used as reinforcements and epoxy for filament winding is used as resin. During the winding process, the fiber tensions are varied from 0.5kgf to 3.0kgf, and the number of the fiber ends are varied from 1 to 6. The fiber volume fractions and the void contents for the ring specimens are measured through the resin digestion. The mechanical properties of the ring specimens are also evaluated by the split disk test. The test results show that the winding process variables affect the fiber volume fractions and the void contents of the ring specimens, which result in the variation of the tensile properties of the ring specimens. Therefore, suitable winding process variables should be applied to maximize the structural performance and the productivity for filament wound structures.

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Recent Research Trends in Carbon Fiber Tow Prepreg for Advanced Composites (탄소섬유 토우프리프레그 최신 연구동향)

  • Park, Yongmin;Hwang, Tae Kyung;Chung, Sangki;Park, Nohyun;Jang, Jun Yeol;Nah, Changwoon
    • Journal of the Korean Society of Propulsion Engineers
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    • v.21 no.2
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    • pp.94-101
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    • 2017
  • Tow Prepreg is the intermediate material for filament winding process that has been "pre-impregnated fiber tow" with resin system. As "dry filament winding" process emerges as a reliable alternative to conventional filament winding (called "wet filament winding") process, interest in tow prepreg as a material for dry filament winding is rising as well. In this article, we have reviewed the recent research trends in carbon fiber tow prepreg for high-performance rocket motor cases, fuel tanks for hydrogen vehicles and other high-quality commercial pressure vessels.

A Study on the energy absorption characteristics of GFRP circular tubes fabricated by the filament winding method (필라멘트 와인딩 공법 GFRP 원형 튜브의 에너지 흡수특성에 관한 연구)

  • Kim, Geo-Young;Koo, Jeong-Seo
    • Composites Research
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    • v.22 no.4
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    • pp.1-12
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    • 2009
  • In this paper, quasi-static crushing tests of composite circular tubes under axial compression load are conducted to investigate the energy absorption characteristics. Circular tubes used for this experiment are glass/epoxy (GFRP) composite tubes which are fabricated by the filament winding method. One edge of the composite tube is chamfered to reduce the initial peak load and to prevent catastrophic failure during crushing process. Energy absorption characteristics vary significantly according to the constituent materials, fabrication conditions, tube geometry and test condition. In tube geometry, according as inner diameter increase, unstable crush mode is caused by local buckling of delamination, but control of the fiber orientation should help composite tubes get stable crush mode.

Design and Fabrication of Filament Wound Composite Lattice Structures (필라멘트와인딩에 의해 제조된 Lattice 구조물의 설계 및 제작 연구)

  • Doh, Young-Dae;Chung, Sang-Ki;Lee, Sang-Woo;Son, Jo-Hwa
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2010.05a
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    • pp.421-427
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    • 2010
  • This paper is concerned with Anisogrid composite lattice structures whose load bearing shell is formed by systems of geodesic unidirectional composite ribs made by automatic wet winding process. Lattice structures are usually made in the form of cylindrical shell and consist of systems of helical and hoop ribs fabricated by continuous filament winding from carbon and epoxy composites. Design variables of the structure which are the angle of helical ribs, ribs spacings, and cross sectional areas are determined by the method of minimization of satety factors whick is described in the paper. And, fabrication methods and actual experimental results are presented.

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A Study on Stress Analysis for Design of Composites Shaft on Small Ship by Filament Winding Process (필라멘트 와인딩 공법에 의한 소형 선박용 복합재료 축 설계를 위한 응력해석에 관한 연구)

  • 배창원;임철문;왕지석;김윤해
    • Journal of Advanced Marine Engineering and Technology
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    • v.25 no.3
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    • pp.617-622
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    • 2001
  • The purpose of this study is to design and the analyze the stress of composited shaft which is wound by filament winding method. The composites shaft has high strength and reduction in weight compared to metal shaft. The classical laminate plate theory(CLT) was used fro analysis the stress, and for structure design. In order to replace metal shaft by composites shaft, the diameter of shaft was determined to $\phi$ 40. The ration of diameter was determined to 0.4 for torsional moment with CLT. In this result of analyzing the stress, composites shaft was safe $30^{\circ}~60^{\circ}$C of winding angle, and was fractured on $90^{\circ}$.

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Design and Fabrication of Cone Type Composite Lattice Structures (Cone형 복합재 Lattice 구조물의 설계 및 공정 연구)

  • Doh, Young-Dae;Chung, Sang-Ki;Lee, Sang-Woo;Chang, Hong-Been
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2011.11a
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    • pp.307-311
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    • 2011
  • This paper is concerned with anisogrid composite lattice structures whose load bearing shell is formed by systems of geodesic unidirectional composite ribs made by automatic wet winding process. Lattice structures are usually made in the form of conical shell and consist of systems of helical and hoop ribs fabricated by continuous filament winding from carbon and epoxy composites. Design variables of the structure which are the angle of helical ribs and ribs spacings are determined by cone geometry and geodesic line. and Fabrication methods for the conical composite lattice structure are presented.

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Residual Stress Comparison of Type III Hydrogen Tank by Curing Conditions (Type III 수소탱크 경화조건에 따른 잔류응력 비교)

  • Yong-Chul Shin
    • Composites Research
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    • v.37 no.1
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    • pp.15-20
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    • 2024
  • Since the residual stress of hydrogen tank is directly related to durability, it is very important to reduce it for safety. Type II~IV hydrogen tank are manufactured by the filament winding method, in which the fiber is impregnated with resin and wound around the liner. Residual stress in composite is affected by curing conditions and fiber tension etc. In this study, the effect of curing conditions on residual stress was analyzed when manufacturing a Type III hydrogen tank using carbon fiber filament winding process. First, the curing behavior of the epoxy resin was analyzed using a differential scanning calorimetry. Through this, the curing temperature was set to 140℃. During the same curing time, the specimens were cured under 2-stage curing condition that reached 140℃ earlier and a 4-stage curing condition that reached 140℃ later, respectively. After curing, the residual stress of the composite material was measured by the ring slitting method, and the experimental values were compared with numerical values. It was confirmed that there was a significant difference in residual stress according to the optimization of curing conditions.

Manufacturing Processes of Cylindrical Composite Lattice Structures using Filament Winding Method (필라멘트 와인딩 공법을 이용한 원통형 복합재 격자구조체 제작 공정)

  • Im, Jaemoon;Shin, Kwangbok;Lee, Sangwoo;Son, Johwa
    • Proceedings of the Korean Society of Propulsion Engineers Conference
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    • 2017.05a
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    • pp.835-837
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    • 2017
  • In this paper, manufacturing processes of cylindrical composite lattice structures using filament winding method was described. Cylindrical composite lattice structures were manufactured in accordance with four major steps. Silicon mold of lattice shape was installed on mandrel and then continuous fiber was wound on silicon mold. After winding process, in order to ensure the same thickness for all regions, compression process was done for its intersection parts. Finally, the composite lattice structure was demoulded after curing in oven. It was found that the manufactured cylindrical composites lattice structure had 2.4% of dimensional error compared to the design requirements.

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A Study on the Optimum Evaluation Method for Tensile NOL Ring Specimen Manufactured by Filament Winding Process (Filament Winding에 의해 제조된 복합재료 NOL Ring시험편의 최적 인장강도 평가법에 관한 연구)

  • 김윤해;권술철;임철문
    • Composites Research
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    • v.14 no.2
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    • pp.8-12
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    • 2001
  • Filament Winding Process is a comparatively simple operation in which continuous reinforcements in the form of roving are wound over a rotating mandrel. It is well established and versatile method for storage tanks and pipes for the chemical and other industries. In this study, tensile strength of a filament wound ring specimens were evaluated by a split disk test fixture and a dress disk test fixture. The results obtained from experiments were compared with the theoretical values from the rule of mixtures. The purpose of this paper is the suggestion of an appropriate test method for the evaluation of tensile properties of filament wound structures. The tensile strength of a ring specimen tested by the dress disk test showed better agreement with the theoretical values than those tested by the split disk test because of higher stress concentration in edges of a split disk test fixture. The results showed that the tensile strength of a ring specimen was influenced by the geometry of test fixture, the continuity of fibers, fiber-tension, fiber-end and stress concentration in specimen.

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A Study on Design of Type IV Hydrogen Pressure Vessels with Filament Winding Method (필라멘트 와인딩 공법을 적용한 타입 IV 수소 압력용기 설계 연구)

  • Sungjin Ahn;Hyunbum Park
    • Journal of Aerospace System Engineering
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    • v.17 no.6
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    • pp.127-132
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    • 2023
  • In this study, designing of a Type 4 pressure vessel using the filament winding method was conducted. In order to prevent leakage in consideration of the design of the hydrogen storage tank, a liner was designed by applying high-density polyethylene (HDPE), and the composite structure was designed by stacking carbon/epoxy in the hoop and helical directions. As a theoretical approach, the angle of the helical fiber and fiber thickness of each hoop and helix were designed. The safety of the design was verified using the commercial software ANSYS.