• Title/Summary/Keyword: Rubber-Fiber Composites

Search Result 74, Processing Time 0.027 seconds

Effect of Kenaf Fiber Loading on the Properties of Natural Fiber/Natural Rubber Composites (천연섬유/천연고무 복합재료의 특성에 미치는 Kenaf 섬유함량의 영향)

  • Cho, Yi-Seok;Cho, Dong-Hwan
    • Elastomers and Composites
    • /
    • v.46 no.3
    • /
    • pp.186-194
    • /
    • 2011
  • Natural fiber/natural rubber composites were fabricated by uniformly compounding natural rubber and cellulose- based natural fiber kenaf and then by compression molding. The effect of kenaf fiber content on their vulcanization behavior, hardness, tensile properties, tear strength and static and dynamic properties was investigated. The contents of kenaf fiber in the composites were 0, 5, 10, 15, and 20 phr, compared to natural rubber and additives. The result indicated that various properties of natural rubber depended on the kenaf fiber content. With increasing kenaf fiber content, the torque for vulcanization of natural rubber was increased whereas the vulcanization time was reduced as well. The hardness, tensile modulus and tear strength of kenaf/natural rubber composites were gradually decreased with the fiber content whereas the tensile strength and elongation at break were decreased. Also, with increasing the kenaf fiber content the dynamic property of natural rubber was changed more greatly than the static property. The loss factor, which is closely related with the damping or absorption of the energy given to natural rubber, was proportionally increased with the fiber content.

Study on the Development of friction Material Using I-glass Fiber Reinforced Composites (유리섬유 강화 복합재료를 이용한 마찰재 개발에 관한 연구)

  • 김영운;최문호;서상하;김부안;문창권
    • Journal of Ocean Engineering and Technology
    • /
    • v.14 no.4
    • /
    • pp.49-55
    • /
    • 2000
  • This study has been investigated to apply fiber reinforced composites instead of asbestos as a friction material. the reinforced used was E-glass fiber and binder resin was phenol having good mechanical properties and heat resistance. And it has been also investigated the effect of molding conditions and some additives such and carbon black, alumina and rubber powder in E-glass fiber/phenol resin composite on the friction on the friction and wear characteristics. As a result, it was found that the molding conditions of E-glass fiber/phenol resin composites for friction materials had to be different from those of phenol resin and was found that the wear rate of E-glass fiber/phenol resin composites added alumina powder was higher than of composites added carbon black in the same wear distance. And it was found that friction coefficient of E-glass/phenol resin composites added carbon black was decreased and that of the composites added the powder of natural rubber and ABS rubber were increased compared to the composites.

  • PDF

Effect of Thermal Aging on the Change of Interfacial Adhesion between Polyketone Cord and Rubber by RFL Primer Treatment (RFL 프라이머 처리에 따른 폴리케톤 코드사와 고무 간의 계면접착성 변화에 열노화가 미치는 영향)

  • Jo, Hani;Oh, Woo Jin;Kang, Song Hee;Lee, Seung Goo
    • Textile Coloration and Finishing
    • /
    • v.30 no.2
    • /
    • pp.77-89
    • /
    • 2018
  • In the case of fiber/rubber composites for tire applications, the interfacial adhesion between fiber and rubber significantly affects the physical properties of the finished products. Generally, organic synthetic fibers used for tire cords are treated with resorcinol formaldehyde latex(RFL) primer on the surface of the fiber to improve the adhesion to rubber. Changes of adhesion between rubber and tire cords might weaken as temperature rises due to overheating of car engine and friction with road. In this study, the effects of temperature on the primer treated polyketone cord/rubber composites and the changes in interfacial adhesion were investigated. Polyketone cord/rubber composites were prepared after RFL solution treatment on the surface of polyketone fibers. After that, composites was thermally aged at different temperature conditions(60, 80, 100, $120^{\circ}C$) and times(1, 5, 10, 15days). The adhesion strength of polyketone cord/rubber composite treated with RFL primer was higher than untreated composite by more than 3 times. After heat aging, the adhesion strength of untreated polyketone cord/rubber composites increased while the RFL treated polyketone cord/rubber composites decreased somewhat.

Experimental Study on the Mechanical Properties of Carbon Fiber Reinforced Fly Ash-Cement Composites (II) (탄소섬유 보강 플라이애쉬.시멘트 복합체의 역학적 특성에 관한 실험적 연구(II))

  • 박승범;윤의식
    • Proceedings of the Korea Concrete Institute Conference
    • /
    • 1991.10a
    • /
    • pp.99-106
    • /
    • 1991
  • Result of an experimental study on the manufacture, the mechanical properties and waterightness of pitch-based carbon fiber reinforced fly ash.cement composites are presented in this paper. The carbon fiber reinforced fly ash.cement composites using early strength cement, silica powder and a small amount of stylene butadiene rubber latex are prepared with carbon fiber, foaming agents and mixing conditions. As a result, the mechanical and plysical properties such as compresive, tensile and flectural strengths, watertightness and cement composites are improved by using a small amount of stylene butadiene rubber latex.

  • PDF

3-D Finite Element Modeling of Fiber Reinforced Rubber Composites using a Rubber Element (리바요소를 이용한 섬유강화 고무기저 복합재료의 3차원 유한요소 모델링기법)

  • Jeong, Se-Hwan;Song, Jung-Han;Kim, Jin-Woong;Kim, Jin-Young;Huh, Hoon
    • Transactions of the Korean Society of Mechanical Engineers A
    • /
    • v.30 no.12 s.255
    • /
    • pp.1518-1525
    • /
    • 2006
  • Finite element analyses of structures made of the fiber reinforced composites require an adequate method to characterize the high anisotropic behavior induced by one or several layers of fiber cords with different spatial orientation embedded in a rubber matrix. This paper newly proposes a continuum based rebar element considering change of the orientation of the fiber during deformation of the composite. The mechanical behavior of the embedded fiber is modeled using two-node bar elements in order to consider the relative deformation and spatial orientation of the embedded fiber. For improvement of the analysis accuracy, the load-displacement curve of fiber is applied to the stiffness matrix of fiber. A finite element program is constructed based on the total Lagrangian formulation considering both geometric and material nonlinearity. Finite element analyses of the tensile test are carried out in order to evaluate the validity of the proposed method. Analysis results obtained with the proposed method provides realistic representation of the fiber reinforced rubber composite compared to results of other two models by the Halpin-Tsai equation and a rebar element in ABAQUS/Standard.

Effect of Kenaf Fiber Content and Length on the Cure Characteristic, Hardness, Tensile Modulus, and Abrasion of Kenaf/Natural Rubber Composites in the Presence and Absence of Kenaf Fiber Treatment with Adhesive Solution (접착용액을 이용한 케나프섬유 처리 유·무에 따른 케나프/천연고무 복합재료의 경화특성, 경도, 인장탄성률 및 마모에 미치는 케나프섬유의 함량 및 길이의 영향)

  • Cho, Yi-Seok;Cho, Donghwan
    • Journal of Adhesion and Interface
    • /
    • v.19 no.2
    • /
    • pp.60-67
    • /
    • 2018
  • In the present study, when the surface of kenaf, which is an environmentally friendly natural fiber, was treated by using adhesive solution containing Chemlok 402, the effects of fiber surface treatment, fiber content and fiber length on the cure characteristics, hardness, tensile modulus and abrasion resistance of kenaf/natural rubber composites were investigated. The kenaf fiber contents consisting of the composites were varied with 0, 5, 10, 15, and 29 phr at a fixed fiber length of 2 mm and also the fiber length was varied with 2, 35, and 70 mm at a fixed fiber content of 5 phr. The Tmax and tc90 values, Shore A hardness, tensile modulus, and abrasion resistance of natural rubber composites strongly depended on the kenaf fiber content and length. The characteristics of the composite with kenaf fibers treated with the adhesive solution containing Chemlok 402 were higher than those untreated. This is ascribed to the improved interfacial adhesion between the treated kenaf fiber and the rubber matrix. This study suggests that an appropriate use of adhesive solution may be possible to increase the properties of natural fiber-reinforced composites.

Study on the Mechanical Properties of Rubber Composite Materials Contained PBO, Aramid Chopped Fiber (PBO, Aramid Chopped Fiber가 함유된 고무복합재료의 기계적 물성연구)

  • Lee, Jun Hee;Lee, Kwang-Woo
    • Textile Coloration and Finishing
    • /
    • v.33 no.4
    • /
    • pp.327-337
    • /
    • 2021
  • The uniformly dispersed Aramid and Poly (phenylene benzobisoxazole) (PBO) in a variety of rubber was investigated. The mechanical properties of rubber were characterized by hardness, tensile strength, elongation at break, heat resistance, oil resistance, cold resistance, ozone resistance measurements. The 3mm Aramid chopped fiber better tensile strength than the other Chopped fiber. The Aramid of 3mm chopped fiber showed excellent reinforcing in rubber composite because of homogeneous dispersion. Consequently, the best 3mm Aramid chopped fiber and rubber improved the tensile strength and elongation at break of the composite. Also, 3mm Aramid chopped fiber improved the oil-resistant, ozone resistant and cold resistant.

Effects of Filler Types and Content on Shrinkage Behavior of Polypropylene Composites

  • Jung, Chun-Sik;Hwang, Seok-Ho
    • Elastomers and Composites
    • /
    • v.57 no.3
    • /
    • pp.107-113
    • /
    • 2022
  • The effects of fillers [talc, calcium carbonate, glass fiber, and EBR (ethylene-butene rubber)] on the shrinkage and mechanical properties of injection-molded polypropylene composites were investigated. The shrinkage correlated with the shape of the filler particles: at the same amount added, glass fibers with a large aspect ratio had the greatest effect on the shrinkage of polypropylene composites, followed by flake-shaped talc and granular calcium carbonate. It was confirmed that the addition of EBR rubber as an impact strength modifier reduced shrinkage proportionally to the added content. In addition, the addition of glass fiber resulted in the greatest increases in tensile and flexural strengths.

Surface Modified Glass-Fiber Effect on the Mechanical Properties of Glass-Fiber Reinforced Polypropylene Composites

  • Park, Sanghoo;Kim, Su-Jong;Shin, Eun Seob;Lee, Seung Jun;Kang, Beom Mo;Park, Kyu-Hwan;Hong, Seheum;Hwang, Seok-Ho
    • Elastomers and Composites
    • /
    • v.54 no.3
    • /
    • pp.182-187
    • /
    • 2019
  • To improve the mechanical properties of glass-fiber-reinforced polypropylene (PP) composites through interfacial adhesion control between the PP matrix and glass fiber, the surface of the glass fiber was modified with PP-graft-maleic anhydride (MAPP). Surface modification of the glass fiber was carried out through the well-known hydrolysis-condensation reaction using 3-aminopropyltriethoxy silane, and then subsequently treated with MAPP to produce the desired MAPP-anchored glass fiber (MAPP-a-GF). The glass-fiber-reinforced PP composites were prepared by typical melt-mixing technique. The effect of chemical modification of the glass fiber surface on the mechanical properties of composites was investigated. The resulting mechanical and morphological properties showed improved interfacial adhesion between the MAPP-a-GF and PP matrix in the composites.

Investigation of Co-poly-para-aramid Fiber Dispersion in Chloroprene Rubber Matrix and Improvement of Dispersibility Through Fiber Surface Modification

  • Garam Park;Hyeri Kim;Gayeon Jeong;Dohyeong Kim;Seungchan Noh;Dajeong Gwon;Myung Chan Choi;Jaseung Koo
    • Elastomers and Composites
    • /
    • v.57 no.4
    • /
    • pp.175-180
    • /
    • 2022
  • To produce a co-poly-para-aramid fiber (AF, Technora®)-reinforced neoprene rubber composite, dispersion of AF in a neoprene matrix is investigated. The AF is then surface-modified by mercerization and acetone, plasma, and silane treatments to improve dispersibility. Finally, an internal mixer process is used to disperse the surface-modified fibers in the neoprene rubber matrix.