Go to the main menu
Skip to content
Go to bottom
REFERENCE LINKING PLATFORM OF KOREA S&T JOURNALS
> Journal Vol & Issue
Journal Basic Information
Journal DOI :
The Korean Society for Composite Materials
Editor in Chief :
Volume & Issues
Volume 19, Issue 6 - Dec 2006
Volume 19, Issue 5 - Oct 2006
Volume 19, Issue 4 - Aug 2006
Volume 19, Issue 3 - Jun 2006
Volume 19, Issue 2 - Apr 2006
Volume 19, Issue 1 - Feb 2006
Selecting the target year
Design of an Aircraft Composite Window frame Using VaRTM Process
Kim, Wie-Dae ; Hong, Dae-Jin ;
Composites Research, volume 19, issue 6, 2006, Pages 1~7
This is the preliminary study to develop composite window frame of commercial aircraft using VaRTM process. For two candidate carbon fabrics(triaxial overbraid, sleeving braider), specimens were fabricated using VaRTM process, and the physical & mechanical property tests were performed to obtain the material properties according to ASTM. FEM analysis for each candidate carbon fabric was performed to find the minimum number of plies and weight for composite window frame to satisfy the design requirements. In this study, Tsai-Wu strength failure criterion was used to evaluate the safety of structure.
Rotordynamic Analyses of a Composite Roller for Large LCD Panel Manufacturing
Park, Hyo-Keun ; Choi, Jin-Ho ; Kweon, Jin-Hwe ; Lee, Young-Hwan ; Yang, Seung-Un ; Kim, Dong-Hyun ;
Composites Research, volume 19, issue 6, 2006, Pages 8~15
In this study, computational rotor dynamic analyses of a composite roller used for large LCD panel manufacturing process have been conducted. The present computational method is based on the general finite element method with rotating gyroscopic effects of rotor systems. General purpose commercial finite element code, SAMCEF which has special rotordynamics analysis module is applied. For the purpose of numerical verification, comparison study for a benchmark dual rotor model with support bearings is also presented. Detailed finite element models for composite roller with optimized lamination angles are constructed and analyzed considering gravity effect in order to investigate vibration characteristics in actual operation environment. As results of the present study, rotor stability diagrams and mass unbalance responses are presented for different rotating conditions.
A Study on Puncture Properties of Short-fiber Reinforced Rubber
Ryu, Sang-Ryeoul ; Lee, Dong-Joo ;
Composites Research, volume 19, issue 6, 2006, Pages 16~22
The puncture properties under various conditions were investigated for the optimum conditions to yield the best properties. Fiber aspect ratio(AR: length of fiber/diameter of fiber), interphase condition and fiber content were considered as variables which impact the puncture force and friction force. The puncture force of short-fiber reinforced rubber increases up to 3.4 times compared to the virgin material. The better interphase condition shows the higher puncture force at given fiber AR and fiber content. The friction force of the matrix and reinforced rubber with a fiber AR below 155 does not exist. The friction force of the reinforced rubber with the good interphase condition and high fiber AR is higher than puncture force of matrix. Overall, it was found that the interphase condition, fiber AR and fiber content have an important effect on the puncture properties.
Measurement of Tensile and Bending Properties of Nanohoneycomb Structures
Jeon, Ji-Hoon ; Choi, Duk-Hyun ; Lee, Pyung-Soo ; Lee, Kun-Hong ; Park, Hyun-Chul ; Hwang, Woon-Bong ;
Composites Research, volume 19, issue 6, 2006, Pages 23~31
We measured mechanical properties, including Young's modulus, effective bending modulus and nominal fracture strength of nanohoneycomb structures using an Atomic Force Microscope(AFM) and a Nano-Universal Testing Machine(UTM). Anodic aluminum oxide(AAO) films are well suited as nanohoneycomb structures because of the simple fabrication process, high aspect ratio, self-ordered hexagonal pore structure, and simple control of pore dimensions. Bending tests were carried out for cantilever structures by pressing AFM tips, and the results were compared with three-point bending tests and tensile tests using a Nano-UTM. One side of the AAO films is clogged by harrier layers, and looks like a face material of conventional sandwich structures. Analysis of this layer showed that it did not influence the bending rigidity, and was just a crack tip. The present results can act as a design guideline in applications of nanohoneycomb structures.
Preparation and Characterization of Inorganic Continuous Fibers from Korean Basalt and Quartz Diorite Porphyry
Kim, jae-Keun ; Bae, Ji-Soo ; Na, Sang-Moon ; Kim, Seung-Il ; Jin, Yong-Jun ;
Composites Research, volume 19, issue 6, 2006, Pages 32~37
This paper summarizes the processing inorganic continuous fibers from Korean minerals. Continuous filament fibers have been produced from two rocks, basalt and quartz diorite porphyry(QDP), by melting method. The essence of the method is that the vitrified materials was placed into the bushing, platinum/rhodium alloy crucible with a nozzle, and heated electrically to a temperature which allowed fiber spinning. Vitrified basalt without additive was suitable for producing continuous filament fiber. However doping quartz diorite porphyry with boric oxide yielded a material which could be pulled continuously.
Outlook for Wood Plastic Composite in aspect of Market and Technology
Han, You-Soo ;
Composites Research, volume 19, issue 6, 2006, Pages 38~42
Wood Plastic Composite(WPC) has been introduced as a new constructional material in Europe and North America. The maintenance-free durability against weather was accepted by customers and the environment-friendly merits ignited the abrupt increase of market size. Domestic major companies have kicked off the WPC business at the market of outdoor constructional materials. Due to the high contents of natural wood fiber, the production equipments should be modified to remove the moisture, to prevent thermal degradation and to promote output rates. Materials including functional fillers play a critical role in rheological properties, which affects the physical and mechanical properties of the last products. More research might be performed for synergy effects combined by various academic fields from mechanical and chemical engineering to polymer process and material science.