• 폴리머
• /
• 제31권5호
• /
• pp.399-403
• /
• 2007

폴리카보네이트/폴리(부틸렌 테레프탈레이트)(PC/PBT) 블렌드에 대해 용융혼합 과정에서 에스테르 교환반응 거동을 조사하였고, PC/PBT 혼합비에 따른 유변학적 특성, 파괴거동 및 파단면 모폴로지를 조사하였다. FT-IR 및 $^1H-NMR$ 분석을 통해 용융혼합 중에 PC와 PBT간 에스테르화 반응이 일어남을 확인하였다. PC 함량이 증가할수록 용융지수(MI)는 감소하여 PC의 높은 흐름저항성을 확인하였다. 또한 PC 함량이 증가할수록 저장 및 손실 탄성률은 증가하였고, Cole-Cole 도시로부터 PC/PBT 블렌드의 경우 혼합비에 관계없이 유변학적 상용성은 나타내지 않은 것으로 나타났다. 인장강도는 PC 함량이 증가함에 따라 선형적인 증가를 나타내었다. 충격강도의 경우 PC 함량이 증가함에 따라 증가하였는데, 약 $30{\sim}40wt%$ 범위에서 가장 급격한 증가폭을 나타내었고, 50 wt% 이상의 범위에서는 거의 일정한 값을 나타내었다. 충격 파단면을 관찰한 결과 약 40 wt% 이상의 범위에서부터 충격방향으로 거친 파괴 릿지(ridge)가 형성되어서 높은 충격강도를 나타낸 것으로 판단된다.

• 접착 및 계면
• /
• 제4권3호
• /
• pp.33-40
• /
• 2003

본 연구에서는 이관능성 에폭시 (diglycidyl ether of bisphenol A. DGEBA)와 Polyetherimide(PEI) 블랜드를 Amime계 경화제인 DDM을 이용하여 경화를 시켰으며, PEI의 함량 변화가 순수 에폭시 수지의 열적특성과 파괴인성에 미치는 영향에 대해 고찰하였다. 경화된 시편의 열적특성은 DSC에 의한 열분석을 통해 Kissinger 식을 이용하여 경화 활성화 에너지 ($E_a$)를 구하였고, 파괴인성은 크랙성장의 저항을 나타내는 임계응력세기 인자 ($K_{IC}$)을 측정하여 알아보았다. 시편의 파단특성은 주사전자현미경 (SEM)을 통해 조사하였으며, 기계적 계면특성을 알아보기 위해 contact angle로 표면자유에너지를 측정하였다. 실험 결과 DGEBA/PEI 블랜드계의 $E_a$, $K_{IC}$는 PEI 함량이 7.5 phr에서 최대값을 보였다. 이는 PEI 도입에 따른 치밀한 네트워크 구조가 증가했기 때문으로 판단되어 진다. 또한 DGEBA/PEI 블랜드계의 표면자유에너지는 $K_{IC}$와 유사한 경향을 보였으며, 이는 에폭시의 하이드록실기와 PEI의 imide 그룹 사이의 수소결합에 의해 극성요소가 증가되었기 때문으로 판단되어진다.

• 대한소아치과학회지
• /
• 제25권1호
• /
• pp.234-248
• /
• 1998

The purpose of this study was to compare the fracture and shear bonding strength of resin-modified glass ionomer cements with composite resin and conventional glass ionomer cement Three kinds of restorative materials including a composite resin (Z 100), a conventional glass ionomer cement(Fuji II), and resin- modified glass ionomer cements(Fuji II LC, Vitremer, Dyract and Compoglass) were investigated in this study. For measurement of fracture and shear bonding strength, disk samples of the materials were prepared and cylindrical samples of the materials were bonded the flat enamel and dentin surfaces according to manufactuer's instructions. All specimen were determinated by using an Instron testing machine with a crosshead speed of 1 mm/min. Then, each treated enamel and dentin surface was observed by SEM. The following results were obtained. 1. The bi-axial flexural strength of Z 100 was highest, and Fuji n LC, Vitremer, Dyract and Compoglass were significantly higher than Fuji n (P<0.05). 2. The shear bonding strength of Z 100 on the enamel and dentin surface was higher than other experimental groups except Fuji II LC(P<0.05). Fuji II LC was significantly higher than Fuji II (P<0.05), but in the case of Vitremer, Dyract and Compoglass were similar to Fuji II (P>0.05). 3. The shear bonding strength of Z 100 and Fuji II LC on the enamel surface were highly increased as compared with dentin surface (P<0.05), but in the case of Fuji II, Vitremer, Dyract and Compoglass were not different between enamel and dentin(P>0.05). 4. In the Z 100 and Fuji II LC, obvious etched enamel surface and exposed dentinal tubules according to remove of smear layer and smear plug were observed.

• Fibers and Polymers
• /
• 제7권4호
• /
• pp.380-388
• /
• 2006

Fully biodegradable and environment-friendly green composite specimens were made using ramie fibers and soy protein concentrate (SPC) resin. SPC was used as continuous phase resin in green composites. The SPC resin was plasticized with glycerin. Precuring and curing processes for the resin were optimized to obtain required mechanical properties. Unidirectional green composites were prepared by combining 65% (on weight basis) ramie fibers and SPC resin. The tensile strength and Young's modulus of these composites were significantly higher compared to those of pure SPC resin. Tensile and flexural properties of the composite in the longitudinal direction were moderate and found to be significantly higher than those of three common wood varieties. In the transverse direction, however, their properties were comparable with those of wood specimens. Scanning electron microscope (SEM) micrographs of the tensile fracture surfaces of the green composite indicated good interfacial bonding between ramie fibers and SPC resin. Theoretical values for tensile strength and Young's modulus, calculated using simple rule of mixture were higher than the experimentally obtained values. The main reasons for this discrepancy are loss of fiber alignment, voids and fiber compression due to resin shrinking during curing.

• Computers and Concrete
• /
• 제12권3호
• /
• pp.261-283
• /
• 2013

This paper aims to contribute to the three-dimensional generalization of numerical prediction of crack propagation through the formulation of finite elements with embedded discontinuities. The analysis of crack propagation in two-dimensional problems yields lines of discontinuity that can be tracked in a relatively simple way through the sequential construction of straight line segments oriented according to the direction of failure within each finite element in the solid. In three-dimensional analysis, the construction of the discontinuity path is more complex because it requires the creation of plane surfaces within each element, which must be continuous between the elements. In the method proposed by Chaves (2003) the crack is determined by solving a problem analogous to the heat conduction problem, established from local failure orientations, based on the stress state of the mechanical problem. To minimize the computational effort, in this paper a new strategy is proposed whereby the analysis for tracking the discontinuity path is restricted to the domain formed by some elements near the crack surface that develops along the loading process. The proposed methodology is validated by performing three-dimensional analyses of basic problems of experimental fractures and comparing their results with those reported in the literature.

• 대한기계학회논문집A
• /
• 제31권10호
• /
• pp.1009-1016
• /
• 2007

Finite element alternating method has been suggested and used effectively to obtain the fracture parameters in assessing the integrity of cracked structures. The method obtains the solution from alternating independently between the FEM solution for an uncracked body and the crack solution in an infinite body. In the paper, the finite element alternating method is extended in order to obtain the elastic-plastic stress fields of a three dimensional inner crack. The three dimensional crack solutions for an infinite body were obtained using symmetric Galerkin boundary element method. As an example of a three dimensional inner crack, a penny-shaped crack in a finite body was analyzed and the obtained elastc-plastic stress fields were compared with the solution obtained from the finite element analysis with fine mesh. It is noted that in the region ahead of the crack front the stress values from FEAM are close to the values from FEM. But large discrepancy between two values is observed near the crack surfaces.

• 대한기계학회논문집A
• /
• 제21권9호
• /
• pp.1507-1519
• /
• 1997

This paper aims to clarify the effects of grinding conditions on bending strength in surface grinding of various ferrites with the resin bond diamond wheel. The main conclusions obtained were as follows. At a constant material removal rate, the strength improves with increased wheel depth of cut and decreased workpiece speed. It is desirable to grind at higher peripheral wheel speed and under the critical workpiece speed presented in this paper. Grinding the ferrite of higher brittleness, the wheel depth of cut limited to hold 50% of their inherent strength becomes lower. The effect of various grinding conditions on bending strength becomes more larger in the order of Sr, Mn-Zn and Cu-Ni-Zn. When using the diamond grain of the lower toughness, the bending strength becomes higher, and the wheel wear occurs faster. Considering both bending strength and wheel wear rate, the best concentration of wheel is 100. The ground surfaces exhibit that the fracture process during grinding becomes more brittle in the order of Sr, Mn-Zn and Cu-Ni-Zn.

• 산업기술연구
• /
• 제21권B호
• /
• pp.341-348
• /
• 2001

The effect of initial ${\alpha}^{\prime}$ in STS 304 Stainless Steel on fatigue resistance, and fatigue crack propagation behavior was studied with using C-T specimens. Higher ${\Delta}K_{th}$ was observed in the specimens with the content of 0% initial ${\alpha}^{\prime}$ than in the contents of 2% and 33% initial ${\alpha}^{\prime}$. The difference of da/dN at the same level of ${\Delta}K$ was distinctive in low and intermediate level of ${\Delta}K$ however became less different as the level of ${\Delta}K$ increased. It is because the formation of strain induced martensite occurred readily in lower ${\alpha}^{\prime}$ at the vicinity of the fatigue crack tip, which causes compressive residual stresses resulting in the enhancement of crack closure. In general fatigue cracks propagated transgranular mode and many segments of ridges were observed on the fracture surfaces. At the higher contents of initial ${\alpha}^{\prime}$ appeared the smaller size of ridge segments. Slips in austenite were blocked more frequently by the martensite colonies formed in austenite.

• Geomechanics and Engineering
• /
• 제8권4호
• /
• pp.477-493
• /
• 2015

In rock drilling, the most important characteristic to clarify is the wear of the drill bits. The reason that the rock drill bits fail with time is wear. In dry sliding contact adhesive wear deteriorates the materials in contact, quickly, and is the result of shear fracture in the momentary contact joins between the surfaces. This paper aims at presenting an overview of the assessment of WC/Co cemented carbide (CC) tricone bit in rotary drilling. To study wear of these bits, two approaches have been used in this research. Firstly, the new bits were weighted before they mounted on the drill rigs and also after completion their useful life to obtain bit weight loss percentage. The characteristics of the rock types drilled by using such this bit were measured, simultaneously. Alternatively, to measure contact wear, namely, matrix wear a micrometer has been used with a resolution of 0.02 mm at different direction on the tricone bits. Equivalent quartz content (EQC), net quartz content (QC), muscovite content (Mu), coarseness index (CI) of drill cuttings and compressive strength of rocks (UCS) were obtained along with thin sections to investigate mineralogical properties in detail. The correlation between effective parameters and bit wear were obtained as result of this study. It was observed that UCS shows no significant correlation with bit wear. By increasing CI and cutting size of rocks wear of bit increases.

• 대한치과기공학회지
• /
• 제9권1호
• /
• pp.51-55
• /
• 1987

One of the primary advantages of acrylic resin teeth is their ability to bond chemically to the denture base resins. Fracture od acrylic resin teeth from a maxillary denture, however, is not uncommon. Bonding failures have been attributed to faulty boil-out procedures that fail to eliminate all traces of wax from the ridge lap surfaces of the teeth and to contamination of the ridge lap surface by careless application of tinfoil substitute. Attempts to increase the strength of the bond between acrylic resin teeth and heat-cured denture base resin include grinding the glossy ridge lap surface (in fluid system), painting the ridgelap surface of the teeth with monomer-polymer solution, and cutting retention grooves in the ridge lap surface of the teeth. This latter method has been tested by applying a tensile force in a labial direction to the incisal part of the lingual surface of the acrylic resin teeth. A progressive shear compressive load was applied at an angle to the lingual surface of acrylic resin teeth bonded to denture base acrylic resin. No statistically singificant advantage was derived by preparing retention grooves of different shapes in the ridgelap surface of the denture teeth.