The development of soy cutlets containing textured soy protein (TSP) as a meat analog was studied. In order to decrease the beany flavor and to increase the texture, TSP was treated with 0.3% Flavourzyme or 0.1% Protamex for 10 or 20 min, respectively. The degree of hydrolysis for TSP treated with Protamex was higher than that treated with Flavourzyme. Hydrolysis was observed to increase as the reaction time was increased for both Flavourzyme and Protamex. The water holding capacity of TSP treated with Protamex for 10 min was the highest, and that treated with Flavourzyme for 20 min was similar to that of Protamex treatment for 20 min. The oil binding capacity of TSP treated with Protamex for 20 min was the highest. The hardness of the soy cutlets using TSP treated with Flavourzyme for 10 min was higher than that treated for 20 min, while that of Protamex treated for 20 min was higher than that treated for 10 min. The cohesiveness of the soy cutlets using TSP treated with Flavourzyme or Protamex for 10 min was higher than those treated for 20 min. The chewiness of the soy cutlets treated with Flavourzyme for 10 min was higher than for those treated for 20 min, while those treated with Protamex for 20 min was higher than those treated for 10 min. The springiness of TSP treated with Flavourzyme for 20 min was higher than those treated for 10 min, and higher than those treated with Protamex for 10 or 20 min. For sensory evaluation, the beany flavor of the soy cutlets treated with Protamex for 20 min was the weakest. The flavor and chewiness of both a pork cutlet and a soy cutlet treated with Protamex for 20 min were the best. In the overall quality, soy cutlets treated with Protamex for 20 min was the most desirable. In conclusion, soy cutlets treated with 0.1% Protamex for 20 min could be a reasonable substitute of pork cutlets.

High-energy mechanical milling (HEMM) and sintering into Al-Mg alloy melt were employed tofabricate an Al alloy matrix composite reinforced with submicron and micron sized Al2O3 particles. Al-basedmetal matrix composite (MMC) reinforced with submicron and micron sized Al2O3 particles was successfullyfabricated by sintering at 1000oC for 2h into Al-Mg alloy melt, which used high energy mechanical milled Al-SiO2-CuO-ZnO composite powders. Submicron/micron-sized Al2O3 particles and eutectic Si were formed by in situdisplacement reaction between Al, SiO2, CuO, and ZnO during sintering for 2h into Al-Mg alloy melt and werehomogeneously distributed in the Al-Si-(Zn, Cu) matrix. The refined grains and homogeneously distributedsubmicron/micron-sized Al2O3 particles had good interfacial adhesive, which gives good wear resistance withhigher hardness.

본 연구는 교정공무원을 대상으로 교도관의 성별, 근무기간의 장단, 근무장소(범수별 수용기관)의 차이가 교도관의 태도와 인식에 어떠한 영향을 미치는지에 대한 연구이다. 그 결과 여성교도관의 경우 남성에 비해 인간관계와 조직에 대한 충성도, 애착도, 보상도가 더 높았으나 수용처우에 있어 자신감은 남성교도관에게 높게 나타났다. 또한 근무기간이 많을 수록 (11년 이상의 근무자) 개인존중감과 직장생활만족도에 있어 자긍심이 높은 것으로 나타났다. 그 외 다른 변수의 경우 평균편차의 차이는 있었지만 유의미한 것은 아니었다. 이는 수형자의 범수별 수용구분에 따른 처우에도 불구하고 근무기관에 따라 차별적 인식도를 보일 것이라는 일반적 기대와는 다른 것으로, 수형자에 대한 과학적인 분류 및 개별처우가 미흡하다는 사실을 간접적으로 나타낸 것으로 해석되어진다. 향후 개정법령에 따라 실시예정인 계호등급에 의한 단계별 처우의 성공적인 정착을 위해서는 시설별로 보다 자세한 처우기준을 마련하고, 각 시설에 따라 조직가치와 근무자의 행위 통제를 위한 적정한 교육이 선행되어야 할 것임을 예고하고 있다.

한반도 동해에서 자연 상태의 해빈(낙산-오산 해빈)과 인공구조물이 설치된 해빈(안목-염전 해빈)의 퇴적물을 조사하고 두 해빈간의 차이를 확인하기 위하여 2004년 홍수기와과 2005년 갈수기에 해빈의 후안 및 전안에 대해 걸쳐 조사를 실시하였다. 낙산-오산 해빈의 후안 및 전안에서는 해빈 남측으로 가면서 평균입도가 세립해지고 분급이 양호해지는 등 퇴적상과 조직변수가 일정하게 변화하였으며 계절간의 변화가 크지 않았다. 그러나 안목-염전 해빈은 낙산-오산 해빈에 비해 후안 및 전안의 평균입도가 조립하고 분급이 불량하며 양의 왜도 값이 많았고 연근해를 포함하여 조직변수의 전체적인 변화 경향성을 찾기가 어려웠다. 이러한 두 해빈의 특징은 해안을 따라 흐르는 연안류가 해안선의 형태에 따라 변화하고 이로 인해 퇴적물의 특성에 영향을 주었기 때문으로 생각된다. 특히 안목-염전 해빈은 인공구조물(안목항)이 연안류의 흐름을 막아 자연 상태와는 다른 퇴적환경의 변화를 일으키는 것으로 생각된다. 또한, 안목-염전지역은 항만의 공사가 추가로 계획되어 있어 향후 지속적인 변화가 있을 것으로 예상된다.

Oxidation behavior and microstructural characteristics of nano-sized Sn powder were studied. DTA-TG analysis showed that the Sn powder exhibited an endothermic peak at and exothermic peak at with an increase in weight. Based on the phase diagram consideration of Sn-O system and XRD analysis, it was interpreted that the first peak was for the melting of Sn powder and the second peak resulted from the formation of phase. Microstructural observation revealed that the powder, heated to under air atmosphere, consisted of agglomerates with large particle size due to the melting of Sn powder during heat treatment. Finally, fine SnO2 powders with an average size of 50nm can be fabricated by controlled heat treatment and ultrasonic milling process

In the Ti(CN)-Co/Ni cermet, WC is an effective additive for increasing sinterability and mechanical properties such as toughness and hardness. In this work, WC, (WTi)C and (WTi)(CN) were used as the source of WC and their effects were investigated in the respect of microstructural evolution and mechanical properties. Regardless of the kinds of WC sources, the hard phase with dark core and bright rim structure was observed in the Ti(CN)-Co/Ni cermet under the incorporation of relatively small amount of WC. However, hard phases with bright core began to appear and their frequency increased with the increase of all kinds of WC source addition. The ratio of bright core to dark one in the (TiW)(CN)-Co/Ni cermet was greatest under the incorporation of (WTi)C compared at the same equivalent amount of WC. The mechanical properties were improved with the addition of WC irrespective of the kinds of sources, but the addition of (WTi)(CN) was less effective for the increase of fracture toughness.

  For a sustainable development, the resources circulation system should be established and required alternative logistics area of enterprises. In this paper, we are to suggest a direction through analysis effects, and reduce, recycle, reuse factor of tra

Combined epithelial odontogenic tumors are very rare and represent hybrid lesion comprising adenomatoid odontogenic tumor intermixed with calcifying epithelial odontogenic tumor. The authors present 3 cases of combined epithelial odontogenic tumor which contained diagnostic areas for both adenomatoid odontogenic tumor and calcifying epithelial odontogenic tumor. Their behaviour and histogenesis were discussed.

The microstructural and mechanical properties of Al-Si alloyed powder, prepared by gas atomization fallowed by hot extrusion, were studied by optical and scanning electron microscopies, hardness and wear testing. The gas atomized Al-Si alloy powder exhibited uniformly dispersed Si particles with particle size ranging from 5 to . The hot extruded Al-Si alloy shows the average Si particle size of less than . After heat-treatment, the average particle size was increased from 2 to . Also, mechanical properties of extruded Al-Si alloy powder were analyzed before and after heat-treatment. As expected from the microstructural analysis, the heat-treated samples resulted in a decrease in the hardness and wear resistance due to Si particle growth. The friction coefficient of heat-treated Al-Si alloyed powder showed higher value tough all sliding speed. This behavior would be due to abrasive wear mechanism. As sliding speed increases, friction coefficient and depth and width of wear track increase. No significant changes occurred in the wear track shape with increased sliding speed.

The microstructure and mechanical properties of hot-pressed composites with a different sintering temperature have been studied. The size of matrix grain and Cu dispersion in composites increased with increase in sintering temperature. Fracture toughness of the composite sintered at high temperature exhibited an enhanced value. The toughness increase was explained by the thermal residual stress, crack bridging and crack branching by the formation of microcrack. The nanocomposite, hot-pressed at , showed the maximum fracture strength of 707 MPa. The strengthening was mainly attributed to the refinement of matrix grains and the increased toughness.