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姜聲甫,閔宅基,李光吉 忠南大學校 産業技術硏究所 1995 산업기술연구논문집 Vol.10 No.2
This report deals with the mechanical properties when the friction welding between Al and Cu. Main results obtained are as follows; 1) With welding conditions of 2.6sec heating time, the tensile strength of weld interface was reached at that of Al base metal by 75% 2) The hardness of weld interface is considerably higher than hardness of Al base metal and top hardness of radial direction is at half position of periphery. 3) The structure of the joint was transformed as a fine structure in HAZ of meterials and the finest structure like band by high pressure and plastic deformation in weld interface adjacent to Cu.
강성보,윤병수,홍일표,민택기 忠南大學校 産業技術硏究所 1998 산업기술연구논문집 Vol.13 No.1
This study deals with the friction weldability of STS304 Austenitic stainless steel to 6000 series aluminium alloys, those are A6061-T6, A6063, A6351. The total upset the biggest in case of STS304-A6063 and depend on strength of aluminium alloy. All welded specimen in the condition of upset pressure 75MPa exceeded the tensile strength of base metal. As a result of analyzing the tensile fracture surfaces, it showed ductility in case of both STS304-A6063 and STS304-A6351, while it showed poor ductility in case of STS304-A6061-T6. The results of bending test coincide with characteristic of tensile fracture surfaces. In the case of STS304-A6063 and STS304-A6351, any crack did not appear in welded joint, even in bending up to 90o. As a result of EDAX analysis of welded joint, it has been confirmed that Ni, Cr and Fe in STS304 were diffused toward aluminium alloy side. Consequently, friction weldability of STS304-aluminium alloys is determineded by combination of micro deformation and diffusion.
CuW와 Cu를 이용한 마찰용접부의 미세조직에 관한 연구
姜聲甫,閔宅基,洪日杓 忠南大學校 産業技術硏究所 1996 산업기술연구논문집 Vol.11 No.2
This report deals with the microstructure when the friction welding between CuW and Cu. As a result of microstructure analysis, the application of high friction pressure and upset pressure is able to decrease bonding strength because the microstructure of weld interface is changed abruptly. The fine tungsten grains at high friction pressure(6kg/㎟) could induce the crack formation along weld interface and fracture adjacent to the weld interface. HAZ of Cu side was narrowed with high friction pressure because time required to reach steady state was decreased.
段 가공을 한 SM20C 異徑材 摩擦熔接部의 機械的 性質에 關한 硏究
김진건,강성보,민택기 충남대학교 공업교육연구소 1998 論文集 Vol.21 No.1
This study deals with mechanical properties in friction welding of SM20C steel bars and pipes which have different overhang lengths(0mm∼5mm). The experimental results m summarized as follows; In case of pipe, we can conclude that 1mm overhang is optimal condition for the products which needs the tensile and bending strength. But in case of bar, we can conclude that 0mm overhang is optimal condition for the Products which needs the tensile and bending strength.
Genetic Analysis of Pod Dehiscence in Soybean
Sung Taeg Kang,Hyeun Kyeung Kim,In Youl Baek,Moung Gun Chung,Won Young Han,Doo Chull Shin,Suk-Ha Lee 韓國作物學會 2005 Korean journal of crop science Vol.50 No.4
Pod dehiscence (PD), defined as the opening of pods along both the dorsal and ventral sutures, causes the seed to shatter in the field before harvesting and results in loss of seed yields. However, breeding for resistance to PD is difficult due to the complicated genetic behavior and environmental interaction. The objective of the present research was to analyze the genetic behavior of PD for improving the breeding efficiency of resistance to PD in soybean. PD after oven-drying the sampled pod at 40~circC for 24 hours was the most reliable to predict the degree of PD tested in the field. Keunolkong, a dehiscent parent, was crossed with non-dehiscent parents, Sinpaldalkong and Iksan 10. Using their F1~;and~;F2 seeds, PD was measured after oven drying the pod at 40~circC for 24 hours. The gene conferring PD behaved in different manners depending on the genetic populations. In the Keunolkong~times Sinpaldalkong population, PD seemed to be governed by single major recessive gene and minor genes, while several genes were probably involved in the resistance to pod dehiscence in the Keunolkong~times Iksan 10 population. Heritability for PD estimated in F2 population showed over 90~% in the two populations. High heritability of PD indicated that selection for resistance to PD should be effective in a breeding program. In addition, genetic mapping of quantitative locus (QTL) for PD in both populations may reveal that genes conferring PD are population-specific
Genetic Analysis of Pod Dehiscence in Soybean
Kang Sung Taeg,Kim Hyeun Kyeung,Baek In Youl,Chung Moung Gun,Han Won Young,Shin Doo Chull,Lee Suk-Ha The Korean Society of Crop Science 2005 Korean journal of crop science Vol.50 No.4
Pod dehiscence (PD), defined as the opening of pods along both the dorsal and ventral sutures, causes the seed to shatter in the field before harvesting and results in loss of seed yields. However, breeding for resistance to PD is difficult due to the complicated genetic behavior and environmental interaction. The objective of the present research was to analyze the genetic behavior of PD for improving the breeding efficiency of resistance to PD in soybean. PD after oven-drying the sampled pod at $40^{\circ}C$ for 24 hours was the most reliable to predict the degree of PD tested in the field. Keunolkong, a dehiscent parent, was crossed with non-dehiscent parents, Sinpaldalkong and Iksan 10. Using their $F_1\;and\;F_2$ seeds, PD was measured after oven drying the pod at $40^{\circ}C$ for 24 hours. The gene conferring PD behaved in different manners depending on the genetic populations. In the Keunolkong$\times$Sinpaldalkong population, PD seemed to be governed by single major recessive gene and minor genes, while several genes were probably involved in the resistance to pod dehiscence in the Keunolkong$\times$Iksan 10 population. Heritability for PD estimated in F2 population showed over $90\%$ in the two populations. High heritability of PD indicated that selection for resistance to PD should be effective in a breeding program. In addition, genetic mapping of quantitative locus (QTL) for PD in both populations may reveal that genes conferring PD are population-specific.
A New Large Seed Size, Good Seed Quality and High-Yielding Vegetable Soybean Cultivar "Danmiput"
Sung Taeg Kang,In Youl Baek,Myoung Gun Choung,Sea Kwan Oh,Won Young Han,Doo Chull Shin,Su Dong Kim,Soon Chul Kim 한국육종학회 2003 한국육종학회지 Vol.35 No.4
A new vegetable soybean variety, “Danmiput” was selected from the cross Keunol/Wasehakucho (Introduced), and developed in 2002 on the basis of its yield performance and seed quality for vegetable soybean at the National Yeongnam Agricultural Station. “Dan