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LI, YUANYU 동아대학교 법학연구소 2020 國際去來와 法 Vol.- No.28
The “separation of three rights” reform of rural homesteads in China was proposed for two reasons. On the one hand, the right system of homesteads needs to be improved; on the other hand, changes have been recorded in respect to the environment in which the homestead system operates. The corresponding expression of the newly proposed qualification right cannot be found in legal texts, which poses a reform dilemma that needs to be resolved. In terms of the function of the qualification right, a view shared by most researchers is that farmers’ basic living interests are realized through it. However, in regard to the realization of the qualification right, different theories have been developed, including “the theory of surplus right”, “the theory of membership right”, “the theory of independent right”. In this light, the path of the legalization is diversified. Based on the basic logic in which it was created, the qualification right should be a new and comprehensive right. It overlaps with some contents found in the membership right and the use right, yet differing considerably from them. Due to its nature, the following suggestions are put forward: the qualification right be named independently; its content be established in a reasonable way; the conditions for obtaining it be clarified; the circumstances in which it extinguishes be investigated; its registration be carried out; the methods for its relief be explored.
Optimized Thermoelectric Properties of AgSbTe2 through Adjustment of Fabrication Parameters
Jian Zhang,Xiaoying Qin,Di Li,송천준,Yongfei Liu,Hongxing Xin,Tianhua Zou,Yuanyue Li 대한금속·재료학회 2015 ELECTRONIC MATERIALS LETTERS Vol.11 No.1
AgSbTe2 bulk sample is obtained by hot-pressing under different fabricationparameters, and their thermoelectric properties are investigated in thetemperature range of 300 - 550 K. The highest ZT = 0.86 is achieved at475 K for the sample hot-pressed at 423 K and 500MPa due to the lowerthermal conductivity and higher power factor. The results indicate that theoptimized thermoelectric properties can be obtained for AgSbTe2 compoundat the sintering temperature of 423 K under the pressure of 500 MPa.