1.
Ogyū Sorai concept of "man of ability"--Standing on the lord and junzi side;
荻生徂徕的人才论——从“君主”视角来看
2.
On the Disintegration of Chain Structure of Thinking of Zhuzi s Theory by So-rai;
论荻生徂徕对朱子学连续性思维的解构
3.
An Introductory Analysis of Ogyu Sorai s Theory and Practice in Chinese Language Education;
试析荻生徂徕关于汉语教育的理论与实践
4.
Ogyu Sori s Kogaku and Motoori Norinaga s Kokugaku in Japan;
日本古学与复古国学散论——以荻生徂徕与本居宣长为中心
5.
From "Inquiry Into Tao" to "Discrimination of Tao": A Comparison Between Han Yu s and Ogyu Sorai s Interpretations of the Tao Doctrine;
从《原道》到《辨道》——韩愈和荻生徂徕关于道的学说的比较
6.
In Memory of 1000th Anniversary of Shijie s Nativity;
鲁人之所瞻,子与山嵯峨——纪念徂徕先生石介诞生1000周年
7.
GEOLOGICAL AND GEOCHEMICAL CHARACTERISTICS AND FORMATION MECHANISM OF THE ARCHAEAN COMPLEX ROCK BODIES IN THE CULAISHAN-XINFUSHAN AREA
徂徕山—新甫山地区太古宙杂岩体地质地球化学特征及生成机制
8.
Sorai School s Inheritance and Transcendence of Confucian and Legalist Theory of "Human Natural Feelings";
日本徂徕学派对儒法“人情论”的继承与超越
9.
Deconstruction and Reconstruction of Noumenon--An analysis on Japanese Sorai School;
本体的解构与重建——日本徂徕学的一个解析
10.
The Leica camera and the celluloid film cooperated to produce the best possible results.
徕卡相机和胶片产生了最佳的效果。
11.
Will the river-plant come up in its pride without wet earth? will the grass get tall without water?
蒲草没有泥,岂能发长?芦荻没有水,岂能生发?
12.
Can the rush grow up without mire? can the flag grow without water?
蒲草没有泥,岂能发长。芦荻没有水,岂能生发。
13.
Can the papyrus grow up without a marsh? Can the rushes grow without water?
伯8:11蒲草没有泥、能发长.荻没有水岂能生发。
14.
Mill Practice of Manufacturing Printing Paper with Amur Silver Grass Pulp on a High Speed Paper Machine (Part Ⅱ)
荻浆在高速纸机生产印刷纸的工艺实践(下)
15.
Mill Practice of Manufacturing Printing Paper with Amur Silver Grass Pulp on a High Speed Paper Machine (Part I)
荻浆在高速纸机生产印刷纸的工艺实践(上)
16.
Can papyrus grow tall where there is no marsh? Can reeds thrive without water?
11蒲草没有泥,岂能发长?芦荻没有水,岂能生发?
17.
Can papyrus shoot up without marsh? Can reeds grow without water?
11蒲草没有泥沼,岂能生长?芦荻没有水,岂能发旺?
18.
Effects of Cultivating Management Measures on the Growth and Energy Production Efficiency of Triarrhena Sacchariflora (Maxim.) Nakai;
栽培管理措施对荻生长发育和产能效率的影响