Relevant bibliographies by topics / Xuanhuah

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters

Academic literature on the topic 'Xuanhuah'

Author: Grafiati
Published: 12 December 2022
Last updated: 26 January 2023

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Journal articles on the topic "Xuanhuah"

1

Li, Xuanhua, Jinmeng Zhu, and Bingqing Wei. "Correction: Hybrid nanostructures of metal/two-dimensional nanomaterials for plasmon-enhanced applications." Chemical Society Reviews 45, no. 14 (2016): 4032. http://dx.doi.org/10.1039/c6cs90055k.

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2

Zhou, Danyi, Guanghai Shi, Suzhen Liu, and Bailing Wu. "Mineralogy and Magnetic Behavior of Yellow to Red Xuanhua-Type Agate and Its Indication to the Forming Condition." Minerals 11, no. 8 (August 13, 2021): 877. http://dx.doi.org/10.3390/min11080877.

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Iron oxides/hydroxides are important magnetic minerals to provide information about changes in the forming environment. However, the magnetic behavior in agate has been rarely investigated. In this study, the magnetic behavior of the Xuanhua-type agate with intense yellow to red colors from the Xuanhua District (China) was investigated by temperature dependence of magnetic susceptibility, hysteresis loop, isothermal remanent magnetization and the analysis of remanent coercivity components from the gradient acquisition plot. Yellow goethite and red hematite can be quantitatively identified by XRD and Raman spectroscopy due to their relatively higher content. Results showed that the red, yellow and orange Xuanhua-type agate had different magnetic behavior, and magnetite existed in the yellow and orange ones. Fluid inclusions in such agate had the homogenization temperature of ~168 °C to 264 °C. All results suggested that the dehydration of goethite to form hematite was the main reason for the high remnant coercivity (above 1000 mT) of hematite in the red agate. The co-existence of magnetite and goethite in the yellow and orange agate reflects the transformation from Fe2+ to Fe3+, indicating the change in the redox property of the environment. Unique patterns mainly formed by hematite and goethite make it a popular gem-material with high research value.
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3

Han, Xiu Li, Chang Cun Li, and Li Na Liu. "Study on Processing Mineralogy of Xuanhua Iron Ore." Applied Mechanics and Materials 50-51 (February 2011): 751–55. http://dx.doi.org/10.4028/www.scientific.net/amm.50-51.751.

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The chemical component, mineral composition and dissemination characteristics of Xuanhua iron ore are researched systematically. The result shows that: the iron ore mainly is oolitic structure and colloform, xenomorphic granular texture, the mineral composition is complex, the primary metallic minerals is hematite, and the rocky minerals mainly is quartz, followed by carbonate, epidote, chlorite, and amphibole. The diffraction size of hematite and rocky minerals is fine. It is difficult to liberate between hematite and rocky minerals and easy to be mud. The iron ore is very hard to separate, and it can be used in the process of stage grinding and concentration.
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4

Zhang, Zhi Xia, Chang Qing Hu, Hang Yu Wei, and Yu Zhu Zhang. "Study on Desulfurizing Capability of XuanHua Steelworks Titanium Slag." Advanced Materials Research 146-147 (October 2010): 109–17. http://dx.doi.org/10.4028/www.scientific.net/amr.146-147.109.

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The influence of Titanium slag with different compositions on desulfurizing was investigated, and the influence reasons based on the experiments of viscosity was also analysed. Basicity and composition of the slag was optimum as follows: the basicity 1.15~1.2, the content of TiO2 under 7wt%, the content of MgO 10wt%~11wt%, the content of MnO2 0.5wt%, the content of Al2O3 under 11wt%.
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5

Liu, Yu, Wu Xiang, Jie Zhu, Xiu-Zhi Zhang, Xu-Dong Xing, and Wei-Lin Yang. "Biogeochemical responses of soil ecosystems to raw coal pollution in Xuanhua, China." Journal of Soils and Sediments 20, no. 1 (July 2, 2019): 181–89. http://dx.doi.org/10.1007/s11368-019-02387-3.

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6

Zhao, Ding Guo, Shu Huan Wang, and He Jun Zhang. "Research on the Control of Oxide and Nitride Inclusions in Steelmaking." Applied Mechanics and Materials 189 (July 2012): 40–43. http://dx.doi.org/10.4028/www.scientific.net/amm.189.40.

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The contents of oxygen and nitrogen were important effect on the high speed wire in smelting high carbon steel. Sampled from the process of producing wire rod in Xuanhua iron and steel company and analyzed the contents of oxygen and nitrogen. The quality and size of oxide and nitride were numerical statement in differernt terms. The results were shown that the size of micro inclusion was less than 15 μm, and the inclusion size was not big, but the quantity was large. The quantity of micro inclusions in wire rod was about 10 /mm2 (equivalent diameter of 5 μm). Through the practice analysis and research, we put forward the measures of inclusion control for 65 steel including raw material requirement, improving of the converter, LF refining and continuous casting operations.
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7

Qingquan, Li, and Fei Deng. "Some Aspects of Time and Space as Seen in Liao-dynasty Tombs in Xuanhua." Art in Translation 2, no. 1 (March 2010): 29–54. http://dx.doi.org/10.2752/175613110x12669330556874.

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8

Wang, Yehan. "Xuanhuan Novels in the Context of Consumerism: A Reflection on a Social Trend in Contemporary China." OMNES: The Journal of Multicultural Society 10, no. 1 (January 31, 2020): 57–80. http://dx.doi.org/10.14431/omnes.2020.01.10.1.57.

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9

Ma, Jun, and Renmin Wang. "The reaction space and differentP-T evolution of Xuanhua and Miyun basic granulites in North China Craton." Science in China Series D: Earth Sciences 40, no. 2 (April 1997): 166–72. http://dx.doi.org/10.1007/bf02878375.

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10

Feng, Yunlei, Hao Wei, Dong Li, and Wenbiao Du. "Age of Gold Mineralizations of Dongping and Xiaoyingpan Gold Deposits in North China Craton: Constraints from the Zircon U–Pb Dating and Fission-Track Analysis." Minerals 12, no. 7 (June 29, 2022): 831. http://dx.doi.org/10.3390/min12070831.

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Northwest Hebei province is one of the gold-producing areas in China. Based on a geochronological analysis of the Zhangjiakou-Xuanhua area, zircon U–Pb with an age of 2487–142 Ma and zircon fission-track (ZFT) with a cooling age of 155–66 Ma were obtained. Zircon U–Pb dating of the Xiaoyingpan deposit revealed two ages of 2487 ± 92 Ma and 1745 ± 89 Ma, representing the Archaean and Early Proterozoic metamorphism of the Sanggan Group. The ZFT cooling age of 155 ± 10 Ma represents the deposit’s lower limit metallogenic age. The Shuiquangou (SQG) alkaline complex emplaced at 388.9 ± 3.0 Ma and experienced magmatic activities until the Late Devonian (ca 377 Ma), considering the response to the collision between the Siberian plate and the North China Craton. The emplacement age of Shangshuiquan (SSQ) granite is 142.3 ± 1.1 Ma and is coeval with the thinning of the North China Craton during the Late Jurassic–Early Cretaceous. The intrusion of SSQ might partially reheat the SQG complex, resulting in the Yanshanian gold mineralization in Dongping. The SQG complex and SSQ granite underwent a relatively consistent rapid cooling process in the Cretaceous based on the ZFT ages.
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Dissertations / Theses on the topic "Xuanhuah"

1

Tong, Chen. "Square Dancing in the Streets, Xuanhua, China." The Ohio State University, 2013. http://rave.ohiolink.edu/etdc/view?acc_num=osu1366332902.

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2

Liu, Xuanhui [Verfasser], and A. [Akademischer Betreuer] Mädche. "Designing Decision Aids for Digital Service Design Technique Selection / Xuanhui Liu ; Betreuer: A. Mädche." Karlsruhe : KIT-Bibliothek, 2019. http://d-nb.info/1193126703/34.

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3

"河北宣化遼墓壁畫備茶圖研究." 2005. http://library.cuhk.edu.hk/record=b5896423.

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Abstract:
盧君賜.
"2005年6月".
論文(哲學碩士)--香港中文大學, 2005.
參考文獻(leaves 157-166).
"2005 nian 6 yue".
Abstracts in Chinese and English.
Lu Junci.
Lun wen (zhe xue shuo shi)--Xianggang Zhong wen da xue, 2005.
Can kao wen xian (leaves 157-166).
論文提要
緒論 --- p.1
Chapter 第一章 --- 宣化遼墓簡略 --- p.7
Chapter 第一節 --- 宣化背景 --- p.7
Chapter 第二節 --- 宣化遼墓群狀況 --- p.10
Chapter (1) --- M1 (張世卿墓)
Chapter (2) --- M2 (張恭誘墓)
Chapter (3) --- M3 (張世本墓)
Chapter (4) --- M4 (韓師訓墓)
Chapter (5) --- M5(張世古墓)
Chapter (6) --- M6(張姓墓)
Chapter (7) --- M7 (張文藻墓)
Chapter (8) --- M8
Chapter (9) --- M9(張姓墓)
Chapter (10) --- M10 (張匡正墓)
Chapter (11) --- M12和11區M1、2
Chapter 第三節 --- 宣化遼墓群的分類 --- p.19
Chapter 第二章 --- 宣化備茶圖 --- p.28
Chapter 第一節 --- “備茶圖´ح之定義 --- p.28
Chapter 第二節 --- 宣化各墓備茶圖 --- p.31
Chapter (1) --- M10 (張匡正墓)
Chapter (2) --- M7 (張文藻墓)
Chapter (3) --- M3 (張世本墓)
Chapter (4) --- M6 (張姓墓)
Chapter (5) --- M9(張姓墓)
Chapter (6) --- Ml (張世卿墓)
Chapter (7) --- M5 (張世古墓)
Chapter (8) --- M2(張恭誘墓)
Chapter (9) --- M4 (韓師訓墓)
Chapter 第三章 --- 宣化遼墓群備茶圖比較 --- p.43
Chapter 第一節 --- 宣化備茶圖之間的關係 --- p.43
Chapter (1) --- 與備茶圖相對的備酒圖
Chapter (2) --- 宣化備茶圖的比較和組合
Chapter 第二節 --- 遼墓的備茶圖 --- p.51
Chapter 第三節 --- 與遼朝以外的備茶圖比較 --- p.63
Chapter (1) --- 與宋代備茶圖比較
Chapter (2) --- 與金元備茶圖比較
Chapter 第四章 --- 經宣化備茶圖認識宋遼的備茶步驟 --- p.84
Chapter 第一節 --- 唐宋的飲茶風¯‘ة --- p.84
Chapter 第二節 --- 唐宋的煮飲方法 --- p.90
Chapter 第三節 --- 遼朝的飲茶風¯‘ة --- p.92
Chapter (1) --- 遼朝茶葉輸入
Chapter (2) --- 遼朝對茶的使用
Chapter 第四節 --- 備茶步驟 --- p.97
Chapter (1) --- 碾茶
Chapter (2) --- 煮湯
Chapter (3) --- 沖點
結語 --- p.141
附錄
附錄:遼代主要壁畫墓葬及壁畫題材 --- p.145
參考書目 --- p.157
圖版
圖版目錄 --- p.167
第一章圖版 --- p.177
第三章圖版 --- p.218
第四章圖版 --- p.254
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Books on the topic "Xuanhuah"

1

Sheng Xuanhuai. [Harbin]: Ha'erbin chu ban she, 1996.

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2

Han, Bo. Sheng Xuanhuai. Xianggang: Tian di tu shu you xian gong si, 1997.

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3

Qin shang Sheng Xuanhuai. Wuhan Shi: Chong wen shu ju, 2009.

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4

Ling, Mei, ed. Zhongguo shang fu: Sheng Xuanhuai. Beijing: Guo ji wen hua chu ban gong si, 1996.

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5

Xuanhua xian zhi, 1989-2006. Shijiazhuang Shi: Hebei ren min chu ban she, 2011.

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6

Wang, Fushi. Xuanhua fang yan di tu. Dongjing: Guo li Ya Fei yu yan wen hua yan jiu suo, 1994.

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Wang, Fushi. Xuanhua fang yan di tu. Dongjing: Guo li Ya Fei yu yan wen hua yan jiu suo, 1994.

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8

Jiu bian zhi shou: Xuanhua. Shijiazhuang Shi: Hebei mei shu chu ban she, 2008.

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9

Xi shuo Sheng Xuanhuai jia zu. Shanghai Shi: Shanghai ci shu chu ban she, 2015.

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Sheng Xuanhuai nian pu chang bian. Shanghai Shi: Shanghai jiao tong da xue chu ban she, 2004.

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Book chapters on the topic "Xuanhuah"

1

"Formation and mechanical analysis of Tiantai landslide of Xuanhan county, Sichuan province." In Landslides and Engineered Slopes. From the Past to the Future, Two Volumes + CD-ROM, 1221–26. CRC Press, 2008. http://dx.doi.org/10.1201/9780203885284-165.

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Huang, Run-qiu, Songjiang Vinogradov, and Xiaobing Song. "Formation and mechanical analysis of Tiantai landslide of Xuanhan county, Sichuan province." In Landslides and Engineered Slopes. From the Past to the Future, 1177–81. CRC Press, 2008. http://dx.doi.org/10.1201/9780203885284-c155.

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