Time filter

Source Type

Li W.,CAS Shanghai Institute of Ceramics | Li W.,Key Scientific Research Base of Ancient Ceramics | Luo H.,CAS Shanghai Institute of Ceramics | Luo H.,Key Scientific Research Base of Ancient Ceramics | And 5 more authors.
Ceramics International | Year: 2011

Dehua county in Fujian province of China has a long history of white porcelain production from the Song to Qing Dynasties. The development and flourish of Dehua porcelain has always been closely related to the export trade. In this part of the study, white porcelain samples of the Song to Qing Dynasties excavated from Wanpinglun, Qudougong, Zulonggong, Jiabeishan and Xingjiao kiln sites were analyzed to investigate chemical compositions of body and glaze and the evolution regularity in the course of time. The study demonstrates that the composition of Dehua body has similar evolution regularity through the Song to Qing Dynasties with Dehua glaze, and the samples of the Ming Dynasty have extraordinary high K2O both in bodies and glazes. © 2010 Elsevier Ltd and Techna Group S.r.l.


Li W.,CAS Shanghai Institute of Ceramics | Li W.,Key Scientific Research Base of Ancient Ceramics | Luo H.,CAS Shanghai Institute of Ceramics | Luo H.,Key Scientific Research Base of Ancient Ceramics | And 5 more authors.
Ceramics International | Year: 2011

Dehua is one of the most famous white porcelain production areas and one of the main porcelain exporting centers in Southern China. In this part of the study, white porcelain samples from the Song to Qing Dynasties excavated from Wanpinglun, Qudougong, Zulonggong, Jiabeishan and Xingjiao kiln sites were analyzed to investigate microstructure and its physicochemical basis. Physical properties of the samples were also studied, to evaluate the quality of porcelain production of Dehua kiln in ancient times. © 2010 Elsevier Ltd and Techna Group S.r.l.


Li W.,CAS Shanghai Institute of Ceramics | Li W.,Key Scientific Research Base of Ancient Ceramics | Luo H.,CAS Shanghai Institute of Ceramics | Luo H.,Key Scientific Research Base of Ancient Ceramics | And 6 more authors.
Materials Research Society Symposium Proceedings | Year: 2011

Gongyi is the birthplace and one of the most famous production areas of white porcelain in China. In this study, white porcelain samples from the Northern Wei to Tang Dynasties excavated from Baihe and Huangye kiln sites were analyzed to investigate microstructure and its physicochemical basis. The result demonstrates that the formation of an interaction layer of Anorthite crystals and the accompanied phase-separation structure at glaze-body boundary is a common character of microstructure. And there is little probability for crystal precipitation within the glaze layer. © 2011 Materials Research Society.


Li W.-D.,Key Scientific Research Base of Ancient Ceramics | Li W.-D.,CAS Shanghai Institute of Ceramics | Zhang W.,Jingdezhen Ceramic Institute | Lu X.-K.,Key Scientific Research Base of Ancient Ceramics | And 4 more authors.
Jianzhu Cailiao Xuebao/Journal of Building Materials | Year: 2011

In this study, the hare's fur black-glazed porcelain sherds excavated from Jian kiln site, Jizhou kiln site and Yaozhou kiln site were taken as test samples. The glaze and body compositions, microstructures, crystal attributes and hare's fur forming mechanism were studied by means of EDXRF, SEM/EDS and XRD. The multivariate statistical analysis was applied to investigate the characteristics of the glaze and body compositions of the porcelains from the above three kiln sites. Similarities and differences among the hare's fur black-glazed porcelain samples from Jian kiln, Jizhou kiln and Yaozhou kiln were investigated.


Duan H.-Y.,Key Scientific Research Base of Ancient Ceramics | Kang B.-Q.,Key Scientific Research Base of Ancient Ceramics | Ding Y.-Z.,Key Scientific Research Base of Ancient Ceramics | Dou Y.-C.,Key Scientific Research Base of Ancient Ceramics | Miao J.-M.,Key Scientific Research Base of Ancient Ceramics
Jianzhu Cailiao Xuebao/Journal of Building Materials | Year: 2012

To investigate raw material and firing temperature technology characteristic of Qing Dynasty official building glazed tiles, the chemical composition, crystal composition, firing temperature, microstructure and physical properties of the bodies were determined and observed by wavelength dispersive X-ray fluorescence spectrometry (WDXRF), X-ray diffraction (XRD), thermomechanical analyzer and scanning electron microscope (SEM). Gangue raw materials collected from Beijing Mentougou region were also analyzed and discussed. The results indicate that chemical compositions of official glazed tile body in different period of Qing Dynasty have a little difference. Ancient potters selected gangue from different place, different stratum or applied different ratio of gangue in Mentougou region purposefully to make glazed tile body according to their physical chemical properties. Refractoriness of Qing Dynasty glazed tile bodies decreases gradually and firing temperature keeps similar, indicating that glazed tile bodies of late Qing Dynasty had higher sintering degree, better physical properties and denser microstructure.

Loading Key Scientific Research Base of Ancient Ceramics collaborators
Loading Key Scientific Research Base of Ancient Ceramics collaborators