程灵,肖卓豪,肖晓东,李秀英,酉波

• 1:景德镇陶瓷大学
• 2:荥经县古城黑砂产业技术研究院

摘要(Abstract)：

荥经黑砂器作为四川省荥经县的特色砂陶，是荥经人民勤劳与智慧的产物。随着科技的进步，陶瓷的性能与工艺发生了翻天覆地的变化。荥经黑砂传统的技艺如何适应工业化发展，荥经黑砂的文化传承与时代特征如何协调，成为众多研究者面对的难题。本文基于荥经黑砂陶瓷的原料组成及成分特点，提出了发展高热稳定性烹调用餐炊具产品的三条技术路线，为荥经黑砂的创新发展与传承保护提供新的参考思路。

关键词(KeyWords)： 荥经黑砂;荥经砂器;砂陶

Abstract:

Keywords:

基金项目(Foundation): 江西省科技厅项目(jxsq2019201036,20223AAE02010);; 景德镇市科技项目(2021ZDGG006)

作者(Author): 程灵,肖卓豪,肖晓东,李秀英,酉波

DOI: 10.13958/j.cnki.ztcg.2023.01.006

参考文献(References)：

• [1]李豇乐.探寻荥经黑砂的多元化发展之路[J].长江丛刊,2019(22):21-22.
• [2]白英.黑砂之美：荥经砂器[J].资源与人居环境,2021(3):54-59.
• [3]何毅华.一种现代意义的乐烧形式：雅安荥经砂器的烧制技艺[J].陶瓷科学与艺术,2017,51(2):44-47.
• [4]高杨,李玉莲,韩刚.浅析荥经砂器的形成、类别及其主要特征[J].内江科技,2020,41(3):61-63.
• [5]王颖,张思涵,傅国庆,等.土与火的艺术：荥经砂器工艺探究[J].文物鉴定与鉴赏,2020(9):64-65.
• [6]胡付照.紫砂茗壶文化价值研究[M].北京：中国物资出版社,2009:214.
• [7]徐平.雅安荥经砂器工艺文化探析[J].四川省干部函授学院学报,2019(2):49-53.
• [8]何毅华,邹艳红.浅析雅安荥经砂器的工艺特征：一种集“天时、地气、材美、工巧”的砂器艺术[J].中国陶瓷,2015,51(9):94-97.
• [9]韦小英,王崇东.荥经砂器造物适宜性研究[J].西部皮革,2020,42(18):47-48.
• [10]枊宗悦.工艺文化[M].徐艺乙,译.桂林:广西师范大学出版社,2011:308.
• [11]韦小英.荥经砂器造物方法与设计研究[D].西华大学,2021.
• [12]黄明,徐金蓉,李奎.基于ICP-MS的四川荥经砂器微量元素分析[J].河南科学,2012,30(12):1730-1733.
• [13]REEDY C L,VANDIVER P B,HE T,et al. Research into coal-clay composite ceramics of Sichuan province[J]. MIRS Advamces,2017,2(37/38):2043-2079.
• [14]何海南.四川荥经砂器的承续与转型研究[D].四川美术学院,2019.
• [15]白玥.荥经砂器在地设计途径研究[D].四川美术学院,2019.
• [16]《荥经县志》编纂委员会编.荥经县志:1986-2000[M].北京：方志出版社,2011:544.
• [17]何海南,李秋妍.荥经砂器历史发展演变探究[J].民艺,2021(5):20-23.
• [18]马高骧.闪光的黑砂器:谈四川荥经砂器新貌[J].陶瓷研究,1988(3):11-13.
• [19]杨曙光.土与火的传奇:荥经砂器[J].中华儿女,2013(1):39-44.
• [20]王鹏.四川荥经砂器研究[D].贵州师范大学,2016.
• [21]李莉.浅析荥经砂器地域特色文化现象[J].西部皮革,2017,39(14):22.
• [22]白晓宇.创新是最好的传承:如何保护和传承四川雅安荥经砂器[J].大众文艺,2017(3):59.
• [23]毛安澜.从工艺特色探寻雅安荥经砂器之现状与发展[J].西部皮革,2018,40(5):72.
• [24]白玥.荥经砂器的跨材料延伸[J].陶瓷研究,2018,33(3):27-29.
• [25]TRN K A,NCARON I T,RCARON R S,et al. Use of fly ash in ceramic tiles:Elastic properties during firing[J]. The Ceramic Society of Japan,2013,121(1419):925-929.
• [26]MIYAKE A. Effects of Ionic size in the tetrahedral and octahedral sites on the thermal expansion of low-temperature cordierite[J]. Journal of the American Ceramic Society,2005,88(2):362-366.
• [27]鲁媛媛,鹿桂花,周恒为,等.锂辉石/碳化硅复相陶瓷材料的制备与性能[J].物理学报,2020,69(11):318-324.
• [28]周林平,王家邦,杨辉.钛酸铝材料综述[J].陶瓷,2008(10):10-15.
• [29]MINA S,KIWOONG C,JEONG S K,et al. Crystal structure and thermal expansion coefficient of cordierite honeycomb ceramics[J]. Physica Status Solidi(a),2019,216(4):1700994.
• [30]SRIVASTAVA A,SINGH V K,KUMAR V,et al. Some studies on ceria–zirconia reinforced solvothermally synthesized cordierite nano-composites[J]. Journal of Alloys and Compounds,2014,586:581-587.
• [31]WANG L L,MA B Y,REN X M. ZrO2 and MxOy(M=La,Ce,and Nb)synergistically reinforced porous cordierite ceramics synthesized via a facile solid-state reaction[J]. Ceramics International,2022,48:25772-25780.
• [32]OBRADOVI N,PAVLOVI V P,KACHLIK M,et al. Processing and properties of dense cordierite ceramics obtained through solid-state reaction and pressure-less sintering[J].Advances in Applied Ceramics,2018:1-8.
• [33]EI-BUAISHI N M,JANKOVIC-CASTVAN I,JOKICB,et al. Crystallization behavior and sintering of cordierite synthesized by an aqueous sol-gel route[J]. Creamics International,2012,38(3):1835-1841.
• [34]EI-BUAISHI N M,VELJOVIC D,JOKIC B,et al. Conventional and spark-plasma sintering of cordierite powders synthesized by sol-gel methods[J]. Ceramics International,2013,39:5845-5854.
• [35]TANG W F,ZHANG Q,LUO Z W,et al. The effects of Co2O3 addition on crystallization,microstructure and properties of cordierite-based glass-ceramics[J]. Silicon,2018,16:9742-9748.
• [36]OBRADOVI?N,FILIPOVI?S,?OR?EVI?N,et al. Effects of mechanical activation and two-step sintering on the structure and electrical properties of cordierite-based ceramics[J]. Ceramics International,2016,42(12):13909-13918.
• [37]BANJURAIZAH J,MOHAMAD H,AHMAD Z A. Crystal structure of single phase and low sintering temperature ofα-cordierite synthesized from talc and kaolin[J]. Journal of Alloys and Compounds,2009,482(1/2):429-436.
• [38]REDAOUI D,SAHNOUNE F,HERAIZ M,et al. Phase formation and crystallization linetics in cordierite ceramics prepared from laplinite and magnesia[J]. Ceramics International,2017,17:1-24.
• [39]HUI T,SUN H J,PENG T J. Preparation and characterization of cordierite-based ceramic foams with permeable property from asbestos tailings and coal fly ash[J]. Journal of Alloys and Compounds,2021,885:160967.
• [40]HARRATI A,ARKAME Y,MANNI A,et al. Cordierite-based refractory ceramics from natural halloysite and peridotite:Insights on technological properties[J]. Journal of the Indian Chemical Society,2022,99(6):100496.
• [41]GUEDES M,FERRO A,FERREIRA J M F. Nucleation and crystal growth in commercial LAS compositions[J]. Journal of the European Ceramic Society,2001,21(9):1187-1194.
• [42]WELSCH A M,PREKAJSKI M,KREMENOVIC A,et al.Ionic conductivity in single-crystal Li Al Si2O6:Influence of structure on lithium mobility[J]. Physics and Chemistry of Minerals,2015:732-739.
• [43]NAGA S M,EL-MAGHRABY A A,HASSAN A M. Mullite/β-spodumene composites:Preparation and characterization[J]. Ceramics International,2016,42(10):12161-12166.
• [44]AWAAD M,MORTEL H,NAGA S M. Densification,mechanical and microstructure properties of β-spodumene—alumina composites[J]. Journal of Materials Science,2005,16(6):377-381.
• [45]NAGA S M,EL-MAGHRABY A A,M RTEL H. Densification and characterization of β-spodumene-cordierite compositions[J]. American Ceramic Society Bulletin,2006,85(11):9101-9106.
• [46]LIN B,LI S P,HOU X J,et al. Preparation of high performance mullite ceramics from high-aluminum fly ash by an effective method[J]. Journal of Alloys and Compounds,2015,623:359-361.
• [47]LUO Y,MA S H,ZHENG S L,et al. Mullite-based ceramic tiles produced solely from high-alumina fly ash Preparation and sintering mechanism[J]. Journal of Alloys and Compounds,2018,732:828-837.