To provide a thorough understanding of the international research status on architectural heritage protection and make a comparison between China and foreign countries, 342 articles published by International Journal of Architectural Heritage (IJAH), the one and the only journal concerning architectural heritage in the database of Web of Science, from 2014 to 2018 are analyzed using statistical and bibliometrics methods. From the analysis, it is shown that the research has focused on structural behavior, surveying and mapping, and material analysis, and that the international study is characterized by interactive multithematic structure among mechanical behaviors, material characterization, surveying and mapping, environmental science and others, and has selection bias of research objects, as well as employs multi-analysis research method etc. Besides, there is still a capacious development space for domestic research in quantitative analysis, interdisciplinary study, expansion of research contents.
[1] 陈曦. 建筑遗产"修复"理论的演变及本土化研究[J]. 中国文化遗产, 2019(1):17-23.
[2] 苏伯民. 国外遗址保护发展状况和趋势[J]. 中国文化遗产, 2005(1):104-107.
[3] 黄克忠. 走向二十一世纪的中国文物科技保护[J]. 敦煌研究, 2000(1):5-9.
[4] 郭宏. 论文物保护科学研究的内容与方法[J]. 文物保护与考古科学, 2003, 15(3):61-64.
[5] Jajac N, Rogulj K, Radnic J. Selection of the method for rehabilitation of historic bridges:A decision support concept for the planning of rehabilitation projects[J]. International Journal of Architectural Heritage, 2017, 11(2):261-277.
[6] Philokyprou M. Adaptation of new university uses in old buildings:The case of rehabilitation of listed buildings in limassolcyprus for university purposes[J]. International Journal of Architectural Heritage, 2014, 8(5):758-782.
[7] Ferreira T M, Costa A A, Costa A. Analysis of the out-ofplane seismic behavior of unreinforced masonry:A literature review[J]. International Journal of Architectural Heritage, 2015, 9(8):949-972.
[8] Sorrentino L, D'Ayala D, de Felice G, et al. Review of out-of-plane seismic assessment techniques applied to existing masonry buildings[J]. International Journal of Architectural Heritage, 2017, 11(1):2-21.
[9] Boscato G, Pizzolato M, Russo S, et al. Seismic behavior of a complex historical church in l'aquila[J]. international journal of architectural heritage, 2014, 8(5):718-757.
[10] Andreini M, De Falco A, Giresini L, et al. Mechanical characterization of masonry walls with chaotic texture:Procedures and results of in-situ tests[J]. International Journal of Architectural Heritage, 2014, 8(3):376-407.
[11] Restrepo Velez L F, Magenes G, Griffith M C. Dry stone masonry walls in bending-part I:Static tests[J]. International Journal of Architectural Heritage, 2014, 8(1):1-28.
[12] Gentile C, Saisi A, Cabboi A. Structural identification of a masonry tower based on operational modal analysis[J]. International Journal of Architectural Heritage, 2015, 9(2):98-110.
[13] Block P, Lachauer L. Three-Dimensional(3D) equilibrium analysis of gothic masonry vaults[J]. International Journal of Architectural Heritage, 2014, 8(3):312-335.
[14] Simon J, Bagi K. Discrete element analysis of the minimum thickness of oval masonry domes[J]. International Journal of Architectural Heritage, 2016, 10(4):457-475.
[15] Riggio M, Tomasi R, Piazza M. Refurbishment of a traditional timber floor with a reversible technique:Importance of the investigation campaign for design and control of the intervention[J]. International Journal of Architectural Heritage, 2014, 8(1):74-93.
[16] Magenes G, Penna A, Senaldi I E, et al. Shaking table test of a strengthened full-scale stone masonry building with flexible diaphragms[J]. International Journal of Architectural Heritage, 2014, 8(3):349-375.
[17] Garmendia L, Larrinaga P, Garcia D, et al. Textile-reinforced mortar as strengthening material for masonry arches[J]. International Journal of Architectural Heritage, 2014, 8(5):627-648.
[18] Silva B, Dalla Benetta M, da Porto F, et al. Compression and sonic tests to assess effectiveness of grout injection on three-leaf stone masonry walls[J]. International Journal of Architectural Heritage, 2014, 8(3):408-435.
[19] 吴葱, 梁哲. 建筑遗产测绘记录中的信息管理问题[J]. 建筑学报, 2007(5):12-14.
[20] Sfarra S, Bendada A, Ibarra-Castanedo C, et al. Santa Maria di Collemaggio Church (L'Aquila, Italy):Historical reconstruction by non-destructive testing techniques[J]. International Journal of Architectural Heritage, 2015, 9(4):367-390.
[21] Lezzerini M, Antonelli F, Columbu S, et al. Cultural heritage documentation and conservation:Three-Dimensional (3D) Laser Scanning and Geographical Information System (GIS) Techniques for thematic mapping of facade stonework of St. Nicholas Church (Pisa, Italy)[J]. International Journal of Architectural Heritage, 2016, 10(1):9-19.
[22] Chellini G, Nardini L, Pucci B, et al. Evaluation of seismic vulnerability of santamaria del mar in barcelona by an integrated approach based on terrestrial laser scanner and finite element modeling[J]. International Journal of Architectural Heritage, 2014, 8(6):795-819.
[23] Brumana R, Oreni D, Cuca B, et al. Strategy for integrated surveying techniques finalized to interpretive models in a Byzantine Church, Mesopotam, Albania[J]. International Journal of Architectural Heritage, 2014, 8(6):886-924.
[24] Uva G, Sanjust C A, Casolo S, et al. Antaeus project for the regional vulnerability assessment of the current building stock in historical centers[J]. International Journal of Architectural Heritage, 2016, 10(1):20-43.
[25] De Matteis G, Criber E, Brando G. Damage probability matrices for three-nave masonry churches in abruzzi after the 2009 L'aquila earthquake[J]. International Journal of Architectural Heritage, 2016, 10(2-3):120-145.
[26] 李佳佳, 张秉坚. 国际文物保护材料研究现状——基于Web of Science数据库2000-2016年期刊论文的定量分析[J]. 东南文化, 2017(3):6-15.
[27] Rosado T, Gil M, Caldeira A T, et al. Material characterization and biodegradation assessment of mural paintings:renaissance frescoes from Santo Aleixo Church, Southern Portugal[J]. International Journal of Architectural Heritage, 2014, 8(6):835-852.
[28] Sandak J, Sandak A, Riggio M. Characterization and monitoring of surface weathering on exposed timber structures with a multi-sensor approach[J]. International Journal of Architectural Heritage, 2015, 9(6):674-688.
[29] Kalamees T, Vali A, Kurik L, et al. The influence of indoor climate control on risk for damages in naturally ventilated historic churches in cold climate[J]. International Journal of Architectural Heritage, 2016, 10(4):486-498.
[30] Rajcic V, Skender A, Damjanovic D. An innovative methodology of assessing the climate change impact on cultural heritage[J]. International Journal of Architectural Heritage, 2018, 12(1):21-35.
[31] Gomes M I, Goncalves T D, Faria P. Unstabilized rammed earth:Characterization of material collected from old constructions in south portugal and comparison to normative requirements[J]. International Journal of Architectural Heritage, 2014, 8(2):185-212.
[32] Mateus L, Veiga M D R, de Brito J. In situ characterization of rammed earth wall renders[J]. International Journal of Architectural Heritage, 2015, 9(4):430-442.
[33] 赵鸿铁, 张风亮, 薛建阳, 等. 古建筑木结构的结构性能研究综述[J]. 建筑结构学报, 2012, 33(8):1-10.
[34] 宋晓胜, 苏经宇, 郭小东, 等. 中国木结构古建筑榫卯连接节点抗震性能研究进展[J]. 世界地震工程, 2014, 30(1):12-22.
[35] 吴俊奇, 张婧, 曾雪华. 新时期我国古建筑消防安全的现状及对策研究[J]. 给水排水, 2017, 53(4):85-90.
