Li Yi, Zhao Wen, Yan Yunqi. METHOD OF CONTINUAL ANALYSIS FOR SYSTEM RELIABILITY[J]. INDUSTRIAL CONSTRUCTION, 2005, 35(10): 26-28,39. doi: 10.13204/j.gyjz200510009
Citation:
LIANG Xiaodan, WANG Dan. Exploration and Research on Reconstruction of Shanghai No.2 Towel Factory into Nursing Home[J]. INDUSTRIAL CONSTRUCTION , 2022, 52(7): 66-71. doi: 10.13204/j.gyjzG21021904
Li Yi, Zhao Wen, Yan Yunqi. METHOD OF CONTINUAL ANALYSIS FOR SYSTEM RELIABILITY[J]. INDUSTRIAL CONSTRUCTION, 2005, 35(10): 26-28,39. doi: 10.13204/j.gyjz200510009
Citation:
LIANG Xiaodan, WANG Dan. Exploration and Research on Reconstruction of Shanghai No.2 Towel Factory into Nursing Home[J]. INDUSTRIAL CONSTRUCTION , 2022, 52(7): 66-71. doi: 10.13204/j.gyjzG21021904
Exploration and Research on Reconstruction of Shanghai No.2 Towel Factory into Nursing Home
1. Shanghai Urban Construction Vocational College, Shanghai 200438, China;
2. Shanghai Jianke Architectural Design Institute Co., Ltd., Shanghai 200032, China
Received Date: 2021-02-19
Available Online:
2022-10-28
Abstract
The necessity and urgency of transforming the industrial buildings in city center into nursing homes were analyzed. The combined strategies of the technology skill and art culture were studied and analyzed from the aspects of structure reconstruction, updated function, updated interface, environmental improvement, humanistic care, humanity and intelligent, the historical and cultural elements were also taken into account, the reconstruction of No.2 Towel Factory of Shanghai into a nursing home was taken as an example. The research could provide effective methods and measures to solve the reconstruction problems of industrial buildings in urban renewl.
References
[1]
赵秋燚. 基于社区既有建筑改造为养老设施设计研究[D].北京:北京建筑大学,2020.
[2]
刘伯英. 工业建筑遗产保护发展综述[J]. 建筑学报,2012(1):12-17.
[3]
王建强,戎俊强. 城市产业类历史建筑及地段的改造再利用[J]. 世界建筑,2001(6):17-22.
[4]
李灏滨. 面向众创空间的旧工业建筑改造设计策略研究[D].济南:山东建筑大学,2019.
[5]
左琰. 德国柏林工业建筑遗产的保护与再生[M].南京:东南大学出版社,2007.
[6]
吴良镛. 建筑城市人居环境[M].石家庄:河北教育出版社,2003.
[7]
王蒙徽. 实施城市更新行动[J]. 智能建筑与智慧城市,2020(12):5-7.
[8]
郑国培. 促进上海轻工业持续快速健康地发展[J]. 上海轻工业,1995(1):3-6.
[9]
百度百科.中心城区名词解释[EB/OL] [2020-12-12].https://baike.baidu.com/item/%E4%B8%AD%E5%BF%83%E5%9F%8E%E5%8C%BA/4369940?fr=aladdin.
[10]
上海市统计局编.上海统计年鉴(2017)[M].上海:上海人民出版社,2018.
[11]
杨昕.人口老龄化背景下康复医疗服务享有的影响因素分析[J].上海经济,2020(4):35-47.
[12]
春燕,郭海生,王灿.上海人口老龄化如何影响经济社会发展[J].上海经济研究,2019(8):51-63.
[13]
FOLLAND S, GOODMAN A C, STANO M. Economics of Health and Health Care[M]. Upper Saddle River, New Jersey:Prentice Hall,1997.
[14]
王丹,唐磊,梁晓丹,等. 一种楼层式建筑物外立面的绿幕系统:CN201610312375.0[P].2018-11-09.
Relative Articles
[1] ZHOU Wansen, ZHONG Jufang, ZHANG Yanhong, HU Xiao. Research on Time-Frequency Parameter Prediction Models of Ground Motion [J]. INDUSTRIAL CONSTRUCTION, 2024, 54(12): 177-185. doi: 10.3724/j.gyjzG22110105
[2] SUN Xiaoyun, HUANG Linjie, ZENG Bin, SHI Zheng, XIE Qin. Analysis of Seismic Performance of Self-Centering Concrete Frame Structures Characterized by Low Prestressing and Slope Friction [J]. INDUSTRIAL CONSTRUCTION, 2024, 54(10): 38-45. doi: 10.3724/j.gyjzG24091003
[3] SUI Weining, MA Yong, YANG Haitao, WU Jinguo. Experimental Study on Mechanical Properties of a New Connection Joint Between PC External Wall Panel and Steel Frame with Frictional Energy Dissipation [J]. INDUSTRIAL CONSTRUCTION, 2023, 53(5): 109-117. doi: 10.13204/j.gyjzG22011501
[4] LIU Hang, LI Mu, YANG Xuezhong, HAN Mingjie, TIAN Yuji. Experimental Research on Seismic Performance of Self-centering Prefabricated RC Frame Structures [J]. INDUSTRIAL CONSTRUCTION, 2022, 52(1): 65-73. doi: 10.13204/j.gyjzG21062601
[5] HUANG Linjie, ZENG Bin, ZHOU Zhen, ZHANG Wenqing, SANG Chenxu, ZHANG Jingru. Influence of Joint Stiffness After Gap Opening on Seismic Performance of Self-Centering Prestressed Concrete Frames with Variable Friction Dampers [J]. INDUSTRIAL CONSTRUCTION, 2022, 52(12): 88-93. doi: 10.13204/j.gyjzG22072916
[6] CHANG Zhaoqun, LIU Boquan, HAN Meng, BAI Tao, XING Guohua, WANG Shuangbing. DESIGN AND NUMERICAL ANALYSIS OF AN INNOVATIVE SELF-CENTERING FRICTION DAMPER [J]. INDUSTRIAL CONSTRUCTION, 2021, 51(9): 138-142,221. doi: 10.13204/j.gyjzG20080402
[7] HUANG Ming, LIU Ye, DING Yi, LYU Qingfang. EXPERIMENTAL RESEARCH ON SELF-CENTERING CLB ROCKING WALL EQUIPPED WITH CFD [J]. INDUSTRIAL CONSTRUCTION, 2021, 51(10): 40-46,61. doi: 10.13204/j.gyjzG21042509
[8] HAN Tengfei, XU Gang, LI Liang, LI Xiaodong, XI Xiangdong. RESEARCH AND APPLICATION OF SHEAR RESISTANCE OF FRICTION CONNECTION WITH HIGH STRENGTH BOLTS [J]. INDUSTRIAL CONSTRUCTION, 2020, 50(11): 133-136. doi: 10.13204/j.gyjzG201909120001
[9] HUANG, Linjie, ZHOU, Zhen. INVESTIGATION ON INFLUENCE OF INFILL WALLS ON HIGHER MODE EFFECT OF SELF-CENTERING PRESTRESSED CONCRETE FRAME STRUCTURES [J]. INDUSTRIAL CONSTRUCTION, 2020, 50(1): 34-39. doi: 10.13204/j.gyjz202001007
[10] MENG, Shaoping, CAI, Xiaoning. RESEARCH PROGRESS ON PRESTRESSED SELF-RESETTING CONCRETE FRAME STRUCTURE [J]. INDUSTRIAL CONSTRUCTION, 2020, 50(1): 1-6. doi: 10.13204/j.gyjz202001001
[11] MA, Junfeng, ZHOU, Zhen. HYSTERICAL BEHAVIOR OF AN UPPER-BOTTOM FRICTION DAMPER SELF-CENTERING PRESTRESSED CONCRETE BEAM-COLUMN CONNECTION WITH HIDDEN CORBEL [J]. INDUSTRIAL CONSTRUCTION, 2020, 50(1): 16-21,124. doi: 10.13204/j.gyjz202001004
[14] Liu Pengfei, Zhao Qilin, Jiang Kebin, Gao Hesheng. THEORETIC RESEARCH ON FRICTION LOSS OF PRE-STRESS IN LARGE-SPAN CONCRETE BRIDGE [J]. INDUSTRIAL CONSTRUCTION, 2011, 41(10): 64-67. doi: 10.13204/j.gyjz201110016
[15] Wu Yingjun, Chen Zhihua, LüQing. RESEARCH AND APPLICATION OF ROLL CABLE-STRUT JOINT IN SUSPEND-DOME [J]. INDUSTRIAL CONSTRUCTION, 2010, 40(8): 27-29,34. doi: 10.13204/j.gyjz201008007
[16] Wu Zhuanqin, Zeng Zhaobo, Shang Renjie, Liu Jingliang. EXPERIMENTAL STUDY ON FRICTION COEFFICIENT OF RETARD-BONDED PRESTRESSING STRAND [J]. INDUSTRIAL CONSTRUCTION, 2008, 38(11): 20-23. doi: 10.13204/j.gyjz200811006
[17] Cai Jiangyong. IMPROVING SUGGESTION ON CALCULATION METHOD OF FRICTION LOSS IN PRESTRESSED CONCRETE STRUCTURE [J]. INDUSTRIAL CONSTRUCTION, 2004, 34(4): 94-95,75. doi: 10.13204/j.gyjz200404029
Cited by Periodical cited type(1) 1. 张文超,李帅. 结构抗震时程分析输入地震波选择方法研究. 砖瓦. 2024(07): 73-75 .
Other cited types(4)
Proportional views
Created with Highcharts 5.0.7 Amount of access Chart context menu Abstract Views, HTML Views, PDF Downloads Statistics Abstract Views HTML Views PDF Downloads 2024-04 2024-05 2024-06 2024-07 2024-08 2024-09 2024-10 2024-11 2024-12 2025-01 2025-02 2025-03 0 2.5 5 7.5 10 12.5
Created with Highcharts 5.0.7 Chart context menu Access Class Distribution FULLTEXT : 14.4 % FULLTEXT : 14.4 % META : 84.0 % META : 84.0 % PDF : 1.5 % PDF : 1.5 % FULLTEXT META PDF
Created with Highcharts 5.0.7 Chart context menu Access Area Distribution 其他 : 8.2 % 其他 : 8.2 % China : 1.5 % China : 1.5 % 上海 : 0.5 % 上海 : 0.5 % 保定 : 0.5 % 保定 : 0.5 % 信阳 : 0.5 % 信阳 : 0.5 % 北京 : 4.1 % 北京 : 4.1 % 南通 : 0.5 % 南通 : 0.5 % 南阳 : 0.5 % 南阳 : 0.5 % 厦门 : 0.5 % 厦门 : 0.5 % 台州 : 0.5 % 台州 : 0.5 % 呼和浩特 : 0.5 % 呼和浩特 : 0.5 % 嘉兴 : 0.5 % 嘉兴 : 0.5 % 大庆 : 0.5 % 大庆 : 0.5 % 天津 : 0.5 % 天津 : 0.5 % 太原 : 0.5 % 太原 : 0.5 % 宁波 : 0.5 % 宁波 : 0.5 % 宿州 : 1.0 % 宿州 : 1.0 % 常德 : 0.5 % 常德 : 0.5 % 廊坊 : 1.0 % 廊坊 : 1.0 % 延安 : 0.5 % 延安 : 0.5 % 张家口 : 5.2 % 张家口 : 5.2 % 无锡 : 1.5 % 无锡 : 1.5 % 昆明 : 0.5 % 昆明 : 0.5 % 晋城 : 0.5 % 晋城 : 0.5 % 朝阳 : 0.5 % 朝阳 : 0.5 % 杭州 : 1.5 % 杭州 : 1.5 % 桂林 : 0.5 % 桂林 : 0.5 % 沈阳 : 0.5 % 沈阳 : 0.5 % 深圳 : 0.5 % 深圳 : 0.5 % 潍坊 : 0.5 % 潍坊 : 0.5 % 芒廷维尤 : 11.9 % 芒廷维尤 : 11.9 % 芝加哥 : 3.1 % 芝加哥 : 3.1 % 苏州 : 0.5 % 苏州 : 0.5 % 蚌埠 : 1.0 % 蚌埠 : 1.0 % 西宁 : 34.5 % 西宁 : 34.5 % 西安 : 0.5 % 西安 : 0.5 % 贵阳 : 1.5 % 贵阳 : 1.5 % 运城 : 5.7 % 运城 : 5.7 % 邯郸 : 0.5 % 邯郸 : 0.5 % 郑州 : 1.5 % 郑州 : 1.5 % 金华 : 0.5 % 金华 : 0.5 % 长沙 : 0.5 % 长沙 : 0.5 % 阳泉 : 2.1 % 阳泉 : 2.1 % 黄冈 : 0.5 % 黄冈 : 0.5 % 其他 China 上海 保定 信阳 北京 南通 南阳 厦门 台州 呼和浩特 嘉兴 大庆 天津 太原 宁波 宿州 常德 廊坊 延安 张家口 无锡 昆明 晋城 朝阳 杭州 桂林 沈阳 深圳 潍坊 芒廷维尤 芝加哥 苏州 蚌埠 西宁 西安 贵阳 运城 邯郸 郑州 金华 长沙 阳泉 黄冈