随着我国社会经济的飞速发展,建筑业也得到了快速发展。建筑结构设计主要分为三个阶段:结构方案阶段、构计算阶段与施工图设计阶段。其中结构方案阶段的内容是:根据建筑的重要性,工程地质勘查报告,建筑所在地的抗震设防烈度,建筑的高度和楼层的层数以及建筑场地的类别来确定建筑的结构形式。下面是搜素整理的建筑结构设计英文参考文献,欢迎借鉴参考。
建筑结构设计英文参考文献一:
[1]Jalili-Kharaajoo, M., Kangharloo, K., Roudsari, F.H.. Fuzzy sliding mode control design based on genetic algorithms: application to building structures[P]. Industrial Technology, 2004. IEEE ICIT '04. 2004 IEEE International Conference on,2004.
[2]Yao Zhang, Hao Ma, Fei Xu. Design Issues of Building Block Structure Communications for Power Electronic System[P]. Power Electronics Specialists Conference, 2006. PESC '06. 37th IEEE,2006.
[3]Ke Xiang, Chaohao Su. Bionic design of building structure based on digital technology — The design of the structural morphology of Muping Sports Center[P]. Electronic and Mechanical Engineering and Information Technology (EMEIT), 2011 International Conference on,2011.
[4]Ping Wei, Hongbing Chen, Yaying Zhang. Fuzzy controller design for a semi-active variable stiffness control system on building structures[P]. Transportation, Mechanical, and Electrical Engineering (TMEE), 2011 International Conference on,2011.
[5]Juan Zhang. The design of the building materials management system based on B/S structure[P]. Computer Science and Service System (CSSS), 2011 International Conference on,2011.
[6]Pequeno, M.C., de Carvalho, J.M., Hattori, M.T.. Methodology for building numerical structures for SIPREX-a coupled expert system for digital filter design[P]. Circuits and Systems, 1995., Proceedings., Proceedings of the 38th Midwest Symposium on,1995.
[7]E-Doo Kim, Yeon-Seok Jung. A step-based product model of building structures for the implementation of schematic-to-detailed design process[P]. Science and Technology, 1999. KORUS '99. Proceedings. The Third Russian-Korean International Symposium on,1999.
[8]DeVries, A.J.. A Design Method for Surface-Wave Filters Using Simple Structures as Building Blocks[P]. 1973 Ultrasonics Symposium,1973.
[9]Zhang Yuanzhu,Wang Yungang,Zhang Shiming,Zhou Shuying. Multi-project assessment method of Tall building Structure and Seismic Design Course[P]. Computer Science & Education (ICCSE), 2012 7th International Conference on,2012.
[10]Oka Ryuichi. On a design method of building structures[J]. Transactions of the Architectural Institute of Japan,1952,44(0).
[11]Oka Hidetaka. 2072) Dynamic Design of Multi-storied Building(Structure)[J]. Transactions of the Architectural Institute of Japan,1964,103(0).
[12]Odaka Teruo. 2040 Earthquake Response of Buildings Designed Basing on the Present Code(Structures)[J]. Transactions of the Architectural Institute of Japan Summaries of Technical Papers,1967,42(0).
[13]Hisatoku Toshiharu. 2042 Optimum Distribution of the Shear Strength for Aseismic Design of Tall Building Structures(Structures)[J]. Transactions of the Architectural Institute of Japan Summaries of Technical Papers,1967,42(0).
[14]Kanai Kiyoshi. 2071) A New Method of the Earthquake Resistant Design of Buildings : Preliminary Notes(Structure)[J]. Transactions of the Architectural Institute of Japan,1964,103(0).
[15]Kobori Takuji. 2003) On the Structural Design of Tall Buildings(Structure)[J]. Transactions of the Architectural Institute of Japan,1963,89(0).
[16]Ji?í Pokorn?,Petr Ku?era. Calculation of Local Fire for Designing Building Structures[J]. Transactions of the VSB - Technical University of Ostrava, Safety Engineering Series,2013,8(1).
[17]. In the Government Committee for Construction of the USSR. On changes in the chapter SNiP II-B.6-66 "bases and foundations of buildings and structures on permafrost soils. Design norms" and introduction of the new construction norms SN 450-72[J]. Soil Mechanics and Foundation Engineering,1974,10(5).
[18]V. I. Krutov. Basic theses of the design of buildings and structures on settling soils (discussion)[J]. Soil Mechanics and Foundation Engineering,1970,7(3).
[19]. An important aspect of structural design of super-tall buildings and structures: Across-wind loads and effects[J]. Chinese Science Bulletin,2011,56(33).
[20]Wei Shi,XinZheng Lu,LiePing Ye. Uniform-risk-targeted seismic design for collapse safety of building structures[J]. Science China Technological Sciences,2012,55(6).
[21]L. E. Temkin. Instructions for design of bases and foundations of buildings and structures constructed on peaty areas[J]. Soil Mechanics and Foundation Engineering,1976,13(2).
[22]. Designing of buildings and structures on slumping soils[J]. Soil Mechanics and Foundation Engineering,1966,3(1).
[23]. The Structural Design of Tall and Special Buildings Call for Papers Special Issue on Seismic Performance and Response Control of Large‐Scale and Special Structures[J]. The Structural Design of Tall and Special Buildings,2016,25(8).
[24]Dr.‐Ing. Udo Meyer. Fire resistance assessment of masonry structures – Structural fire design of masonry buildings according to the Eurocodes[J]. Mauerwerk,2013,17(3).
[25]Bassam A. Izzuddin Prof.. Robustness by design – Simplified progressive collapse assessment of building structures[J]. Stahlbau,2010,79(8).
[26]Hideo Fujitani,Masaomi Teshigawara,Wataru Gojo,Yoshinobu Hirano,Taiki Saito. Framework for Performance‐Based Design of Building Structures[J]. Computer‐Aided Civil and Infrastructure Engineering,2005,20(1).
[27]Li Wei,Li Qing‐Ning. Performance‐based seismic design of complicated tall building structures beyond the code specification[J]. The Structural Design of Tall and Special Buildings,2012,21(8).
[28]Behnoud Ganjavi,Hong Hao. Optimum lateral load pattern for seismic design of elastic shear‐buildings incorporating soil–structure interaction effects[J]. Earthquake Engineering & Structural Dynamics,2013,42(6).
[29]Bagautdinov Ruslan,Monastireva Daria,Bodak Irina,Potapova Irina. Feasibility study tool for semi-rigid joints design of high-rise buildings steel structures[J]. E3S Web of Conferences,2018,33.
[30]TETSUO KUBO,TOMOFUMI YAMAMOTO,KUNIHIKO SATO,MASAKAZU JIMBO,TETSUO IMAOKA,YOSHITO UMEKI. A SEISMIC DESIGN OF NUCLEAR REACTOR BUILDING STRUCTURES APPLYING SEISMIC ISOLATION SYSTEM IN A HIGH SEISMICITY REGION –A FEASIBILITY CASE STUDY IN JAPAN-[J]. Nuclear Engineering and Technology,2014,46(5).
建筑结构设计英文参考文献二:
[31]MISURA Lid. V.,MISURA Liub. V.,POLTORACHENKO N. I.. TEACHING OPTIMIZATION OF STUDENTS AT DESIGN OF BUILDINGS AND STRUCTURES FOUNDATIONS[J]. Vìsnik Pridnìprovs?ko? Der?avno? Akademì? Budìvnictva ta Arhìtekturi,2016,1(4).
[32]Zhogoleva Anna,Teryagova Alexandra. On methods of sustainable architectural design of bio-positive buildings in the low-rise residential development structure[J]. MATEC Web of Conferences,2017,106.
[33]Giyasov Botir Iminzhonovich,Antonov Aleksandr Ivanovich,Matveeva Irina Vladimirovna. DESIGN OF ENVELOPE STRUCTURES OF BUILDINGS WITH ACCOUNT FOR AND SUBJECT TO THE CONDITIONS OF ACOUSTIC PROTECTION[J]. Vestnik MGSU,2012(12).
[34]BOLSHAKOV V. I,MOTORNUI N. A.. REASONS ANALYSIS OF THE ?TOPOLINA? CATASTROPHE OCCURRENCE AND ACTIVITIES, EXCLUDING SIMILAR PHENOMENA IN DESIGNING AND CONSTRUCTION OF BUILDINGS AND STRUCTURES ON COLLAPSIBLE SOILS (to the 20th anniversary of disaster management). GENERAL PREREQUISITES FOR THE CAUSES FORMING OF ?TOPOLINA? CATASTROPHE (part 1)[J]. Vìsnik Pridnìprovs?ko? Der?avno? Akademì? Budìvnictva ta Arhìtekturi,2017,1(2).
[35]BOLSHAKOV V. I.,MOTORNUI М. A.. REASONS ANALYSIS OF THE ?TOPOLINA? CATASTROPHE OCCURRENCE AND ACTIVITIES, EXCLUDING SIMILAR PHENOMENA IN DESIGNING AND CONSTRUCTION OF BUILDINGS AND STRUCTURES ON COLLAPSIBLE SOILS (to the 20th anniversary of disaster management). GENERAL PREREQUISITES FOR THE CAUSES FORMING OF “TOPOLINA” CATASTROPHE (PART 2)[J]. Vìsnik Pridnìprovs?ko? Der?avno? Akademì? Budìvnictva ta Arhìtekturi,2017,1(2).
[36]Volkov Andrey Anatol'evich,Rubtsov Igor' Vladimirovich. Design of integrated systems designated for the forecasting and monitoring of emergencies in buildings, structures and their clusters ПОСТРОЕНИЕ КОМПЛЕКСНЫХ СИСТЕМ ПРОГНОЗИРОВАНИЯ И МОНИТОРИНГА ЧРЕЗВЫЧАЙНЫХ СИТУАЦИЙ В ЗДАНИЯХ, СООРУЖЕНИЯХИ ИХ КОМПЛЕКСАХ[J]. Vestnik MGSU,2013(1).
[37]Faezeh Nejati,Mahmood Hosseini,Amir Mahmoudzadeh. Design of repairable regular steel buildings with square plan based on seesaw motion of building structure and using DADAS dampers[J]. International Journal of Structural Integrity,2017,8(3).
[38]Bijan Mohraz. Review of The Design of Building Structures by Wolfgang Schueller[J]. Journal of Architectural Engineering,1996,2(2).
[39]Rafal Kicinger,Tomasz Arciszewski,Kenneth DeJong. Evolutionary Design of Steel Structures in Tall Buildings[J]. Journal of Computing in Civil Engineering,2005,19(3).
[40]Kamal C. Sarma,Hojjat Adeli. Comparative Study of Optimum Designs of Steel High Rise Building Structures Using Allowable Stress Design and Load and Resistance Factor Design Codes[J]. Practice Periodical on Structural Design and Construction,2005,10(1).
[41]Stojan Kravanja,Goran Turkalj,Simon ?ilih,Toma? ?ula. Optimal design of single-story steel building structures based on parametric MINLP optimization[J]. Journal of Constructional Steel Research,2013,81.
[42]D.A. Nethercot. Design of Building Structures to Improve their Resistance to Progressive Collapse[J]. Procedia Engineering,2011,14.
[43]Michael Eisfeld,Raimar Scherer. Assisting conceptual design of building structures by an interactive description logic based planner[J]. Advanced Engineering Informatics,2003,17(1).
[44]TETSUO KUBO,TOMOFUMI YAMAMOTO,KUNIHIKO SATO,MASAKAZU JIMBO,TETSUO IMAOKA,YOSHITO UMEKI. A SEISMIC DESIGN OF NUCLEAR REACTOR BUILDING STRUCTURES APPLYING SEISMIC ISOLATION SYSTEM IN A HIGH SEISMICITY REGION –A FEASIBILITY CASE STUDY IN JAPAN-[J]. Nuclear Engineering and Technology,2014,46(5).
[45]R. Plank. Simplified design of building structures (3rd edn)[J]. Engineering Structures,1997,19(1).
[46]Can Balkaya,Erol Kalkan. Seismic vulnerability, behavior and design of tunnel form building structures[J]. Engineering Structures,2004,26(14).
[47]Izuru Takewaki. Inverse stiffness design of shear-flexural building models including soil–structure interaction[J]. Engineering Structures,1999,21(12).
[48]Han-Ul Lee,Young-Chan Kim. Preliminary Design of Tall Building Structures with a Hexagrid System[J]. Procedia Engineering,2017,171.
[49]Sonia Yanes-Armas,Julia de Castro,Thomas Keller. Long-term design of FRP-PUR web-core sandwich structures in building construction[J]. Composite Structures,2017.
[50]Chun-Ting Yeh,TJ Brunette,David Baker,Simon McIntosh-Smith,Fabio Parmeggiani. Elfin: An algorithm for the computational design of custom three-dimensional structures from modular repeat protein building blocks[J]. Journal of Structural Biology,2018,201(2).
[51]D. De Domenico,G. Ricciardi,I. Takewaki. Design strategies of viscous dampers for seismic protection of building structures: A review[J]. Soil Dynamics and Earthquake Engineering,2019,118.
[52]A.A. Taflanidis,A. Giaralis,D. Patsialis. Multi-objective optimal design of inerter-based vibration absorbers for earthquake protection of multi-storey building structures[J]. Journal of the Franklin Institute,2019.
[53]El?bieta Szafranko. Possibilities of application of multi-criteria analysis methods to evaluate material and technological solutions in the design of building structures[J]. Materials Today: Proceedings,2019.
[54]C. Q. Li. A method for reliability-based economic design of building structures[J]. Building Research & Information,2000,28(4).
[55]Daopeng Zhang,Zengdian Zhao,Kexun Chen,Xia Chen. [Co(salen)(CN)<sub>2</sub>]<sup>?</sup> as Building Block for the Design of Heterobimetallic Systems: Synthesis, Characterization, and Crystal Structures of Cyano-Bridged Co<sup>III</sup>-Mn<sup>II</sup> Complexes[J]. Synthesis and Reactivity in Inorganic, Metal-Organic, and Nano-Metal Chemistry,2013,43(3).
[56]. Innovations in the Design of Long-Span Building Structures[J]. Architectural Science Review,2003,46(2).
[57]Hokmabadi,Fatahi,Samali. Recording Inter-Storey Drifts of Structures in Time-History Approach for Seismic Design of Building Frames[J]. Australian Journal of Structural Engineering,2012,13(2).
[58]C. Q. Li. A method for reliability-based economic design of building structures[J]. Building Research & Information,2000,28(4).
[59]Zhenwen Gong,Bin Zeng,Weichi Han,Suduo Xue. Discussion on Structure Design and Optimization of Building Curtain Wall[J]. Open Journal of Civil Engineering,2017,07(02).
[60]Ying Liu. Studies on Seismic Identification and Reinforcement Design of Building Structures[J]. Open Journal of Civil Engineering,2018,08(03).
建筑结构设计英文参考文献三:
[61]Shu Yun Zhang,Wen Wei Zhao,Hai Hua Wang. Optimization Design of Core Thickness of Exterior Frame and Core Hybrid Structures in High-Rise Buildings[J]. Applied Mechanics and Materials,2012,1799.
[62]?mos Dufka,Lenka Mészárosová,Jana Kosíková. Importance of Physico-Chemical Methods in Evaluating the State of Building Structures and Design of their Redevelopment[J]. Applied Mechanics and Materials,2013,2684.
[63]Li Jun Liu,Tai Yuan Kang. Structure Design in the Design of Natural Lighting of Exhibition Hall Space of the Contemporary Convention and Exhibition Building[J]. Applied Mechanics and Materials,2012,1931.
[64]Qiang Qiang Zhang,Wen Pan,Bai Feng Sun. The Two-Stage Design Method of Isolated Structures Based on New Code for Seismic Design of Buildings[J]. Applied Mechanics and Materials,2013,2212.
[65]Hong Wei Feng,Yi Meng Wu. Research on the Impact Factors of Reliability and Comparison in the Design of Building Structures[J]. Applied Mechanics and Materials,2013,2544.
[66]Chong Yang Zhang,Guang Sheng Bian,Na Liu,Li Sa. Study on Analysis and Design of Structure Transfer Storey in Business-Living Building[J]. Applied Mechanics and Materials,2012,1799.
[67]Jing Yuan Ma,Fu Ma,Chen Suo Hu,Zhi Xian Wen. Seismic Design of the High-Rise Building Structure and Sustainable Development[J]. Applied Mechanics and Materials,2013,2544.
[68]Ji?í Pokorn?,Petr Ku?era,Vladimír Vl?ek. Specific Knowledge in Assessment of Local Fire for Design of Building Structures[J]. Advanced Materials Research,2014,3370.
[69]Mei Mei Zhang. On the Intelligent Optimization Design of Building Structure[J]. Applied Mechanics and Materials,2014,3207.
[70]Sha Sha Wu,Guan Chang Kang,Shao Wang,Jun Ying Lian. Feasibility Analysis of Applying Biomechanical Properties of Human Body to Seismic Design of Building Structure[J]. Applied Mechanics and Materials,2014,3307.
[71]Er Wei Guo,Ying Xin Qian,Chen Guang Li. The Application of Building Information Model in the Design of Precast Concrete Structures[J]. Applied Mechanics and Materials,2015,3752.
[72]Er Wei Guo,Ying Xin Qian,Gang Xu,Jin Dong Gao,Chen Guang Li. The Application of Building Information Model in the Deepen Design of Prestressed Concrete Structures[J]. Applied Mechanics and Materials,2015,3752.
[73]Ze Yuan Han,Ning Zhang,Zhe Cheng Wu,Yue Ming Lu. Research on Design of Intelligent Building Internal Structure Based on Building Materials[J]. Advanced Materials Research,2013,2489.
[74]Ting Ding,Qi Wen Li,Sheng Guo Ding. The Some Concept Design’s Typical Characteristics of Building Structure[J]. Advanced Materials Research,2011,1270.
[75]Wen Jin Zhang,Qi Hua Su,Zhong Ding Cui,Si Le Chen. Seismic Design of Tall Buildings Structure[J]. Advanced Materials Research,2014,3181.
[76]Mehdi Nourbakhsh,Shaik Hussein Mydin,Mohamad Zin Rosli,Samaneh Zolfagharian,Javier Irizarry,Mardiyah Zahidi. A Conceptual Model to Assess the Buildability of Building Structure at Design Stage in Malaysia[J]. Advanced Materials Research,2012,1615.
[77]Ying Wang,Feng Lin,Xiang Lin Gu. Load and Resistance Factors for Progressive Collapse Resistance Design of Reinforced Concrete Building Structures[J]. Advanced Materials Research,2011,1279.
[78]Hong Mei Yang. The Structure Design of Steel Structure Resident Building[J]. Advanced Materials Research,2011,1270.
[79]Lina Liu. Structure design of residential building units based on Auto-CAD[P]. Proceedings of the 2016 5th International Conference on Sustainable Energy and Environment Engineering (ICSEEE 2016),2016.
[80]Yuan XIN. The Research of Design Method of Building Structure Based on BIM[P]. Proceedings of the 2016 International Conference on Architectural Engineering and Civil Engineering,2016.
[81]BaoShan Cao. A Study of Displacement-based Aseismic Design of Building Structure[P]. Proceedings of the 2016 7th International Conference on Mechatronics, Control and Materials (ICMCM 2016),2016.
[82]Giancarlo Groli,Alejandro Pérez Caldentey,Alejandro Giraldo Soto,Francesco Marchetto,Javier Ezeberry Parrotta. Simplified serviceability design of jointless structures. Experimental verification and application to typical bridge and building structures[J]. Engineering Structures,2014,59.
[83]Yang Lu,Iman Hajirasouliha,Alec M. Marshall. Performance-based seismic design of flexible-base multi-storey buildings considering soil–structure interaction[J]. Engineering Structures,2016,108.
[84]Se Woon Choi,Byung Kwan Oh,Jun Su Park,Hyo Seon Park. Sustainable design model to reduce environmental impact of building construction with composite structures[J]. Journal of Cleaner Production,2016,137.
[85]Eckart Bindewald,Calvin Grunewald,Brett Boyle,Mary O’Connor,Bruce A. Shapiro. Computational strategies for the automated design of RNA nanoscale structures from building blocks using NanoTiler[J]. Journal of Molecular Graphics and Modelling,2008,27(3).
[86]Bernd Peukert,Mihir Saoji,Eckart Uhlmann. An Evaluation of Building Sets Designed for Modular Machine Tool Structures to Support Sustainable Manufacturing[J]. Procedia CIRP,2015,26.
[87]D. D. Sergeev. Designing, construction, and protection of buildings and structures in areas being mined[J]. Soil Mechanics and Foundation Engineering,1965,1(1).
[88]V. M. Didkovskii,R. Kh. Valeev. Toward higher effectiveness of the design solutions for foundations of buildings and structures[J]. Soil Mechanics and Foundation Engineering,1973,10(1).
[89]M. K. Druzhinin,E. N. Skvaletskii. On chapter II-B.2-62 of construction standards and rules, "footings and foundations of buildings and structures on slumping soils. Designing standards"[J]. Soil Mechanics and Foundation Engineering,1965,1(1).
[90]A. F. Antonnikov. Discussion on building codes. New norms for calculating maximum discharges in designing of river hydraulic structures[J]. Hydrotechnical Construction,1968,1(4).
建筑结构设计英文参考文献四:
[91]. New chapter of SNiP II-B.6-66 "Bases and Foundations of Buildings and Structures on Permafrost Soils. Design Standards"[J]. Soil Mechanics and Foundation Engineering,1967,4(1).
[92]K. G. Kudryavtsev. On V. M. Didkovskii and R. Kh. Valeev's article "Toward higher effectiveness of the design solutions for foundations of buildings and structures"[J]. Soil Mechanics and Foundation Engineering,1975,12(1).
[93]D. Wu,S. Tesfamariam,S. F. Stiemer,D. Qin. Seismic fragility assessment of RC frame structure designed according to modern Chinese code for seismic design of buildings[J]. Earthquake Engineering and Engineering Vibration,2012,11(3).
[94]V. V. Mikheev. Principles of designing bases of buildings and structures with respect to limiting states[J]. Soil Mechanics and Foundation Engineering,1977,14(5).
[95]Edoardo M. Marino,Masayoshi Nakashima,Khalid M. Mosalam. Comparison of European and Japanese seismic design of steel building structures[J]. Engineering Structures,2005,27(6).
[96]Marius Andruh,Robert Melanson,Carl V. Stager,Fernande D. Rochon. [Cr(bipy)(C 2 O 4 ) 2 ] ? —a versatile building block for the design of heteropolymetallic systems 2. Syntheses and crystal structures of CuCr 2 ( bipy ) 2 (μ- C 2 O 4 ) 4 ( C 2 O 4 ) 4 ( H 2 O ) 2 ·1 1 2 H 2 O and (AgCr(bipy)(μ-C 2 O 4 ) 2 (H 2 O) 2 ) 2 and magnetic properties of the copper(II) derivative[J]. Inorganica Chimica Acta,1996,251(1).
[97]Potuan Chen,Kevin R Collins. Some observations on performance-based and reliability-based seismic design of asymmetric building structures[J]. Engineering Structures,2001,23(8).
[98]Slim Chiha,Arne Soicke,Matthias Barone,Matthias Müller,Judith Bruns,Robert Opitz,J?rg‐Martin Neud?rfl,Ronald Kühne,Hans‐Günther Schmalz. Design and Synthesis of Building Blocks for PPII‐Helix Secondary‐Structure Mimetics: A Stereoselective Entry to 4‐Substituted 5‐Vinylprolines[J]. European Journal of Organic Chemistry,2018,2018(4).
[99]Jiazeng Shan,Zhiguo Shi,Fan Hu,Jian Yu,Weixing Shi. Stochastic optimal design of novel nonlinear base isolation system for seismic‐excited building structures[J]. Structural Control and Health Monitoring,2018,25(7).
[100]Slim Chiha,Arne Soicke,Matthias Barone,Matthias Müller,Judith Bruns,Robert Opitz,J?rg‐Martin Neud?rfl,Ronald Kühne,Hans‐Günther Schmalz. Design and Synthesis of Building Blocks for PPII‐Helix Secondary‐Structure Mimetics: A Stereoselective Entry to 4‐Substituted 5‐Vinylprolines[J]. European Journal of Organic Chemistry,2018,2018(46).
[101]Benjamin Kromoser,Philipp Preinstorfer,Johann Kollegger. Building lightweight structures with carbon‐fiber‐reinforced polymer‐reinforced ultra‐high‐performance concrete: Research approach, construction materials, and conceptual design of three building components[J]. Structural Concrete,2019,20(2).
[102]张荣兰. 基于OBE模式在建筑结构抗震设计课程中的实践[J]. 创新教育研究,2017,05(03).
[103]Hongwei Li,Yilei Ren. Design and implementation of building structure monitoring system based on radio frequency identification (RFID)[J]. International Journal of RF Technologies,2018,9(1-2).
[104]Ana M. Gir?o Coelho,Frans Bijlaard. High Strength Steel in Buildings and Civil Engineering Structures: Design of Connections[J]. Advances in Structural Engineering,2010,13(3).
[105]R S Fediuk,Yu G Yevdokimova,A K Smoliakov,N Yu Stoyushko,V S Lesovik. Use of geonics scientific positions for designing of building composites for protective (fortification) structures[J]. IOP Conference Series: Materials Science and Engineering,2017,221(1).
[106]M V Zotov,G M Skibin,M G Skibin. Method of Conservation for Design Position of Buildings and Structures Operated in Complex Engineering&Geological Conditions Using Spring-Jack Modules[J]. IOP Conference Series: Materials Science and Engineering,2017,262(1).
[107]M V Zotov,G M Skibin,M G Skibin. Method of Conservation for Design Position of Buildings and Structures Operated in Complex Engineering&Geological Conditions Using Spring-Jack Modules[J]. IOP Conference Series: Materials Science and Engineering,2017,262(1).
[108]Johannes Tarigan,Albert Simbolon. The experience of retrofit design in using CFRP of building case study of the ramp structure of palm oil mill in South Sumatera[J]. IOP Conference Series: Materials Science and Engineering,2018,420(1).
[109]R S Fediuk,Yu G Yevdokimova,A K Smoliakov,N Yu Stoyushko,V S Lesovik. Use of geonics scientific positions for designing of building composites for protective (fortification) structures[J]. IOP Conference Series: Materials Science and Engineering,2017,221(1).
[110]Valentin Paruta,Aleksandr Saevskij,Evgenij Brynzin,Denis Gusak,Anastasija Kraeva. Theoretical bases designing of plaster solutions for wall protection of buildings and structures made of aerated concrete[J]. Technical Journal,2014,8(4).
[111]Lescou?zec R,Lloret F,Julve M,Vaissermann J,Verdaguer M,Llusar R,Uriel S. [Fe(Phen)(CN)4]-: a versatile building block for the design of heterometallic systems. Crystal structures and magnetic properties of PPh4[Fe(Phen)(CN)4]*2H2O and [[Fe(Phen)(CN)4]2M(H2O)2]*4H2O [Phen = 1,10-phenanthroline; M = Mn(II) and Zn(II)].[J]. Inorganic Chemistry,2001,40(9).
[112]Kou Hui-Zhong,Zhou Bei Chuan,Gao Song,Liao Dai-Zheng,Wang Ru-Ji. Pendant macrocyclic metallic building blocks for the design of cyano-bridged heterometallic complexes with 1D chain and 2D layer structures.[J]. Inorganic Chemistry,2003,42(18).
[113]Chae Hee K,Kim Jaheon,Friedrichs Olaf Delgado,O'Keeffe Michael,Yaghi Omar M. Design of frameworks with mixed triangular and octahedral building blocks exemplified by the structure of [Zn4O(TCA)2] having the pyrite topology.[J]. Angewandte Chemie (International Edition),2003,42(33).
[114]Lescou?zec Rodrigue,Lloret Francesc,Julve Miguel,Vaissermann Jacqueline,Verdaguer Michel. [Fe(bipy)(CN)(4)](-) as a versatile building block for the design of heterometallic systems: synthesis, crystal structure, and magnetic properties of PPh(4)[Fe(III)(bipy)(CN)(4)] x H(2)O, [[Fe(III)(bipy)(CN)(4)](2)M(II)(H(2)O)(4)] x 4H(2)O, and [[Fe(III)(bipy)(CN)(4)](2)Zn(II)] x 2H(2)O [bipy = 2,2'-Bipyridine; M = Mn and Zn].[J]. Inorganic Chemistry,2002,41(4).
[115]Bindewald Eckart,Grunewald Calvin,Boyle Brett,O'Connor Mary,Shapiro Bruce A. Computational strategies for the automated design of RNA nanoscale structures from building blocks using NanoTiler.[J]. Journal of Molecular Graphics and Modelling,2008,27(3).
[116]Wang Jian,Slater Brianna,Alberola Antonio,Stoeckli-Evans Helen,Razavi Fereidoon S,Pilkington Melanie. Rational design of a covalently tethered dinuclear [MnII(N3O2)Cl(OH2)]2(2+) macrocyclic building block: synthesis, structure, and magnetic properties.[J]. Inorganic Chemistry,2007,46(12).
[117]Ni Zhong-Hai,Kou Hui-Zhong,Zhao Yi-Hua,Zheng Lei,Wang Ru-Ji,Cui Ai-Li,Sato Osamu. [Fe(bpb)(CN)2]- as a versatile building block for the design of novel low-dimensional heterobimetallic systems: synthesis, crystal structures, and magnetic properties of cyano-bridged Fe(III)-Ni(II) complexes [(bpb)(2-) = 1,2-bis(pyridine-2-carboxamido)benzenate].[J]. Inorganic Chemistry,2005,44(6).
[118]Yeh Chun-Ting,Brunette T J,Baker David,McIntosh-Smith Simon,Parmeggiani Fabio. Elfin: An algorithm for the computational design of custom three-dimensional structures from modular repeat protein building blocks.[J]. Journal of structural biology,2018,201(2).
[119]Lescou?zec Rodrigue,Lloret Francesc,Julve Miguel,Vaissermann Jacqueline,Verdaguer Michel. [Fe(bipy)(CN)(4)](-) as a versatile building block for the design of heterometallic systems: synthesis, crystal structure, and magnetic properties of PPh(4)[Fe(III)(bipy)(CN)(4)] x H(2)O, [[Fe(III)(bipy)(CN)(4)](2)M(II)(H(2)O)(4)] x 4H(2)O, and [[Fe(III)(bipy)(CN)(4)](2)Zn(II)] x 2H(2)O [bipy = 2,2'-Bipyridine; M = Mn and Zn].[J]. Inorganic chemistry,2002,41(4).
[120]Lescou?zec R,Lloret F,Julve M,Vaissermann J,Verdaguer M,Llusar R,Uriel S. [Fe(Phen)(CN)4]-: a versatile building block for the design of heterometallic systems. Crystal structures and magnetic properties of PPh4[Fe(Phen)(CN)4]*2H2O and [[Fe(Phen)(CN)4]2M(H2O)2]*4H2O [Phen = 1,10-phenanthroline; M = Mn(II) and Zn(II)].[J]. Inorganic chemistry,2001,40(9).
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