№ 2 (102)

Детальная информация

Название	Magazine of Civil Engineering. — № 2 (102). – 2021.
Организация	Санкт-Петербургский политехнический университет Петра Великого
Выходные сведения	Санкт-Петербург: СПбПУ, 2021
Коллекция	Общая коллекция
Тематика	Строительство ; Сопротивление материалов ; Строительная механика ; Строительные материалы
УДК	624.04(051); 69(051); 539.3/.6(051)
Тип документа	Другой
Язык	Английский
Права доступа	Свободный доступ из сети Интернет (чтение, печать, копирование)
Ключ записи	RU\SPSTU\edoc\67024
Дата создания записи	06.07.2021

Разрешенные действия

Прочитать Загрузить (15,3 Мб)

Группа	Анонимные пользователи
Сеть	Интернет

Место доступа	Группа пользователей	Действие
Локальная сеть ИБК СПбПУ	Все
Интернет	Все

title102
реклама1
index
- E-mail: mce@spbstu.ru
- Web: http://www.engstroy.spbstu.ru
- Contents
01
- Bearing capacity of eccentrically compressed bisteel columns
  - 1. Introduction
  - 2. Methods
    - 2.1. Analytical method
    - 2.2. Experimental method
    - 2.3. Finite element modelling method
  - 3. Results and Discussion
  - 4. Conclusion
  - 5. Acknowledgements
02
- Properties of porous glass ceramics based on siliceous rocks
  - 1. Introduction
  - 2. Methods
    - 2.1. Materials
    - 2.2. Compositions and manufacturing technology of samples
    - 2.3. Analytical techniques
  - 3. Results and Discussion
    - 3.1. Physical and mechanical properties
    - 3.2. Hydrophysical properties
    - 3.3. Thermophysical properties
    - 3.4. Chemical stability
  - 4. Conclusions
  - 5. Acknowledgement
03
- Flammability of polymeric materials used in construction
  - 1. Introduction
  - 2. Materials and Methods
  - 3. Results and Discussion
  - 4. Conclusion
04
- Performance of two-way hinges in reinforced concrete structures
  - 1. Introduction
  - 2. Method
  - 2.1. Introduction
  - 2.2. Modeling methodology
  - 2.3. Concrete damage plasticity
  - 3. Results and Discussion
  - 3.1. Model calibration
  - 3.2. Model analysis due to the dual effect of axial and lateral loads
  - 4. Conclusions
05
- Methodology for calculation and design of earthquake-resistant vibroisolated turbine foundations
  - 1. Introduction
  - 2. Methods
  - 3. Results and Discussion
  - 4. Conclusion
  - 5. Acknowledgments
06
- Structure and properties of mortar printed on a 3D printer
  - 1. Introduction
  - 2. Materials and Methods
  - 3. Results and Discussion
  - 4. Conclusions
  - 5. Acknowledgements
07
- Design parameters of steel fiber concrete beams
  - 1. Introduction
  - 2. Materials and methods
    - 2.1. Parameters in model
    - 2.2. Input parameters in ANSYS
  - 3. Results and Discussion
    - 3.1. Survey of steel fiber content in concrete
    - 3.2. Survey with shear steel stirrups spacing at the ends of the beam
    - 3.3. Survey of the change in the number of tensile steel bars
    - 3.4. Survey the affect of diameter of tensile steel bars
    - 3.5. Surveying the effect of nonlinear material analysis
    - 3.6. Case studies are influenced by many factors
    - 3.7. Compare with experimental results
  - 4. Conclusions
  - 5. Conflict of interests
08
- Numerical investigation of truss-shaped braces in eccentrically braced steel frames
  - 1. Introduction
  - 2. Methods
    - 2.1. Model verification
    - 2.2. Proposed models
  - 3. Results and Discussion
    - 3.1. Hysteresis Curves
    - 3.2. Absorbed Energy
    - 3.3. Stiffness Degradation
    - 3.4. Von Mises Stresses and Modes of Failure
    - 3.5. Pinching
    - 3.6. Prediction
  - 4. Conclusion
09
- Setting seismic input characteristics required for designing
  - 1. Introduction
  - 2. Methods
    - 2.1. Determining the main characteristics of seismic input necessary for an engineer in designing
    - 2.2. Additional characteristics of seismic input important in multi-level designing
  - 3. Results and Discussion
  - 4. Conclusion
  - 5. Acknowledgments
10
- Heat release and thermal conductivity of expanded-clay concrete for 3D printer
  - 1. Introduction
  - 2. Materials and Methods
    - 2.1. Materials
    - 2.2. Thermal conductivity measurement
    - 2.3. Heat release measurement
  - 3. Results and Discussion
    - 3.1. Experimental data of heat release and thermal conductivity
    - 3.2. Thermal conductivity dependence on concrete composition
    - 3.3. Heat release dependence on concrete composition
    - 3.4. Correlation between the concrete parameters
  - 4. Conclusions
11
- Analytical calculation of deflection of a planar truss with a triple lattice
  - 1. Introduction
  - 2. Methods
    - 2.1. The calculation of the forces in the members
    - 2.2. Calculation of deflection
    - 2.3. The forces in the members
    - 2.4. Shifting of the movable support
  - 3. Results and Discussion
  - 4. Conclusions
  - 5. Acknowledgements
12
- Tendencies in developing structural designs of non-soil seepage-control structures of embankment dams
  - 1. Introduction
  - 2. Materials and methods
  - 3. Results
    - 3.1. Review of information about the materials developed based on cement
  - 4. Conclusions
13
- Low-heat steaming treatment of concrete with polycarboxylate superplasticizers
  - 1. Introduction
  - 2. Methods and Materials of research
  - 3. Results and Discussion
    - 3.1. Determination of the optimal amount of admixtures to increase the early strength of cement matrix
    - 3.2. Effective coefficients of strength of cement matrix
    - 3.3. The modes of heat-curing of concrete with polycarboxylate-based admixture
  - 4. Conclusions
14
- Elasto-plastic progressive collapse analysis based on the integration of the equations of motion
  - 1. Introduction
  - 2. Methods
    - 2.1. Finite Element Library
    - 2.2. Integration of the Nonlinear Equations of Motion
  - 3. Numerical Results and Discussion
  - 4. Conclusions
15
- Dynamic response of structures located in near-field and far-field regions using IDA and MIDA
  - 1. Introduction
  - 2. Methods
    - 2.1. Review on MIDA method
    - 2.2. Modeling and the assumptions of the models
    - 2.3. Verification
    - 2.3.1. Verification with regard to calculated periods
    - 2.3.2. Mode shape verification
    - 2.4. Record selection
    - 2.4.2. Selecting far-field records
    - 2.5. Performing analysis and obtaining curves
  - 3. Results and Discussions
    - 3.1. Results
      - 3.1.1.1. Comparison of maximum roof displacement and drift versus PGA in “Morgan Hill” record for 6-story structures
    - 3.1.2. Comparison of maximum roof displacement and drift versus PGA in far- field records
      - 3.1.2.1. Comparison of maximum roof displacement and drift versus PGA for 6-story structures
      - 3.1.2.2. Comparison of maximum roof displacement and drift versus PGA 12-storey structures
      - 3.1.2.3. Comparison of maximum roof displacement and drift versus PGA 18-storey structures
    - 3.1.3. Comparison of the effect of height and modes on maximum roof displacements’ error as well as drifts’ errors in fixed irregularities
    - 3.2. Discussion
  - 4. Conclusion
реклама2
оборот

Magazine of Civil Engineering / Санкт-Петербургский политехнический университет Петра Великого. — Санкт-Петербург: СПбПУ, 2020-. — Периодичность: 8 раз в год. — Выходит с 2020 г. — Загл. с титул. экрана. — Свободный доступ из сети Интернет (чтение, печать, копирование). — Электрон. журнал. — Текст: электронный

...