Making Use of the Principle of Energy Dissipation in the Seismic Design of a Steel Structure of a Steam Boiler / Využití Principu Disipace Při Seismickém Návrhu Ocelové Konstrukce Parního Kotle

Abstract For structural design of steel structures under seismic action there are two possible approaches of global analysis. In global analysis we can consider the structure to behave in linear elastic way or in post-elastic way with developing of plastic hinges during seismic situation. The second method is based on principle of seismic energy transformation into thermal energy. Both design methods are defined in Eurocodes but the post-elastic way is only rarely used because of design complexity. Application of this design method is presented in the entry on an example of a steam power plant boiler structure.

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Elastic Strength of Defective Steel Bolt Group under Eccentric Load Design

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.773.299 ◽

2018 ◽

Vol 773 ◽

pp. 299-304

Author(s):

Jen Jen Yang ◽

Kun Ze He ◽

Wei Ting Hsu

Keyword(s):

Geometric Distribution ◽

Design Method ◽

Group Analysis ◽

Steel Structure ◽

Steel Structures ◽

Strength Analysis ◽

Material Strength ◽

Eccentric Load ◽

Critical Position ◽

Design Strength

Steel bolt groups are often used for joining steel structures. The design strength of the steel bolt group is related to the geometric distribution, the eccentric load distance, the material strength and the load angle, thus making the analysis complicated and not easy for the user. The existing analysis methods are two kinds of elasticity and ultimate analysis. Both methods consider the stress distribution of each steel bolt and find the steel bolt at the critical position is obtained, the design load analysis is deduced. This study will consider the geometric distribution of steel bolting group affected, for a row, two rows, three rows and four rows of bolt group, considering different eccentric distance and angle of influence. Using a simple elastic analysis method to Studied the strength analysis results produced when a corner bolt is damaged due to a defect. The results show that the greater the eccentric load distance, the lower the design strength, and the load change on the vertical is more obvious than the horizontal. When the corner of the steel bolt group is removed, its design strength is likely to decrease, but at low eccentricity distance and large angles, the strength of the complete bolt is higher. This study organizes the design method of steel bolts and reviews the geometric rules of the bolt group analysis. It founded that the regular geometry needs to be reviewed in the case of large eccentric loads with small eccentricities. This study for the bolt connections strength of a certain understanding and awareness, expect the future for the safety of steel structure contribute.

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Methods for conceptual and preliminary seismic design of buildings with steel structure

Avances en Ciencias e Ingeniería ◽

10.18272/aci.v11i2.1350 ◽

2019 ◽

Vol 11 (2) ◽

Author(s):

Tiago Ribeiro ◽

Ana Sousa

Keyword(s):

Seismic Design ◽

Steel Structure ◽

Steel Structures ◽

Eurocode 8 ◽

Seismic Action ◽

The European Union ◽

Design Standards ◽

Design Guide ◽

Current Context ◽

Earthquake Effects

Throughout the last two decades, seismic design standards evolved to ever more comprehensive and detailed prescriptions, stressing out the need for design methods that deal with earthquake effects not as actions, but as a design philosophy. The Eurocode 8 adoption as national law throughout the European Union countries and informally in many parts of Africa, Asia and Latin America is the pretext for the current study. It aims to provide some guidance to the seismic design of steel structures as well as to the Eurocode 8 implementation by the designers.Some lines on the preliminary design of structural systems were written based on several real cases of structures designed taking into account the seismic action. Such a content is, usually, relevant in any design guide, given its value in enhancing the design technical and economical content. However, it is now of utter significance at the current context as an essential tool to facilitate the safety checking of several code requirements.Some of the Eurocode 8 prescriptions are then decoded, explained and justified based on the supportive bibliography. The information is subsequently ordered as a design guide, where some procedures are proposed to cope with the code interrelated prescriptions and one structural solution is proposed in order to overcome a design challenge while complying with the code.One last but not less relevant addressed issue is the fact that some Eurocode 8 prescriptions may be reviewed, in the eyes of a designer, given its practical outcome. Such issues are identified, explained and some slight code adjustments are suggested.

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Design Method and Research of Adding Layers and Reinforcement of a Steel Structure

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.166-169.1760 ◽

2012 ◽

Vol 166-169 ◽

pp. 1760-1764

Author(s):

Song Yan Wang ◽

Cheng Cheng Du ◽

Jie Zhu

Keyword(s):

Finite Element Analysis ◽

Finite Element ◽

Design Method ◽

Steel Structure ◽

Steel Structures ◽

Original Structure ◽

Element Analysis ◽

Steel Columns ◽

The Finite Element Analysis ◽

Practical Engineering

Due to the particularity, the reinforcement and reconstruction of steel structures should adopt a unique way. Combined with practical engineering, this paper introduces the program of Laizhou department store building reinforcement project. According to the specific requirements of the reinforcement and reconstruction, we analyze the original structure, introduce structure designs of the adding three layers as well as the reinforcement of bottom two layers, which makes construction more convenient and faster, and achieves the purpose of economic and appliance. The reinforcement of steel columns decide the period and cost. This paper expounds the reinforcement method of steel columns, and obtains the force of the bolt through the finite element analysis.

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Design and Specification Compilation of a Modularized Prefabricated High-rise Steel Frame Structure with Inclined Braces Part II: Elastic-plastic analysis and Joint Design

Modular and Offsite Construction (MOC) Summit Proceedings ◽

10.29173/mocs164 ◽

2015 ◽

pp. 248-255

Author(s):

Xuechun Liu ◽

Ailin Zhang ◽

Chen Tian ◽

Xun Zhang ◽

Yongqiang Tan

Keyword(s):

Design Method ◽

Time History ◽

Steel Structure ◽

Steel Structures ◽

Frame Structure ◽

Scale Production ◽

Base Shear ◽

Plastic Properties ◽

Elastic Plastic ◽

High Rise

Modularized prefabricated steel structure has some obvious advantages, such as fast construction, industrial-scale production and environment-friendliness. Although it has been used for low-rise buildings, its applications in high-rise buildings are quite less. The elastic-plastic time-history analysis under rare earthquake conditions is performed on a 30-floor building. The changing law of the base shear force, the story drift angle, the stress, the damage characteristics, etc. are studied. According to the theoretical analysis, the finite element simulation and the model test, the design methods and the relevant formulas regarding the elastic and elastic-plastic properties of the beam-column connection joints, the column flange joints and the inclined brace joints are proposed in this paper. The control parameters for the structural design are also discussed. This paper provides an important reference for the research and design of the same type of modularized prefabricated high-rise steel structures, and the design method has been compiled into design specification.

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Dynamic Characteristics of Base-Isolated Steel Frame under Seismic Ground Motion

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.255-260.2341 ◽

2011 ◽

Vol 255-260 ◽

pp. 2341-2344

Author(s):

Mohammad Saeed Masoomi ◽

Siti Aminah Osman ◽

Ali Jahanshahi

Keyword(s):

Ground Motion ◽

Base Isolation ◽

Time History ◽

Steel Structure ◽

Steel Structures ◽

Steel Frame ◽

Nonlinear Time History Analysis ◽

Seismic Load ◽

Vector Method ◽

Seismic Ground Motion

This paper presents the performance of base-isolated steel structures under the seismic load. The main goals of this study are to evaluate the effectiveness of base isolation systems for steel structures against earthquake loads; to verify the modal analysis of steel frame compared with the hand calculation results; and development of a simulating method for base-isolated structure’s responses. Two models were considered in this study, one a steel structure with base-isolated and the other without base-isolated system. The nonlinear time-history analysis of both structures under El Centro 1940 seismic ground motion was used based on finite element method through SAP2000. The mentioned frames were analyzed by Eigenvalue method for linear analysis and Ritz-vector method for nonlinear analysis. Simulation results were presented as time-acceleration graphs for each story, period and frequency of both structures for the first three modes.

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Experimental study on fatigue performance of Q420qD high-performance steel cross joint in complex environment

Asian Journal of Civil Engineering ◽

10.1007/s42107-021-00351-6 ◽

2021 ◽

Author(s):

Haigen Cheng ◽

Cong Hu ◽

Yong Jiang

Keyword(s):

Fatigue Life ◽

High Performance ◽

Steel Structure ◽

Steel Structures ◽

Fatigue Tests ◽

Fatigue Performance ◽

Corrosive Media ◽

Joint Connection ◽

High Performance Steel ◽

The Cross

AbstractThe steel structure under the action of alternating load for a long time is prone to fatigue failure and affects the safety of the engineering structure. For steel structures in complex environments such as corrosive media and fires, the remaining fatigue life is more difficult to predict theoretically. To this end, the article carried out fatigue tests on Q420qD high-performance steel cross joints under three different working conditions, established a 95% survival rate $$S{ - }N$$ S - N curves, and analyzed the effects of corrosive media and high fire temperatures on its fatigue performance. And refer to the current specifications to evaluate its fatigue performance. The results show that the fatigue performance of the cross joint connection is reduced under the influence of corrosive medium, and the fatigue performance of the cross joint connection is improved under the high temperature of fire. When the number of cycles is more than 200,000 times, the design curves of EN code, GBJ code, and GB code can better predict the fatigue life of cross joints without treatment, only corrosion treatment, and corrosion and fire treatment, and all have sufficient safety reserve.

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A New Approach for Cylindrical Steel Structure Deformation Monitoring by Dense Point Clouds

Remote Sensing ◽

10.3390/rs13122263 ◽

2021 ◽

Vol 13 (12) ◽

pp. 2263

Author(s):

Dongfeng Jia ◽

Weiping Zhang ◽

Yuhao Wang ◽

Yanping Liu

Keyword(s):

Steel Structure ◽

Steel Structures ◽

Point Clouds ◽

Deformation Monitoring ◽

Deformation Analysis ◽

Relative Deformation ◽

Structure Deformation ◽

Single Time ◽

Cylindrical Steel ◽

Cylinder Fitting

As fundamental load-bearing parts, the cylindrical steel structures of transmission towers relate to the stability of the main structures in terms of topological relation and performance. Therefore, the periodic monitoring of a cylindrical steel structure is necessary to maintain the safety and stability of existing structures in energy transmission. Most studies on deformation analysis are still focused on the process of identifying discrepancies in the state of a structure by observing it at different times, yet relative deformation analysis based on the data acquired in single time has not been investigated effectively. In this study, the piecewise cylinder fitting method is presented to fit the point clouds collected at a single time to compute the relative inclination of a cylindrical steel structure. The standard deviation is adopted as a measure to evaluate the degree of structure deformation. Meanwhile, the inclination rate of each section is compared with the conventional method on the basis of the piecewise cylinder fitting parameters. The validity and accuracy of the algorithm are verified by real transmission tower point cloud data. Experimental results show that the piecewise cylinder fitting algorithm proposed in this research can meet the accuracy requirements of cylindrical steel structure deformation analysis and has high application value in the field of structure deformation monitoring.

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A Simplified Model of SSI Dynamic Analysis

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.446-449.334 ◽

2012 ◽

Vol 446-449 ◽

pp. 334-339

Author(s):

Zhi Ying Zhang ◽

Ying Li ◽

Qing Sun

Keyword(s):

Dynamic Analysis ◽

Soil Structure ◽

Design Method ◽

Simplified Model ◽

Lumped Mass ◽

Foundation Soil ◽

Linear Elastic ◽

Lumped Mass Method ◽

Actual Mechanism ◽

Seismic Design Method

Aiming at the problem of dynamic analysis of SSI system, the dynamic influence of different parts of foundation soil is studied on the linear elastic assumption according to the actual mechanism of Soil-Structure Interaction (SSI); in addition, a simplified model on the condition of the lumped mass method is put forward and the corresponding motion equations of SSI system are built, which can be a reference for the structural seismic design method considering SSI effect.

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Earthquake Performance Analysis of Steel Structures with A3 Plan Irregularities

International Journal of Science and Engineering Applications ◽

10.7753/ijsea1012.1001 ◽

2021 ◽

Vol 10 (12) ◽

pp. 174-179

Author(s):

Özlem Çavdar

Keyword(s):

Earthquake Engineering ◽

Design Method ◽

Steel Structures ◽

Nonlinear Static Analysis ◽

Seismic Performance Evaluation ◽

Moment Resisting Frame ◽

Earthquake Effect ◽

Steel Building ◽

Moment Resisting ◽

Earthquake Performance

In earthquake engineering, a performance-based design method is used to determine the level of the expected performance of the structures under the earthquake effect. The level of performance is related to the damage situation that could be occurred in the structure after the earthquake. In the performance-based structural design, it is predicted that more than one damage levels emerge under one certain earthquake effect. In this study, the seismic behavior of steel structures with plan irregularities in the Turkey Building Earthquake Code in the 2018 (TBEC-2018) is investigated by the nonlinear static analysis methods. The selected steel structures are located in İzmir, Turkey. The Turkey Earthquake Code in 2018 is considered for assessing seismic performance evaluation of the selected moment-resisting frame steel building. Four different A3 type irregularity was investigated. The steel building with no irregularity in its plan. was selected as the structure of the reference. The performance goals of the five different steel structures are evaluated by applying the pushover and procedures of the TBEC-2018. The steel structures were compared by obtaining pushover curves for both the X and Y directions. The results show that the effects of A3 type irregularity should be not considered in design and buildings without irregularities are safer.

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A Framework to Support the Optimization of Modularized Oil and Gas Structures

Volume 2B: 44th Design Automation Conference ◽

10.1115/detc2018-86167 ◽

2018 ◽

Cited By ~ 1

Author(s):

Vincenzo Castorani ◽

Paolo Cicconi ◽

Michele Germani ◽

Sergio Bondi ◽

Maria Grazia Marronaro ◽

...

Keyword(s):

Lead Time ◽

Oil And Gas ◽

Steel Structure ◽

Steel Structures ◽

Modular System ◽

Test Case ◽

Plant Design ◽

Conceptual Study ◽

A Current ◽

Gas Plants

Modularization is a current issue in the context of plant design. A modular system aims to reduce lead time and cost in design phases. An oil & gas plant consists of many Engineered-To-Order solutions to be submitted and approved during the negotiation phase. In this context, design tools and methods are necessary to support the design life cycle from the conceptual study to the detailed project. The paper proposes an approach to optimize the design of modularized oil & gas plants with a focus on the related steel structures. A test case shows the configuration workflow applied to a modular steel structure of about 400 tons. The modularized layout has been optimized using genetic algorithms. A Knowledge Base has been described to support the configuration phase related to the conceptual design. Design rules and metrics have been formalized from the analysis of past solutions.

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