Course design of a one-story industrial building with a span of 36m
- Added: 07.12.2021
- Size: 2 MB
- Downloads: 3
Description
A one-story industrial building with metal trusses with a span of 36m, metal columns and a crane of 125 tons. The rail head elevation is 14.6 m. The cross sections of the truss from round pipes, the selection of cross sections of the upper and lower parts of the through column, the base of the through column, metal fachwerk were made. The drawings are presented on two sheets of A1 format and one sheet of A3 format. The drawings show the building plan, sections, truss support units on the column, column support unit on the foundation and other necessary drawings.
Project's Content
Пром здание металл.dwg
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Пром здание.docx
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Additional information
Contents
1. Source Data
2. Defining Cross Frame Layout Dimensions
2.1. Vertical Dimensions
2.2. Horizontal Dimensions
3. Calculation of transverse frame
3.1. Load collection on the frame
3.2. Drawing up of frame design diagram
3.3. Preparation of initial data for "mk2" program
3.4. Calculation Scheme Data Processing
4. Calculation of rafter truss
4.1. Design diagram of truss with loads
4.2. Determination of calculated forces in truss rods
4.3. Fitting Cross Sections of Truss Rods
5. Column Calculation and Design
5.1. Determination of calculated lengths of column parts
5.2. Selection of section of the above-crane part of the column
5.3. Selection of section of column crane part
5.4. Over-crane tip design and calculation
5.5. Calculation of truss reference node
6. Through Column Base Calculation and Design
7. Calculation of Face Fachwerk
8. Calculation of links
8.1. Calculating Tent Links
8.2. Calculation of Column Links
Application
9. List of used literature
Introduction
The course design for metal structures is a form of real design. It is performed according to simplified source data and is an effective means of practical mastering of the course "Metal Structures."
Project theme: "Steel frame of a one-story production building."
Project Objectives:
- mastering the principles and methods of layout of the frames of production buildings taking into account the technical, economic and operational requirements imposed on them ;
- acquisition of skills in assigning steel grades for structures, assigning design schemes of frame elements, conducting power and structural calculations to ensure the necessary strength, rigidity and stability of both the entire frame and its individual elements;
- Acquisition of skills in working with normative, reference and technical literature ;
- mastering methods of constructing structural elements, their nodes and fillets, graphic representation of designed structures.
Design Input
Spacing of transverse frames: 6 m;
Building span: 36 m;
Building length: 96 m;
Rail head elevation: 14.6 m;
Crane lifting capacity: 125 t;
Roof: run-through;
Cross section of truss belts: electric welded pipes;
Construction area: Tyumen.
