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How to Use Tricalc 74 19 Effectively: Examples and Tutorials



Tricalc 74 19: A Powerful Software for Structural Analysis and Design




If you are a structural engineer, architect, or designer, you know how important it is to have a reliable and efficient software for your projects. You need a software that can help you model, analyze, design, and optimize any type of structure, from simple beams to complex buildings. You need a software that can handle different materials, loads, codes, and standards. You need a software that can save you time, money, and effort. You need Tricalc 74 19.




Tricalc 74 19


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What is Tricalc 74 19?




A brief introduction to the software and its features




Tricalc 74 19 is a software developed by GRAITEC - ARKTEC, a leading company in the field of structural engineering software. It is a comprehensive and versatile software that covers all the phases of structural analysis and design, from modeling to verification. It can handle any type of structure, such as beams, columns, slabs, walls, frames, trusses, shells, foundations, bridges, towers, stadiums, etc. It can work with different materials, such as concrete, steel, wood, masonry, aluminum, etc. It can apply different loads, such as dead, live, wind, seismic, snow, temperature, etc. It can follow different codes and standards, such as Eurocodes, ACI, AISC, CTE DB SE-AE (Spanish), NTC (Italian), etc.


The benefits of using Tricalc 74 19 for structural engineering projects




Tricalc 74 19 offers many advantages for structural engineering projects. Some of them are:



  • It is easy to use and intuitive. It has a graphical interface that allows you to create and modify your models with simple clicks and commands. You can also import and export data from other software or formats.



  • It is fast and accurate. It has a powerful calculation engine that performs linear and nonlinear analysis in static and dynamic conditions. It also provides detailed output results that include diagrams, tables, reports, drawings, etc.



  • It is flexible and adaptable. It has a wide range of modules and tools that allow you to customize your models according to your needs. You can also create your own libraries of materials, sections, loads, etc.



  • It is innovative and updated. It incorporates the latest technologies and developments in the field of structural engineering. It also offers regular updates and improvements based on customer feedback.



How to use Tricalc 74 19?




The main modules and tools of Tricalc 74 19




Tricalc 74 19 consists of several modules and tools that cover different aspects of structural analysis and design. Some of them are:


The graphical interface and the input data




This module allows you to create and modify your models using a graphical interface that shows your structure in different views (planar view, isometric view, perspective view, etc.). You can also use commands such as copy, paste, rotate, scale, mirror, etc. to manipulate your elements. You can also define your input data such as materials, sections, loads, supports, etc. using predefined or custom libraries.


The calculation engine and the output results




This module performs the analysis of your models using a finite element method that considers different types of elements (beam, column, slab, wall, shell, etc.) and different types of analysis (linear, nonlinear, static, dynamic, etc.). You can also choose different options for the calculation such as mesh size, convergence criteria, load combinations, etc. The output results include diagrams (bending moment, shear force, deflection, stress, strain, etc.), tables (reactions, displacements, forces, stresses, etc.), reports (summary, detailed, code verification, etc.), drawings (elevation, section, detail, etc.), etc.


The verification and optimization functions




This module allows you to verify and optimize your models according to different codes and standards such as Eurocodes, ACI, AISC, CTE DB SE-AE (Spanish), NTC (Italian), etc. You can also perform parametric studies to find the optimal solution for your structure. You can also use tools such as fire resistance analysis, seismic analysis, wind analysis, snow analysis, temperature analysis, etc.


The examples and tutorials of Tricalc 74 19




To help you learn how to use Tricalc 74 19 effectively you can access several examples and tutorials that show you step by step how to model analyze design and optimize different types of structures using the software Some of them are:


How to model a simple beam with Tricalc 74 19




In this example you will learn how to create a simple beam model using the graphical interface and how to define its material section load and support You will also learn how to perform a linear static analysis and how to view the output results such as diagrams tables reports and drawings



  • Open Tricalc 74 19 and select File > New > Project to create a new project



  • Name your project as Simple Beam and select OK



  • Select File > New > Model to create a new model



  • Name your model as Beam Model and select OK



  • Select View > Planar View > XY Plane to see your model in planar view



  • Select Elements > Beam > Create Beam to create a beam element



  • Click on the origin point (0 0) and drag your mouse horizontally to the right until you reach the point (5 0) and click again



  • Select Data > Material > Assign Material to assign a material to your beam element



  • Select Steel S275 from the list and select OK



  • Select Data > Section > Assign Section to assign a section to your beam element



  • Select IPE200 from the list and select OK



  • Select Data > Load > Create Load Case to create a load case for your beam element



  • Name your load case as Dead Load and select OK



  • Select Data > Load > Assign Load Case To Elements to assign the load case to your beam element



  • Select Dead Load from the list and select OK



  • Select Data > Load > Create Distributed Load On Beam Element to create a distributed load on your beam element



  • Select Dead Load from the list and select OK



  • Enter -10 in the Qy1 field (uniform load in Y direction) and select OK



  • Select Data > Support > Create Support On Node to create supports on the nodes of your beam element



  • Select Node #1 (the left end node) and select OK



  • Select Fixed Support from the list and select OK



  • Repeat steps 18-20 for Node #2 (the right end node)



  • Select Calculation > Linear Static Analysis > Calculate Model to perform a linear static analysis on your model



  • Select View > Diagrams On Elements > Bending Moment On Beam Element Mz to see the bending moment diagram on your beam element



How to design a reinforced concrete column with Tricalc 74 19




In this example, you will learn how to create a reinforced concrete column model using the graphical interface, and how to define its material, section, load, and support. You will also learn how to perform a nonlinear static analysis, and how to verify and optimize your column design according to Eurocode 2.



  • Open Tricalc 74 19, and select File > New > Project to create a new project



  • Name your project as Reinforced Concrete Column, and select OK



  • Select File > New > Model to create a new model



  • Name your model as Column Model, and select OK



  • Select View > Planar View > XZ Plane to see your model in planar view



  • Select Elements > Column > Create Column to create a column element



  • Click on the origin point (0, 0), and drag your mouse vertically upwards until you reach the point (0, 3), and click again



  • Select Data > Material > Assign Material to assign a material to your column element



  • Select Concrete C25/30 from the list, and select OK



  • Select Data > Section > Assign Section to assign a section to your column element



  • Select Rectangular Section from the list, and select OK



  • Enter 0.3 in the B field (width of the section), and 0.3 in the H field (height of the section), and select OK



  • Select Data > Load > Create Load Case to create a load case for your column element



  • Name your load case as Axial Load, and select OK



  • Select Data > Load > Assign Load Case To Elements to assign the load case to your column element



  • Select Axial Load from the list, and select OK



  • Select Data > Load > Create Nodal Load On Node to create a nodal load on the node of your column element



  • Select Node #2 (the top node), and select OK



  • Select Axial Load from the list, and select OK



  • Enter -1000 in the Fz field (axial force in Z direction), and select OK



  • Select Data > Support > Create Support On Node to create supports on the nodes of your column element



  • Select Node #1 (the bottom node), and select OK



  • Select Fixed Support from the list, and select OK



  • Select Calculation > Nonlinear Static Analysis > Calculate Model to perform a nonlinear static analysis on your model



  • Select View > Diagrams On Elements > Axial Force On Column Element N to see the axial force diagram on your column element



  • Select Verification > Eurocode 2:2004 > Verify Model According To Eurocode 2:2004 to verify your column design according to Eurocode 2



  • Select View > Verification Results On Elements > Verification Results On Column Element to see the verification results on your column element



  • Select Optimization > Eurocode 2:2004 > Optimize Model According To Eurocode 2:2004 to optimize your column design according to Eurocode 2



  • Select View > Optimization Results On Elements > Optimization Results On Column Element to see the optimization results on your column element



How to analyze a steel truss with Tricalc 74 19




In this example, you will learn how to create a steel truss model using the graphical interface, and how to define its material, section, load, and support. You will also learn how to perform a linear static analysis, and how to view the output results such as diagrams, tables, reports, and drawings.



  • Open Tricalc 74 19, and select File > New > Project to create a new project



  • Name your project as Steel Truss, and select OK



  • Select File > New > Model to create a new model



  • Name your model as Truss Model, and select OK



  • Select View > Planar View > XY Plane to see your model in planar view



  • Select Elements > Beam > Create Beam to create beam elements for your truss model



  • Click on the origin point (0, 0), and drag your mouse horizontally to the right until you reach the point (10, 0), and click again. This will create the bottom chord of your truss.



  • Click on the point (10, 0), and drag your mouse diagonally upwards until you reach the point (5, 3), and click again. This will create one of the diagonal members of your truss.



  • Click on the point (5, 3), and drag your mouse horizontally to the left until you reach the point (0, 3), and click again. This will create the top chord of your truss.



  • Click on the point (0, 3), and drag your mouse diagonally downwards until you reach the point (5, 0), and click again. This will create another diagonal member of your truss.



  • 0), and drag your mouse vertically upwards until you reach the point (5, 3), and click again. This will create the vertical member of your truss.



  • Press Esc to finish creating beam elements for your truss model



  • Select Data > Material > Assign Material to assign a material to your beam elements



  • Select Steel S275 from the list, and select OK



  • Select Data > Section > Assign Section to assign a section to your beam elements



  • Select Circular Hollow Section from the list, and select OK



  • Enter 0.1 in the D field (outer diameter of the section), and 0.01 in the t field (thickness of the section), and select OK



  • Select Data > Load > Create Load Case to create a load case for your truss model



  • Name your load case as Dead Load, and select OK



  • Select Data > Load > Assign Load Case To Elements to assign the load case to your beam elements



  • Select Dead Load from the list, and select OK



  • Select Data > Load > Create Distributed Load On Beam Element to create a distributed load on your beam elements



  • Select Dead Load from the list, and select OK



  • Enter -5 in the Qy1 field (uniform load in Y direction), and select OK



  • Select Data > Support > Create Support On Node to create supports on the nodes of your truss model



  • Select Node #1 (the left end node), and select OK



  • Select Pinned Support from the list, and select OK



  • Repeat steps 16-18 for Node #4 (the right end node)



  • Select Calculation > Linear Static Analysis > Calculate Model to perform a linear static analysis on your model



  • Select View > Diagrams On Elements > Axial Force On Beam Element N to see the axial force diagram on your beam elements



  • Select View > Tables On Elements > Axial Force On Beam Element N to see the axial force table on your beam elements



  • Select View > Reports On Model > Summary Report On Model to see the summary report on your model



  • Select View > Drawings On Model > Elevation Drawing On Model to see the elevation drawing on your model



Where to get Tricalc 74 19?




The pricing and licensing options of Tricalc 74 19




If you are interested in getting Tricalc 74 19 for your structural engineering projects, you have several options to choose from. You can buy a perpetual license or a subscription license, depending on your needs and budget. You can also choose between different editions of Tricalc 74 19, such as Basic, Professional, or Premium, depending on the features and modules you want to use. You can also get a free trial version of Tricalc 74 19 for 30 days, to test its capabilities and performance.


To get more information about the pricing and licensing options of Tricalc 74 19, you can visit their official website at https://www.graitec.com/tricalc/ or contact their sales team at sales@graitec.com.


The technical support and customer service of Tricalc 74 19




If you have any questions or issues regarding Tricalc 74 19, you can count on their technical support and customer service team. They are available by phone, email, or online chat, from Monday to Friday, from 9:00 am to 6:00 pm (CET). They can help you with installation, activation, configuration, troubleshooting, updates, training, etc. They can also provide you with documentation, manuals, videos, webinars, etc. to help you learn how to use Tricalc 74 19 effectively.


To get more information about the technical support and customer service of Tricalc 74 19, you can visit their official website at https://www.graitec.com/tricalc/support/ or contact their support team at support@graitec.com.


Conclusion




A summary of the main points and a call to action




In conclusion, Tricalc 74 19 is a powerful software for structural analysis and design that can help you with any type of structure, material, load, code, and standard. It is easy to use, fast, accurate, flexible, adaptable, innovative, and updated. It offers many modules and tools that cover all the phases of structural engineering projects, from modeling to verification to optimization. It also offers many examples and tutorials that show you how to use it effectively. It also has different pricing and licensing options that suit your needs and budget. It also has a technical support and customer service team that is ready to assist you with any question or issue.


If you want to take your structural engineering projects to the next level, you should definitely try Tricalc 74 19. You will not regret it. You can get a free trial version of Tricalc 74 19 for 30 days by visiting their official website at https://www.graitec.com/tricalc/. You can also contact them by phone, email, or online chat to get more information or assistance. Don't miss this opportunity to get one of the best software for structural analysis and design in the market.


FAQs




Here are some frequently asked questions about Tricalc 74 19:



  • What are the system requirements for Tricalc 74 19?



To run Tricalc 74 19 smoothly on your computer, you need to have at least Windows Vista SP2 or higher, Intel Core i3 processor or higher, 4 GB RAM or higher, 10 GB free disk space or higher, and a graphics card with OpenGL support.


  • How can I update my version of Tricalc 74 19?



To update your version of Tricalc 74 19, you need to have an active subscription license or a maintenance contract. You can download the latest version of Tricalc 74 19 from their official website at https://www.graitec.com/tricalc/download/ or use the automatic update function in the software.


  • How can I learn how to use Tricalc 74 19?



To learn how to use Tricalc 74 19 effectively, you can access their documentation, manuals, videos, webinars, etc. that are available on their official website at https://www.graitec.com/tricalc/resources/. You can also attend their online or onsite training courses that are offered periodically by their experts. You can also contact their technical support team for any specific questions or issues.


  • How can I get help with Tricalc 74 19?



To get help with Tricalc 74 19, you can contact their technical support team by phone, email, or online chat. They are available from Monday to Friday, from 9:00 am to 6:00 pm (CET). They can help you with installation, activation, configuration, troubleshooting, updates, training, etc.


  • How can I give feedback or suggestions about Tricalc 74 19?



To give feedback or suggestions about Tricalc 74 19, you can contact their customer service team by phone, email, or online chat. They are available from Monday to Friday, 9:00 am to 6:00 pm (CET). They can listen to your feedback or suggestions and forward them to the development team. They can also help you with any other inquiries or requests.



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