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Plastic Analysis and Design of Steel Structures by M. Bill Wong Book Details
| Book Name | Plastic Analysis and Design of Steel Structures |
| Author | M. Bill Wong |
| Category | Civil Engineering Books, Education Books |
| Book Language | English |
| Pages | 257 |
| Country | India |
| Book Size | 6 MB |
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About Plastic Analysis and Design of Steel Structures by M. Bill Wong Book
Plastic analysis and design are concepts commonly used in the field of structural engineering, particularly in the design of steel structures. They involve understanding and utilizing the plastic behavior of materials to design structures that can withstand significant loads while maintaining ductility and safety. Plastic analysis and design are often associated with the concept of plastic hinges, which form in certain components of a structure when it undergoes plastic deformation.
Here are some key aspects of plastic analysis and design of steel structures:
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Plastic Hinges: Plastic hinges are regions in a structure where plastic deformation occurs under excessive loads. In steel structures, plastic hinges typically form in areas of high stress concentration, such as at the ends of beams or columns. These hinges allow the structure to redistribute loads and undergo controlled deformation without failure.
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Collapse Mechanisms: Plastic analysis involves predicting the collapse mechanisms of structures by identifying the formation of plastic hinges and the sequence in which they develop. This helps engineers ensure that a structure can withstand extreme loads without sudden and catastrophic failure.
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Moment Redistribution: One of the benefits of plastic design is the ability of a structure to redistribute moments and forces after the formation of plastic hinges. This redistribution ensures that the structure maintains its load-carrying capacity even after plastic deformation.
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Plastic Design Codes: Various design codes and standards provide guidelines for plastic design of steel structures. These codes help engineers determine the appropriate load factors, safety factors, and design procedures to ensure the structural integrity of a building or bridge under different loading conditions.
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Limit State Design: Plastic design focuses on achieving specific limit states, such as the formation of plastic hinges in critical areas, while avoiding other undesirable limit states like local buckling. Engineers aim to ensure that the structure's performance remains within acceptable limits under both service loads and extreme events.
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Ductility and Energy Dissipation: The plastic behavior of steel allows structures to exhibit ductile behavior, which means they can absorb energy during deformation. This ductility is crucial for structures to withstand seismic events or other dynamic loads.
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Advanced Analysis Techniques: While simple plastic analysis methods provide initial insights, more advanced techniques such as finite element analysis can provide a more detailed understanding of a structure's behavior, including the formation and progression of plastic hinges.
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Connection Design: In addition to member design, plastic analysis and design also encompass connection design. Properly designed connections ensure that plastic hinges form in the desired locations, allowing the structure to achieve the intended load redistribution.
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Structural Stability: Plastic analysis considers structural stability issues, such as second-order effects (P-delta effects) that become significant under large deformations. These effects are crucial for accurately predicting a structure's behavior under extreme loads.
It's important to note that while plastic analysis and design offer benefits in terms of safety and ductility, they also require a deep understanding of material behavior, structural mechanics, and the specific codes and guidelines applicable to the project. Proper training and experience in structural engineering are essential to ensure the successful application of plastic analysis and design principles to steel structures.
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