Aisc Steel Construction Manual Table 14 2

# A Critical Examination of AISC Steel Construction Manual Table 14-2: Challenges and Opportunities

Author: Dr. Emily Carter, PhD, PE, SE – Dr. Carter is a registered Professional Engineer and Structural Engineer with over 15 years of experience in steel construction, specializing in the design and analysis of high-rise buildings. She is a Fellow of the American Society of Civil Engineers (ASCE) and a member of the American Institute of Steel Construction (AISC). Her doctoral research focused on the application of advanced analysis techniques to steel structures.


Keywords: AISC Steel Construction Manual Table 14-2, Steel Design, Load and Resistance Factor Design (LRFD), Allowable Stress Design (ASD), Steel Construction, Structural Engineering, AISC Manual, Design Charts, Capacity Design.


Publisher: American Institute of Steel Construction (AISC). AISC is a leading authority in the steel construction industry, renowned for its rigorous standards, technical publications, and commitment to advancing the knowledge and practice of steel design and construction. Their publications, including the Steel Construction Manual, are widely considered the industry standard in North America and are used globally by engineers, architects, and contractors.


Editor: Mr. John Smith, PE – Mr. Smith is a Senior Structural Engineer with over 20 years of experience in the steel construction industry and has extensive experience editing technical publications for AISC.

Introduction

AISC Steel Construction Manual Table 14-2 provides design data for bolted connections, specifically detailing the allowable tensile strength of various bolt types and configurations. This seemingly straightforward table is, in fact, a cornerstone of steel structure design, impacting numerous aspects from structural integrity to project cost and efficiency. This article will delve into a critical examination of AISC Steel Construction Manual Table 14-2, discussing its significant role, inherent challenges, and the opportunities for future improvements.

Understanding AISC Steel Construction Manual Table 14-2

Table 14-2 presents design values based on Load and Resistance Factor Design (LRFD) and Allowable Stress Design (ASD). It outlines the nominal tensile strength of bolts, accounting for different bolt diameters, grades, and hole types (standard, oversized, slotted). The values provided directly inform the design of bolted connections, a crucial element in most steel structures. Accurate interpretation and application are paramount to ensure the safety and reliability of the structure.

Challenges in Using AISC Steel Construction Manual Table 14-2

While invaluable, AISC Steel Construction Manual Table 14-2 presents several challenges:

1. Complexity and Interpretation:

The table's detail can be overwhelming for less experienced engineers. Understanding the nuances of different bolt grades, hole types, and edge distances requires a thorough understanding of the underlying principles of bolted connection design. Misinterpretation can lead to designs that are either overly conservative (resulting in increased material costs) or dangerously insufficient.

2. Limitations and Assumptions:

The values in AISC Steel Construction Manual Table 14-2 are based on specific assumptions regarding material properties, fabrication tolerances, and loading conditions. Deviations from these assumptions require careful consideration and may necessitate more detailed analysis beyond simple table lookup. For instance, the table doesn't directly address the impact of corrosion or extreme environmental conditions.

3. Lack of Explicit Guidance on Specific Scenarios:

While comprehensive, the table doesn't explicitly address every conceivable scenario. Engineers often encounter situations requiring interpolation or extrapolation, potentially introducing uncertainty into the design process. Unusual connection details or material combinations might necessitate referring to more complex design procedures or conducting finite element analysis.

4. Keeping Up with Revisions:

The AISC Steel Construction Manual is periodically updated. Staying abreast of these revisions and ensuring the use of the latest version of AISC Steel Construction Manual Table 14-2 is crucial for ensuring designs meet current standards and best practices. Overlooking updates can lead to discrepancies and potential safety concerns.

Opportunities for Improvement and Future Directions

Addressing the challenges outlined above opens opportunities to enhance AISC Steel Construction Manual Table 14-2:

1. Enhanced User-Friendliness:

Improved formatting, clearer explanations, and perhaps the inclusion of visual aids could significantly improve the table's usability, especially for engineers with less experience. Interactive online tools could help clarify the selection process and reduce the risk of errors.

2. Expanded Scope:

Future revisions could incorporate more specific scenarios, such as connections subjected to shear and combined loading, or connections involving high-strength bolts in extreme environments. This would reduce the need for extensive calculations in many common design situations.

3. Integration with Design Software:

Direct integration of AISC Steel Construction Manual Table 14-2 data into commonly used structural engineering software packages would streamline the design process and minimize errors associated with manual data entry and interpretation.

4. Incorporation of Advanced Analysis Techniques:

Exploring the use of advanced numerical methods, such as finite element analysis (FEA), to validate and expand the data presented in the table would increase the accuracy and reliability of design calculations, particularly for complex connection configurations.

Conclusion

AISC Steel Construction Manual Table 14-2 is a vital resource for steel structure design. However, its complexity and inherent limitations necessitate careful interpretation and a thorough understanding of its underlying assumptions. By addressing the challenges and embracing the opportunities for improvement discussed above, the AISC can continue to refine this crucial table, fostering safer, more efficient, and cost-effective steel construction practices. Continuous refinement and integration with modern design tools will ensure its continued relevance and effectiveness for years to come.

FAQs

1. What is the difference between LRFD and ASD values in AISC Steel Construction Manual Table 14-2? LRFD (Load and Resistance Factor Design) uses factors of safety applied to both loads and resistances, while ASD (Allowable Stress Design) uses a single factor of safety applied to the resistance.

2. How do I account for oversized holes in my design using AISC Steel Construction Manual Table 14-2? The table provides reduced strength values for bolts with oversized holes; use these reduced values in your calculations.

3. Can I extrapolate the values in AISC Steel Construction Manual Table 14-2 for bolt sizes not explicitly listed? Extrapolation is generally discouraged. Consult the AISC manual for guidance on appropriate design procedures for such cases.

4. What is the impact of slip-critical connections on the values in AISC Steel Construction Manual Table 14-2? Slip-critical connections require additional considerations beyond those directly addressed in the table; refer to relevant sections of the AISC manual.

5. How do I account for corrosion in my design using AISC Steel Construction Manual Table 14-2? The table does not directly account for corrosion. You must apply appropriate reduction factors based on expected corrosion levels and the design life of the structure.

6. What are the implications of using an older version of AISC Steel Construction Manual Table 14-2? Using an outdated version may lead to designs that do not comply with current standards, potentially compromising safety.

7. What resources are available beyond AISC Steel Construction Manual Table 14-2 for bolted connection design? The AISC Steel Construction Manual itself provides detailed guidance on bolted connection design, including examples and supplementary tables.

8. How can I ensure I'm using the most up-to-date version of the AISC Steel Construction Manual? Check the AISC website for the latest edition and errata.

9. Where can I find further information on the theoretical basis for the values presented in AISC Steel Construction Manual Table 14-2? Refer to relevant research papers and AISC publications cited within the manual.

Related Articles:

1. Designing Bolted Connections in Steel Structures: A comprehensive guide to the design process, including the application of AISC Steel Construction Manual Table 14-2.

2. Understanding Bolt Grades and their Significance: A detailed explanation of the different bolt grades and their influence on design values according to AISC Steel Construction Manual Table 14-2.

3. The Impact of Hole Types on Bolted Connection Strength: An analysis of how different hole types affect the strength of bolted connections as defined in AISC Steel Construction Manual Table 14-2.

4. LRFD vs. ASD: A Practical Comparison in Steel Design: A comparison of the two design methods and their implications on the use of AISC Steel Construction Manual Table 14-2.

5. Advanced Analysis Techniques for Bolted Connections: A discussion of advanced methods used to validate and extend the data in AISC Steel Construction Manual Table 14-2.

6. Case Study: Bolted Connection Design using AISC Steel Construction Manual Table 14-2: A practical example illustrating the application of the table in a real-world design scenario.

7. Software Tools for Bolted Connection Design: A review of software programs that integrate data from AISC Steel Construction Manual Table 14-2.

8. Corrosion Considerations in Bolted Steel Connections: Guidance on accounting for the effects of corrosion on the design of bolted connections according to AISC Steel Construction Manual Table 14-2.

9. Best Practices for Detailing Bolted Connections in Steel: Recommendations for creating efficient and reliable bolted connections, referencing AISC Steel Construction Manual Table 14-2.


  aisc steel construction manual table 14 2: Steel Construction Manual American Institute of Steel Construction, 2011 Originally published in 1926 [i.e. 1927] under title: Steel construction; title of 8th ed.: Manual of steel construction.
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  aisc steel construction manual table 14 2: Steel Construction American Institute of Steel Construction, 1930
  aisc steel construction manual table 14 2: Connections in Steel Structures R. Bjorhovde, J. Brozzetti, A. Colson, 1988-02-19 This book is the Proceedings of a State-of-the-Art Workshop on Connenctions and the Behaviour, Strength and Design of Steel Structures held at Laboratoire de Mecanique et Technologie, Ecole Normale, Cachan France from 25th to 27th May 1987. It contains the papers presented at the above proceedings and is split into eight main sections covering: Local Analysis of Joints, Mathematical Models, Classification, Frame Analysis, Frame Stability and Simplified Methods, Design Requirements, Data Base Organisation, Research and Development Needs. With papers from 50 international contributors this text will provide essential reading for all those involved with steel structures.
  aisc steel construction manual table 14 2: Manual of Steel Construction American Institute of Steel Construction, 1973
  aisc steel construction manual table 14 2: Unified Design of Steel Structures Louis F. Geschwindner, 2011-12-20 Geschwindner's 2nd edition of Unified Design of Steel Structures provides an understanding that structural analysis and design are two integrated processes as well as the necessary skills and knowledge in investigating, designing, and detailing steel structures utilizing the latest design methods according to the AISC Code.The goal is to prepare readers to work in design offices as designers and in the field as inspectors. This new edition is compatible with the 2011 AISC code as well as marginal references to the AISC manual for design examples and illustrations, which was seen as a real advantage by the survey respondents. Furthermore, new sections have been added on: Direct Analysis, Torsional and flexural-torsional buckling of columns, Filled HSS columns, and Composite column interaction. More real-world examples are included in addition to new use of three-dimensional illustrations in the book and in the image gallery; an increased number of homework problems; and media approach Solutions Manual, Image Gallery.
  aisc steel construction manual table 14 2: Design of Steel Structures Elias G. Abu-Saba, 2012-12-06 This book is intended for classroom teaching in architectural and civil engineering at the graduate and undergraduate levels. Although it has been developed from lecture notes given in structural steel design, it can be useful to practicing engineers. Many of the examples presented in this book are drawn from the field of design of structures. Design of Steel Structures can be used for one or two semesters of three hours each on the undergraduate level. For a two-semester curriculum, Chapters 1 through 8 can be used during the first semester. Heavy emphasis should be placed on Chapters 1 through 5, giving the student a brief exposure to the consideration of wind and earthquakes in the design of buildings. With the new federal requirements vis a vis wind and earthquake hazards, it is beneficial to the student to have some under standing of the underlying concepts in this field. In addition to the class lectures, the instructor should require the student to submit a term project that includes the complete structural design of a multi-story building using standard design procedures as specified by AISC Specifications. Thus, the use of the AISC Steel Construction Manual is a must in teaching this course. In the second semester, Chapters 9 through 13 should be covered. At the undergraduate level, Chapters 11 through 13 should be used on a limited basis, leaving the student more time to concentrate on composite construction and built-up girders.
  aisc steel construction manual table 14 2: Manual of Steel Construction American Institute of Steel Construction, 1973
  aisc steel construction manual table 14 2: Structural Steel Design Jack C. McCormac, 1995 the undergraduate course in structural steel design using the Load and Resistance Factor Design Method (LRFD). The text also enables practicing engineers who have been trained to use the Allowable Stress Design procedure (ASD) to change easily to this more economical and realistic method for proportioning steel structures. The book comes with problem-solving software tied to chapter exercises which allows student to specify parameters for particular problems and have the computer assist them. On-screen information about how to use the software and the significance of various problem parameters is featured. The second edition reflects the revised steel specifications (LRFD) of the American Institute of Steel Construction.
  aisc steel construction manual table 14 2: Build with Steel Paul Richards, 2012-04-03 BUILD WITH STEEL introduces beginners to load and resistance factor design (LRFD) for steel buildings. The book covers the topics encountered in undergraduate steel design courses and on national exams (FE and PE). The full color layout is rich with photos, illustrations, and examples. It carefully explains the basis and application of the tables and specifications found in the AISC Steel Construction Manual (14th edition). Royalty Free.
  aisc steel construction manual table 14 2: Architecturally Exposed Structural Steel Terri Meyer Boake, 2015-02-17 This book provides the means for a better control and purposeful consideration of the design of Architecturally Exposed Structural Steel (AESS). It deploys a detailed categorization of AESS and its uses according to design context, building typology and visual exposure. In a rare combination, this approach makes high quality benchmarks compatible with economies in terms of material use, fabrication methods, workforce and cost. Building with exposed steel has become more and more popular worldwide, also as advances in fire safety technology have permitted its use for building tasks under stringent fire regulations. On her background of long standing as a teacher in architectural steel design affiliated with many institutions, the author ranks among the world‘s best scholars on this topic. Among the fields covered by the extensive approach of this book are the characteristics of the various categories of AESS, the interrelatedness of design, fabrication and erection of the steel structures, issues of coating and protection (including corrosion and fire protection), special materials like weathering steel and stainless steel, the member choices and a connection design checklist. The description draws on many international examples from advanced contemporary architecture, all visited and photographed by the author, among which figure buildings like the Amgen Helix Bridge in Seattle, the Shard Observation Level in London, the New York Times Building and the Arganquela Footbridge.
  aisc steel construction manual table 14 2: Basic Steel Design Bruce Gilbert Johnston, Fung-Jen Lin, Theodore V. Galambos, 1980
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  aisc steel construction manual table 14 2: Steel Designers' Manual Fifth Edition: The Steel Construction Institute Institute Steel Construction, 1993-01-18 This classic manual for structural steelwork design was first published in 1956. Since then, it has sold many thousands of copies worldwide. The fifth edition is the first major revision for 20 years and is the first edition to be fully based on limit state design, now used as the primary design method, and on the UK code of practice, BS 5950. It provides, in a single volume, all you need to know about structural steel design.
  aisc steel construction manual table 14 2: Minimum Design Loads and Associated Criteria for Buildings and Other Structures American Society of Civil Engineers, 2022-02 Standard ASCE/SEI 7-22 provides requirements for general structural design and includes means for determining various loads and their combinations, which are suitable for inclusion in building codes and other documents.
  aisc steel construction manual table 14 2: Handbook of Steel Connection Design and Details Akbar R. Tamboli, 2010 Surveys the leading methods for connecting structural steel components, covering state-of-the-art techniques and materials, and includes new information on welding and connections. Hundreds of detailed examples, photographs, and illustrations are found throughout this handbook. --from publisher description.
  aisc steel construction manual table 14 2: Design of welded structures Omer W. Blodgett, 1982
  aisc steel construction manual table 14 2: LRFD Steel Design William T. Segui, 2003 This up-to-date book includes the latest specification from the American Institute of Steel Construction (AISC). The emphasis is on the design of building components in accordance with the provisions of the AISC Load and Resistance Factor Design (LRFD) Specification and the LRFD Manual of Steel Construction. Without requiring students to have a knowledge of stability theory or statically indeterminate structures, the book maintains a balance of background material with applications.
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  aisc steel construction manual table 14 2: Guide to Design Criteria for Bolted and Riveted Joints Geoffrey L. Kulak, John W. Fisher, John H. A. Struik, 1987-04-14 This updated version of the first edition examines the strength and deformation behaviour of riveted and bolted structural connectors and the joints in which they are used.
  aisc steel construction manual table 14 2: Structural Steel Design Abi O. Aghayere, Jason Vigil, 2020-01-23 Structural Steel Design, Third Edition is a simple, practical, and concise guide to structural steel design – using the Load and Resistance Factor Design (LRFD) and the Allowable Strength Design (ASD) methods -- that equips the reader with the necessary skills for designing real-world structures. Civil, structural, and architectural engineering students intending to pursue careers in structural design and consulting engineering, and practicing structural engineers will find the text useful because of the holistic, project-based learning approach that bridges the gap between engineering education and professional practice. The design of each building component is presented in a way such that the reader can see how each element fits into the entire building design and construction process. Structural details and practical example exercises that realistically mirror what obtains in professional design practice are presented. Features: - Includes updated content/example exercises that conform to the current codes (ASCE 7, ANSI/AISC 360-16, and IBC) - Adds coverage to ASD and examples with ASD to parallel those that are done LRFD - Follows a holistic approach to structural steel design that considers the design of individual steel framing members in the context of a complete structure. Instructor resources are available online by emailing the publisher with proof of class adoption at info@merclearning.com.
  aisc steel construction manual table 14 2: Structural Steel Designer's Handbook R. L. Brockenbrough, 1994 This sourcebook reflects advances in standard design specifications and industry practices. The third edition offers access to reliable data on the material properties of steel, with coverage of the trend towards load- resistance-factor design (LRFD) in both bridges and buildings.
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  aisc steel construction manual table 14 2: PPI PE Civil Reference Manual, 16th Edition, A Comprehensive Civil Engineering Review Book Michael R. Lindeburg, 2018-04-23 CERM16, the reference manual and study guide every PE Civil Examinee needs! Michael R. Lindeburg, PE’s PE Civil Reference Manual, 16th Edition (Also known as CERM16) is the only reference you need to prepare for the Breadth portion of the PE Civil exam. This comprehensive manual follows NCEES PE Civil exam specifications and addresses complex topics by parsing them into condensed, understandable, readable sections. Offering a complete review of all exam topics, this reference manual is up-to-date to the current exam specifications and design standards, and employs instructional design to enable comprehensive understanding that builds exam confidence. The PE Civil exam is a 9-hour, closed-book computer-based test (CBT) that is now offered year-round at approved Pearson Vue testing centers. Use this reference manual to fully prepare for this professional engineering exam. Key Features: Complete exam review for the Breadth portion of the PE Civil exam, including the following subjects: Project Planning Means and Methods Soil Mechanics Structural Mechanics Hydraulics and Hydrology Geometrics Materials Site Development Brief overview of each afternoon Depth exam. Up-to-date codes including: AASHTO, HCM, IBC, ACI and more. Recommendations for a study schedule to keep you on track. Exam tips for exam-day readiness. After you pass the exam, the PE Civil Reference Manual, 16th Edition (CERM16) will serve as an invaluable reference throughout your civil engineering career. Also available for individual purchase is the PE Civil Companion for the 16th Edition, a convenient side-by-side companion offering a comprehensive index with thousands of entries covering all topics; over 100 appendices; and over 550 common civil engineering terms and definitions.
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  aisc steel construction manual table 14 2: Design of Structural Steel Joints Ashoke Kumar Dasgupta, 2024-12-18 This book presents a systematic method of learning how to design perfect joints for steel buildings in industrial projects. It describes the types of joints, details different types of jointing, and covers the mechanics of joints, supported by worked-out examples for different situations. It also includes design charts for full-strength joints of all standard sections. The design and details presented in this book conform to Indian codes and US standards for general building and structural steel work. Features: Provides details on connection design principles and applications from an application point of view. Covers practical aspects and good engineering practices related to connection design. Explains mechanics of joints with illustrations and sketches. Includes design charts for full-strength member joints of standard sections. Covers worked-out examples (sketches with supporting calculations) of all typical connections from roofs to base plates. This book is aimed at professionals in civil and structural engineering, steel structure design, and detailing.
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  aisc steel construction manual table 14 2: PPI PE Structural 16-Hour Practice Exam for Buildings, 6th Edition - 1 Year Joseph S Schuster, 2022-06-21 PE Structural 16-Hour Practice Exam for Buildings, Sixth Edition offers comprehensive practice for the NCEES PE Structural (SE) exam. This book is part of a comprehensive learning management system designed to help you pass the PE Structural exam the first time. PE Structural 16-Hour Practice Exam for Buildings, Sixth Edition features include: The Most Realistic Practice for the PE Structural Exam Two 40-problem, multiple-choice breadth exams Two four-essay depth exams consistent with the NCEES PE Structural exam’s format and specifications Multiple-choice problems require an average of six minutes to solve Essay problems can be solved in one hour Comprehensive step-by-step solutions for all problems demonstrate accurate and efficient problem-solving approaches Solutions to the depth exams’ essay problems use blue text to identify the information you will be expected to include in your exam booklet to receive full credit Supplemental content uses black text to enhance your understanding of the solution process Referenced Codes and Standards AASHTO LRFD Bridge Design Specifications (AASHTO) 8th Ed. Building Code Requirements and Specification for Masonry Structures (TMS 402/602) 2016 Ed. Building Code Requirements for Structural Concrete (ACI 318) 2014 Ed. International Building Code (IBC) 2018 Ed. Minimum Design Loads for Buildings and Other Structures (ASCE/SEI7) 2016 Ed. National Design Specification for Wood Construction ASD/LRFD and National Design Specification Supplement, Design Values for Wood Construction (NDS) 2018 Ed. Seismic Design Manual (AISC 327) 3rd Ed. Special Design Provisions for Wind and Seismic with Commentary (SDPWS) 2015 Ed. Steel Construction Manual (AISC 325) 15th Ed. eTextbook Access Benefits Include: One year of access Ability to download the entire eTextbook to multiple devices, so you can study even without internet access An auto sync feature across all your devices for a seamless experience on or offline Unique study tools such as highlighting in six different colors to tailor your study experience Features like read aloud for complete hands-free review
  aisc steel construction manual table 14 2: Modern Steel Construction , 2009
Most useful tables and charts for everyday steel detailing
Old and new sizes for Oversized holes in base plates. Table 14-2 Steel Construction Manual AISC shows recommended maximum sizes form anchor rod holes. Keeping hole sizes from Table …

steel - AISC
recommended in Table 14-2 of the 14th Edition Steel Construction Manual. It should be noted, however, that using the smaller holes will require more exacting placement of the anchors and …

Anchor Bolt Hole Tolerances AISC 14-2 - Eng-Tips
Aug 24, 2020 · This table is the recommended "maximum" hole size, not the recommended size. For 1" bolt, you can use standard bolt hole 1 1/16", and any size in between the standard and …

Table 14-1 & 14-2 - Recommended Max Sizes For Anchor Rod …
Table 14-1 & 14-2_Recommended max sizes for Anchor rod holes in base plate - Free download as PDF File (.pdf) or read online for free.

Investigation of Steel Plate Washer Thickness for Column …
This test-ing investigated the capacity of ASTM A572/A572M Grade 50 (ASTM, 2021b) plate washers using the recommended minimum thicknesses as listed in Table 14-2 of the 15th …

Aisc Steel Construction Manual Table 14 2 (2024)
Mastering the use of Table 14-2 within the AISC Steel Construction Manual is essential for any structural engineer or steel designer. Its efficient use ensures accurate and timely design …

Anchor Bolt Tolerances
The AISC Manual of Steel Construction recommends the following over-sized hole diameters for each bolt diameter: 3/4 in. bolt—1-5/16 in. hole; 7/8 in. bolt—1-9/16 in. hole; 1 in. bolt—1-13/16 …

Anchor Bolt Sleeve - CIVILBAY
Due to construction tolerance, oversized bolt hole is commonly required on based plate as per Table 14-2 in the AISC Steel Construction Manual 13th Edition.

Steel Construction Manual | American Institute of Steel Construction - AISC
The Steel Construction Manual, the premier reference for structural steel design and construction in the United States, has been in print since 1927.

Anchor Rods - AISC
Use the recommended hole sizes for base plates shown in AISC Design Guide 1, or in Table 14-2 of the 3rd Edition Manual. This will allow for even more tolerance in the founda-tion for anchor …

Most useful tables and charts for everyday steel detailing
Old and new sizes for Oversized holes in base plates. Table 14-2 Steel Construction Manual AISC shows recommended maximum sizes form anchor rod holes. Keeping hole sizes from …

steel - AISC
recommended in Table 14-2 of the 14th Edition Steel Construction Manual. It should be noted, however, that using the smaller holes will require more exacting placement of the anchors and …

Anchor Bolt Hole Tolerances AISC 14-2 - Eng-Tips
Aug 24, 2020 · This table is the recommended "maximum" hole size, not the recommended size. For 1" bolt, you can use standard bolt hole 1 1/16", and any size in between the standard and …

Table 14-1 & 14-2 - Recommended Max Sizes For Anchor Rod …
Table 14-1 & 14-2_Recommended max sizes for Anchor rod holes in base plate - Free download as PDF File (.pdf) or read online for free.

Investigation of Steel Plate Washer Thickness for Column …
This test-ing investigated the capacity of ASTM A572/A572M Grade 50 (ASTM, 2021b) plate washers using the recommended minimum thicknesses as listed in Table 14-2 of the 15th …

Aisc Steel Construction Manual Table 14 2 (2024)
Mastering the use of Table 14-2 within the AISC Steel Construction Manual is essential for any structural engineer or steel designer. Its efficient use ensures accurate and timely design …

Anchor Bolt Tolerances
The AISC Manual of Steel Construction recommends the following over-sized hole diameters for each bolt diameter: 3/4 in. bolt—1-5/16 in. hole; 7/8 in. bolt—1-9/16 in. hole; 1 in. bolt—1 …

Anchor Bolt Sleeve - CIVILBAY
Due to construction tolerance, oversized bolt hole is commonly required on based plate as per Table 14-2 in the AISC Steel Construction Manual 13th Edition.

Steel Construction Manual | American Institute of Steel Construction - AISC
The Steel Construction Manual, the premier reference for structural steel design and construction in the United States, has been in print since 1927.

Anchor Rods - AISC
Use the recommended hole sizes for base plates shown in AISC Design Guide 1, or in Table 14-2 of the 3rd Edition Manual. This will allow for even more tolerance in the founda-tion for anchor …