ASME BPVC 2025 Section II, Part A: Ferrous Material Specifications, SA-451 to End
Original price was: $1,020.00.$340.00Current price is: $340.00.
ASME BPVC 2025 Section II, Part A: Ferrous Material Specifications, SA-451 to End provides the official material specifications for ferrous metals used in the construction of boilers and pressure vessels. This volume covers specifications from SA-451 through the end of the ferrous listings, ensuring compliance with ASME standards for safety, performance, and quality.
This section is an essential reference for engineers, manufacturers, inspectors, and other professionals who require accurate and up-to-date standards for ferrous materials in pressure equipment design and fabrication.
ASME BPVC 2025 Section II, Part A: Ferrous Material Specifications, SA-451 to End provides the official material specifications for ferrous metals used in the construction of boilers and pressure vessels. This volume covers specifications from SA-451 through the end of the ferrous listings, ensuring compliance with ASME standards for safety, performance, and quality.
This section is an essential reference for engineers, manufacturers, inspectors, and other professionals who require accurate and up-to-date standards for ferrous materials in pressure equipment design and fabrication.
Book information
Purchase now to read the book instantly.
Add to cartRelated products
AWS D17.1/D17.1M:2017 – Specification for Fusion Welding for Aerospace Applications
AWS D17.1/D17.1M:2017 establishes the welding requirements for aircraft, aerospace, and space hardware using electric arc and high-energy beam fusion welding processes. It covers aluminum, nickel, iron, cobalt, titanium, and magnesium alloys and supports both flight-critical and support structure applications.
Highlights:
- Design criteria for aerospace weld joints
- Qualification requirements for procedures and personnel
- Fabrication, inspection, and acceptance standards
- Repair guidance for aerospace components
- Preweld/postweld processes including traceability and cleaning
- Visual and nondestructive exam methods with acceptance criteria
- Normative/informative annexes on bend tests, positions, acronyms, and forms
- Commentary with technical interpretation and best practices
New in the 2017 Edition:
- Annexes for UNS material designations
- Expanded welding position coverage and standardized forms
- Editorial updates for clarity and usability
Who’s It For:
Aerospace engineers, welding supervisors, inspectors, and quality professionals involved in the fabrication or evaluation of welded aerospace structures.
AWS D17.1/D17.1M-2017
AWS D17.1/D17.1M:2017 – Specification for Fusion Welding for Aerospace Applications
AWS D17.1/D17.1M:2017 establishes the welding requirements for aircraft, aerospace, and space hardware using electric arc and high-energy beam fusion welding processes. It covers aluminum, nickel, iron, cobalt, titanium, and magnesium alloys and supports both flight-critical and support structure applications.
Highlights:
- Design criteria for aerospace weld joints
- Qualification requirements for procedures and personnel
- Fabrication, inspection, and acceptance standards
- Repair guidance for aerospace components
- Preweld/postweld processes including traceability and cleaning
- Visual and nondestructive exam methods with acceptance criteria
- Normative/informative annexes on bend tests, positions, acronyms, and forms
- Commentary with technical interpretation and best practices
New in the 2017 Edition:
- Annexes for UNS material designations
- Expanded welding position coverage and standardized forms
- Editorial updates for clarity and usability
Who’s It For:
Aerospace engineers, welding supervisors, inspectors, and quality professionals involved in the fabrication or evaluation of welded aerospace structures.
AWS D17.1/D17.1M-2017
AASHTO GL-7: Roadway Lighting Design Guide, 7th Edition (2018)
AASHTO GL-7: Roadway Lighting Design Guide, Seventh Edition (2018) provides comprehensive guidance on the planning, design, and implementation of roadway lighting systems. This edition reflects current engineering practices, safety standards, and lighting technologies to enhance visibility, energy efficiency, and operational reliability across modern transportation networks.
Highlights:
- Design principles covering illuminance, luminance, uniformity, and glare control
- Guidance on developing master roadway lighting plans and policies
- Recommended lighting levels for highways, streets, intersections, and pedestrian zones
- Design criteria for tunnels, underpasses, and bridges
- Considerations for temporary lighting in work zones and construction areas
- Evaluation of emerging technologies such as adaptive lighting and smart controls
- Discussion on lighting management systems and energy-efficient solutions
- Environmental impact assessments and aesthetic integration strategies
- Standards for pole placement, maintenance access, and safety
- Support for decision-making with traffic data and community planning considerations
Who It’s For:
An essential reference for transportation agencies, civil engineers, and planners responsible for roadway lighting design and policy development.
GL-7-2018
AASHTO GL-7: Roadway Lighting Design Guide, 7th Edition (2018)
AASHTO GL-7: Roadway Lighting Design Guide, Seventh Edition (2018) provides comprehensive guidance on the planning, design, and implementation of roadway lighting systems. This edition reflects current engineering practices, safety standards, and lighting technologies to enhance visibility, energy efficiency, and operational reliability across modern transportation networks.
Highlights:
- Design principles covering illuminance, luminance, uniformity, and glare control
- Guidance on developing master roadway lighting plans and policies
- Recommended lighting levels for highways, streets, intersections, and pedestrian zones
- Design criteria for tunnels, underpasses, and bridges
- Considerations for temporary lighting in work zones and construction areas
- Evaluation of emerging technologies such as adaptive lighting and smart controls
- Discussion on lighting management systems and energy-efficient solutions
- Environmental impact assessments and aesthetic integration strategies
- Standards for pole placement, maintenance access, and safety
- Support for decision-making with traffic data and community planning considerations
Who It’s For:
An essential reference for transportation agencies, civil engineers, and planners responsible for roadway lighting design and policy development.
GL-7-2018
2021 International Fuel Gas Code – IFGC-2021
The 2021 International Fuel Gas Code® (IFGC) provides comprehensive requirements for the design and installation of fuel gas systems in residential, commercial, and industrial buildings. It governs piping, appliances, combustion air, chimneys, vents, and gaseous hydrogen systems, ensuring safe and efficient fuel gas usage across all occupancies. Fully aligned with the 2021 I-Code suite.
Highlights:
- Regulates natural gas systems up to 125 psig and LP-gas up to 20 psig from point of delivery to appliance shutoff
- Includes complete standards for gaseous hydrogen systems in Chapter 7
- Covers installation, combustion air, and venting for a wide range of fuel gas appliances
- Supports both prescriptive and engineered design methods for air supply, venting, and pipe sizing
- Provides appendices for gas pipe and vent sizing, inspection procedures, and appeals processes
- References updated technical standards from ASME, ANSI, AGA, CSA, and NFPA
- Revised administration chapter clarifies enforcement roles, jurisdictional edits, and appeals
Who It’s For:
Mechanical engineers, gas system designers, inspectors, code officials, and utility providers responsible for safe and compliant gas system installations.
IFGC-2021
2021 International Fuel Gas Code – IFGC-2021
The 2021 International Fuel Gas Code® (IFGC) provides comprehensive requirements for the design and installation of fuel gas systems in residential, commercial, and industrial buildings. It governs piping, appliances, combustion air, chimneys, vents, and gaseous hydrogen systems, ensuring safe and efficient fuel gas usage across all occupancies. Fully aligned with the 2021 I-Code suite.
Highlights:
- Regulates natural gas systems up to 125 psig and LP-gas up to 20 psig from point of delivery to appliance shutoff
- Includes complete standards for gaseous hydrogen systems in Chapter 7
- Covers installation, combustion air, and venting for a wide range of fuel gas appliances
- Supports both prescriptive and engineered design methods for air supply, venting, and pipe sizing
- Provides appendices for gas pipe and vent sizing, inspection procedures, and appeals processes
- References updated technical standards from ASME, ANSI, AGA, CSA, and NFPA
- Revised administration chapter clarifies enforcement roles, jurisdictional edits, and appeals
Who It’s For:
Mechanical engineers, gas system designers, inspectors, code officials, and utility providers responsible for safe and compliant gas system installations.
IFGC-2021
ANSI/ASHRAE 62.1-2022: Ventilation for Acceptable Indoor Air Quality
ANSI/ASHRAE Standard 62.1-2022: Ventilation for Acceptable Indoor Air Quality defines minimum requirements for mechanical and natural ventilation systems in commercial, institutional, and industrial buildings. Widely referenced by model codes such as the International Building Code, this standard is critical for achieving acceptable indoor air quality (IAQ) in non-residential environments.
Highlights:
- Defines procedures for assessing outdoor air quality and ventilation by occupancy type
- Revised Section 5 reorganizes systems/equipment content by airflow path
- Updates IAQ Procedure with design compound guidance and mass-balance modeling
- Establishes separation distances for exhaust air and dew point limits for cooled spaces
- Classifies ventilation zones and defines airflow effectiveness and breathing zone metrics
- Covers design, installation, commissioning, and maintenance of ventilation systems
- Includes appendices for healthcare settings, air quality evaluation, compliance paths, and simplified rate calculations
- Incorporates addenda through Appendix Q as part of its continuous maintenance model
Who It’s For:
Designed for mechanical engineers, HVAC professionals, code officials, and facility managers responsible for designing and maintaining compliant ventilation systems that promote occupant health and comfort.
ASHRAE 62.1-2022
ANSI/ASHRAE 62.1-2022: Ventilation for Acceptable Indoor Air Quality
ANSI/ASHRAE Standard 62.1-2022: Ventilation for Acceptable Indoor Air Quality defines minimum requirements for mechanical and natural ventilation systems in commercial, institutional, and industrial buildings. Widely referenced by model codes such as the International Building Code, this standard is critical for achieving acceptable indoor air quality (IAQ) in non-residential environments.
Highlights:
- Defines procedures for assessing outdoor air quality and ventilation by occupancy type
- Revised Section 5 reorganizes systems/equipment content by airflow path
- Updates IAQ Procedure with design compound guidance and mass-balance modeling
- Establishes separation distances for exhaust air and dew point limits for cooled spaces
- Classifies ventilation zones and defines airflow effectiveness and breathing zone metrics
- Covers design, installation, commissioning, and maintenance of ventilation systems
- Includes appendices for healthcare settings, air quality evaluation, compliance paths, and simplified rate calculations
- Incorporates addenda through Appendix Q as part of its continuous maintenance model
Who It’s For:
Designed for mechanical engineers, HVAC professionals, code officials, and facility managers responsible for designing and maintaining compliant ventilation systems that promote occupant health and comfort.
ASHRAE 62.1-2022