ASME BPVC 2025 Section II, Part D (Metric): Properties of Materials
Original price was: $930.00.$310.00Current price is: $310.00.
The ASME BPVC 2025 Section II, Part D (Metric) provides mechanical and physical property data for materials listed in Parts A, B, and C. It includes values such as tensile strength, yield strength, modulus of elasticity, and thermal conductivity, presented in metric units. This section is an essential reference for engineers and designers who work primarily with SI-based standards.
The ASME BPVC 2025 Section II, Part D (Metric) provides mechanical and physical property data for materials listed in Parts A, B, and C. It includes values such as tensile strength, yield strength, modulus of elasticity, and thermal conductivity, presented in metric units. This section is an essential reference for engineers and designers who work primarily with SI-based standards.
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
ASME B16.5-2020: Pipe Flanges and Flanged Fittings
Product Summary:
ASME B16.5-2020 defines the requirements for pipe flanges and flanged fittings in sizes NPS ½ through NPS 24, covering pressure–temperature ratings, dimensions, tolerances, materials, and testing. It applies to components used in bolted flange joints made from cast, forged, or plate materials in industrial piping systems.
Key Features:
- Pressure–temperature ratings for Classes 150 through 2500
- Dimensional standards for weld neck, blind, reducing, and other flange types
- Specifications for bolting materials, gaskets, and flange assembly practices
- Manufacturing tolerances and permanent marking requirements
- Material listings with corresponding ASTM designations for forgings, castings, and plates
- Guidance on gasket selection, bolted joint design, and system hydrotesting
- Appendices covering bolt length calculations, pressure rating derivation, and quality system standards
- Metric and U.S. Customary units presented side-by-side for reference
Who It’s For:
Essential for piping designers, mechanical engineers, fabricators, and QA/QC personnel involved in pressure piping systems across oil, gas, chemical, and industrial sectors.
ASME B16.5-2020
ASME B16.5-2020: Pipe Flanges and Flanged Fittings
Product Summary:
ASME B16.5-2020 defines the requirements for pipe flanges and flanged fittings in sizes NPS ½ through NPS 24, covering pressure–temperature ratings, dimensions, tolerances, materials, and testing. It applies to components used in bolted flange joints made from cast, forged, or plate materials in industrial piping systems.
Key Features:
- Pressure–temperature ratings for Classes 150 through 2500
- Dimensional standards for weld neck, blind, reducing, and other flange types
- Specifications for bolting materials, gaskets, and flange assembly practices
- Manufacturing tolerances and permanent marking requirements
- Material listings with corresponding ASTM designations for forgings, castings, and plates
- Guidance on gasket selection, bolted joint design, and system hydrotesting
- Appendices covering bolt length calculations, pressure rating derivation, and quality system standards
- Metric and U.S. Customary units presented side-by-side for reference
Who It’s For:
Essential for piping designers, mechanical engineers, fabricators, and QA/QC personnel involved in pressure piping systems across oil, gas, chemical, and industrial sectors.
ASME B16.5-2020
AWS D17.3/D17.3M:2016 – Specification for Friction Stir Welding of Aluminum Alloys for Aerospace Applications
AWS D17.3/D17.3M:2016 establishes general requirements for the friction stir welding (FSW) of aluminum alloys in aerospace applications. It provides standardized procedures for the design, fabrication, qualification, and inspection of aerospace components joined using the FSW process.
Highlights:
- Design requirements for FSW joints in aerospace structures
- Qualification procedures for welders, operators, and welding procedures
- Approved base metal specifications and usage limitations
- Tooling, fixture, and FSW equipment setup requirements
- Fabrication guidelines for welding parameters and process control
- Visual and mechanical inspection methods for weld quality verification
- Acceptance criteria for discontinuities, mechanical properties, and visual appearance
- Quality assurance provisions, documentation, and recordkeeping standards
New in the 2016 Edition:
- Updates to reflect advancements in friction stir welding techniques and aerospace material performance
- Enhanced inspection and qualification procedures for improved compliance and reliability
- Supersedes AWS D17.3/D17.3M:2010
Who’s It For:
Aerospace engineers, quality professionals, and fabricators involved in the production or qualification of aluminum structures using friction stir welding.
AWS D17.3/D17.3M-2016
AWS D17.3/D17.3M:2016 – Specification for Friction Stir Welding of Aluminum Alloys for Aerospace Applications
AWS D17.3/D17.3M:2016 establishes general requirements for the friction stir welding (FSW) of aluminum alloys in aerospace applications. It provides standardized procedures for the design, fabrication, qualification, and inspection of aerospace components joined using the FSW process.
Highlights:
- Design requirements for FSW joints in aerospace structures
- Qualification procedures for welders, operators, and welding procedures
- Approved base metal specifications and usage limitations
- Tooling, fixture, and FSW equipment setup requirements
- Fabrication guidelines for welding parameters and process control
- Visual and mechanical inspection methods for weld quality verification
- Acceptance criteria for discontinuities, mechanical properties, and visual appearance
- Quality assurance provisions, documentation, and recordkeeping standards
New in the 2016 Edition:
- Updates to reflect advancements in friction stir welding techniques and aerospace material performance
- Enhanced inspection and qualification procedures for improved compliance and reliability
- Supersedes AWS D17.3/D17.3M:2010
Who’s It For:
Aerospace engineers, quality professionals, and fabricators involved in the production or qualification of aluminum structures using friction stir welding.
AWS D17.3/D17.3M-2016
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