ASME BPVC 2025 Section VIII, Division 2: Alternative Rules for Pressure Vessels
ASME BPVC 2025 Section VIII, Division 2 provides alternative rules to Division 1 with more detailed analysis, design, and testing requirements for pressure vessels, enabling optimized construction and higher efficiency.
ASME BPVC 2025 Section VIII, Division 2: Alternative Rules for Pressure Vessels
ASME BPVC 2025 Section VIII, Division 2 provides alternative rules to Division 1 with more detailed analysis, design, and testing requirements for pressure vessels, enabling optimized construction and higher efficiency.
ASME BPVC 2025 Section VIII, Division 3: Alternative Rules for Construction of High Pressure Vessels
ASME BPVC 2025 Section VIII, Division 3 specifies requirements for the design, fabrication, and testing of pressure vessels operating at pressures generally above 10,000 psi, ensuring structural integrity and safety.
ASME BPVC 2025 Section VIII, Division 3: Alternative Rules for Construction of High Pressure Vessels
ASME BPVC 2025 Section VIII, Division 3 specifies requirements for the design, fabrication, and testing of pressure vessels operating at pressures generally above 10,000 psi, ensuring structural integrity and safety.
ASME BPVC 2025 Section X: Fiber-Reinforced Plastic Pressure Vessels
ASME BPVC 2025 Section X covers construction requirements for fiber-reinforced plastic (FRP) pressure vessels, including design bases, materials, fabrication, inspection, testing, and qualification by prototype testing (Classes I & III) or by mandatory design rules with nondestructive examination (Class II).
ASME BPVC 2025 Section X: Fiber-Reinforced Plastic Pressure Vessels
ASME BPVC 2025 Section X covers construction requirements for fiber-reinforced plastic (FRP) pressure vessels, including design bases, materials, fabrication, inspection, testing, and qualification by prototype testing (Classes I & III) or by mandatory design rules with nondestructive examination (Class II).
ASME BPVC 2025 Section XI, Division 1: Rules for Inservice Inspection of Nuclear Reactor Facility Components
ASME BPVC 2025 Section XI, Division 1 defines requirements for inservice inspection, testing, repairs, and replacements of Class 1, 2, and 3 components in light-water-cooled nuclear plants to ensure continued structural integrity and safety.
ASME BPVC 2025 Section XI, Division 1: Rules for Inservice Inspection of Nuclear Reactor Facility Components
ASME BPVC 2025 Section XI, Division 1 defines requirements for inservice inspection, testing, repairs, and replacements of Class 1, 2, and 3 components in light-water-cooled nuclear plants to ensure continued structural integrity and safety.
ASME BPVC 2025 Section XI, Division 2: Requirements for Reliability and Integrity Management (RIM) Programs
ASME BPVC 2025 Section XI, Division 2 specifies Reliability and Integrity Management (RIM) program criteria for nuclear reactor facilities, including assessment methods, inspection planning, and performance monitoring to manage component reliability and integrity through service life.
ASME BPVC 2025 Section XI, Division 2: Requirements for Reliability and Integrity Management (RIM) Programs
ASME BPVC 2025 Section XI, Division 2 specifies Reliability and Integrity Management (RIM) program criteria for nuclear reactor facilities, including assessment methods, inspection planning, and performance monitoring to manage component reliability and integrity through service life.
ASME BPVC 2025 Section XII: Rules for Construction and Continued Service of Transport Tanks
ASME BPVC 2025 Section XII provides rules for design, fabrication, inspection, testing, and continued service of transport tanks used to carry dangerous goods by highway, rail, air, or water, from full vacuum up to high pressure.
ASME BPVC 2025 Section XII: Rules for Construction and Continued Service of Transport Tanks
ASME BPVC 2025 Section XII provides rules for design, fabrication, inspection, testing, and continued service of transport tanks used to carry dangerous goods by highway, rail, air, or water, from full vacuum up to high pressure.
ASME BPVC 2025 Section XIII: Rules for Overpressure Protection
ASME BPVC 2025 Section XIII establishes requirements for overpressure protection of pressure equipment, including pressure relief devices, system design, sizing, installation, and documentation to prevent exceedance of allowable limits.
ASME BPVC 2025 Section XIII: Rules for Overpressure Protection
ASME BPVC 2025 Section XIII establishes requirements for overpressure protection of pressure equipment, including pressure relief devices, system design, sizing, installation, and documentation to prevent exceedance of allowable limits.
ASME BPVC Section IV: Rules for Construction of Heating Boilers (2025 Edition)
ASME BPVC Section IV: Rules for Construction of Heating Boilers (2025 Edition) specifies design, fabrication, installation, and inspection requirements for steam heating, hot water heating, and water supply boilers operating at low pressure.
This edition reflects the latest industry standards for safety valve testing, quality control, certification markings (H, HV, HLW), and new material approvals. It supports use across various fuel types including oil, gas, electricity, coal, and more.
A critical resource for engineers, manufacturers, and inspectors, this ANSI/ASME standard ensures safe, code-compliant heating boiler construction and inspection practices.
ASME BPVC Section IV: Rules for Construction of Heating Boilers (2025 Edition)
ASME BPVC Section IV: Rules for Construction of Heating Boilers (2025 Edition) specifies design, fabrication, installation, and inspection requirements for steam heating, hot water heating, and water supply boilers operating at low pressure.
This edition reflects the latest industry standards for safety valve testing, quality control, certification markings (H, HV, HLW), and new material approvals. It supports use across various fuel types including oil, gas, electricity, coal, and more.
A critical resource for engineers, manufacturers, and inspectors, this ANSI/ASME standard ensures safe, code-compliant heating boiler construction and inspection practices.
ASME PTB-4-2021: ASME Section VIII – Division 1 Example Problem Manual
ASME PTB-4-2021: ASME Section VIII – Division 1 Example Problem Manual presents a comprehensive set of solved example problems demonstrating the correct application of design-by-rule methods from ASME Boiler and Pressure Vessel Code, Section VIII, Division 1. It serves as a valuable learning and reference tool for engineers, designers, and inspectors working in pressure vessel design and analysis.
Highlights:
- Step-by-step examples covering material selection, MDMT, welded joints, and reinforcement
- Calculations for internal/external pressure, flange design, tubesheets, and expansion joints
- Integration of Mandatory Appendix 46 for using Division 2 methods within Division 1 design
- Comparison of Division 1 and Division 2 approaches to selected design problems
- Commentary offering insight into code interpretation and design rationale
- Dual-unit presentation: U.S. Customary and SI
- Examples include postweld heat treatment, hydrotesting, out-of-roundness, and NDE procedures
- Supports design-by-rule and design-by-analysis education and application
Who It’s For:
Mechanical engineers, vessel designers, educators, and code compliance professionals seeking hands-on understanding and accurate application of ASME Section VIII, Division 1 requirements.
PTB-4-2021
ASME PTB-4-2021: ASME Section VIII – Division 1 Example Problem Manual
ASME PTB-4-2021: ASME Section VIII – Division 1 Example Problem Manual presents a comprehensive set of solved example problems demonstrating the correct application of design-by-rule methods from ASME Boiler and Pressure Vessel Code, Section VIII, Division 1. It serves as a valuable learning and reference tool for engineers, designers, and inspectors working in pressure vessel design and analysis.
Highlights:
- Step-by-step examples covering material selection, MDMT, welded joints, and reinforcement
- Calculations for internal/external pressure, flange design, tubesheets, and expansion joints
- Integration of Mandatory Appendix 46 for using Division 2 methods within Division 1 design
- Comparison of Division 1 and Division 2 approaches to selected design problems
- Commentary offering insight into code interpretation and design rationale
- Dual-unit presentation: U.S. Customary and SI
- Examples include postweld heat treatment, hydrotesting, out-of-roundness, and NDE procedures
- Supports design-by-rule and design-by-analysis education and application
Who It’s For:
Mechanical engineers, vessel designers, educators, and code compliance professionals seeking hands-on understanding and accurate application of ASME Section VIII, Division 1 requirements.
PTB-4-2021
Awaken Your True Calling – How to Awaken Your True Purpose in Life and Do What You Actually Love
- Discover the difference between goals and true purpose—and why it matters.
- Use passion, proactivity, and resilience to guide your life choices.
- Develop a personal mission statement that acts as your internal compass.
- Harness the power of creative visualization to reinforce focus and motivation.
- Build a balanced life across physical, mental, social, and spiritual dimensions.
Awaken Your True Calling – How to Awaken Your True Purpose in Life and Do What You Actually Love
- Discover the difference between goals and true purpose—and why it matters.
- Use passion, proactivity, and resilience to guide your life choices.
- Develop a personal mission statement that acts as your internal compass.
- Harness the power of creative visualization to reinforce focus and motivation.
- Build a balanced life across physical, mental, social, and spiritual dimensions.
AWS D1.1/D1.1M:2020 – Structural Welding Code – Steel
AWS D1.1/D1.1M:2020 – Structural Welding Code – Steel is the 24th edition of the code and serves as the definitive standard for welding carbon and low-alloy steel structures. Approved by ANSI and published by the American Welding Society, it reflects the latest best practices in structural welding design, fabrication, and inspection.
Highlights:
- Welding requirements for carbon and low-alloy steels
- Design criteria for welded joints in tubular and nontubular members
- Prequalification standards for Welding Procedure Specifications (WPS)
- Qualification tests for welding procedures and personnel
- Rules for fabrication, inspection, repair, and stud welding
- Guidance for strengthening and retrofitting existing structures
- Covers steel 1/8 in [3 mm] or thicker, up to 100 ksi [690 MPa] yield strength
- Includes mandatory clauses, normative and informative annexes, and detailed commentary
Who It’s For:
Structural engineers, welders, inspectors, and contractors engaged in the design, construction, and quality control of welded steel structures in buildings, bridges, towers, and industrial facilities.
AWS D1.1/D1.1M:2020
AWS D1.1/D1.1M:2020 – Structural Welding Code – Steel
AWS D1.1/D1.1M:2020 – Structural Welding Code – Steel is the 24th edition of the code and serves as the definitive standard for welding carbon and low-alloy steel structures. Approved by ANSI and published by the American Welding Society, it reflects the latest best practices in structural welding design, fabrication, and inspection.
Highlights:
- Welding requirements for carbon and low-alloy steels
- Design criteria for welded joints in tubular and nontubular members
- Prequalification standards for Welding Procedure Specifications (WPS)
- Qualification tests for welding procedures and personnel
- Rules for fabrication, inspection, repair, and stud welding
- Guidance for strengthening and retrofitting existing structures
- Covers steel 1/8 in [3 mm] or thicker, up to 100 ksi [690 MPa] yield strength
- Includes mandatory clauses, normative and informative annexes, and detailed commentary
Who It’s For:
Structural engineers, welders, inspectors, and contractors engaged in the design, construction, and quality control of welded steel structures in buildings, bridges, towers, and industrial facilities.
AWS D1.1/D1.1M:2020
AWS D1.1/D1.1M:2025 Structural Welding Code – Steel
AWS D1.1/D1.1M:2025 Structural Welding Code – Steel is the authoritative standard issued by the American Welding Society for the design, fabrication, and inspection of welded steel structures. It establishes requirements for materials, welding processes, qualification of welders and procedures, and inspection practices to ensure quality and safety in structural steel welding.
This edition provides updated provisions reflecting advances in technology and industry practices. It covers workmanship, fabrication requirements, acceptance criteria, and qualification testing, making it the most comprehensive reference for professionals working with steel structures.
Widely recognized as the benchmark in the field, this standard is an essential resource for engineers, fabricators, inspectors, and educators involved in steel welding applications.
AWS D1.1/D1.1M:2025 Structural Welding Code – Steel
AWS D1.1/D1.1M:2025 Structural Welding Code – Steel is the authoritative standard issued by the American Welding Society for the design, fabrication, and inspection of welded steel structures. It establishes requirements for materials, welding processes, qualification of welders and procedures, and inspection practices to ensure quality and safety in structural steel welding.
This edition provides updated provisions reflecting advances in technology and industry practices. It covers workmanship, fabrication requirements, acceptance criteria, and qualification testing, making it the most comprehensive reference for professionals working with steel structures.
Widely recognized as the benchmark in the field, this standard is an essential resource for engineers, fabricators, inspectors, and educators involved in steel welding applications.
