ASME
Reference data and engineering information about asme for standard organizations applications.
asme
Overview
Engineering reference data for ASME in standard organizations.
Key Formulas
ISO Standard
Quality management systems.
ASTM Standard
Standard test methods for tension testing.
ANSI Standard
Pipe flanges and flanged fittings.
Variables
| Symbol | Description | Unit |
|---|---|---|
| International Organization for Standardization | — | |
| American Society for Testing and Materials | — | |
| American National Standards Institute | — |
References
ASME Technical Divisions
ASME's technical work is carried out through its 37 Technical Divisions and Subdivisions, which cover a vast spectrum of mechanical engineering disciplines. These divisions provide specialized forums for engineers to advance knowledge and address industry-specific challenges.
12 rows
division |
|---|
| Advanced Energy Systems |
| Aerospace |
| Applied Mechanics |
| Bioengineering |
| Computers & Info in Engineering |
| Design Engineering |
| Dynamic Systems & Control |
| Fluids Engineering |
| Heat Transfer |
| Manufacturing Engineering |
| Materials |
| Internal Combustion Engine |
Source: ASME Official Website
Key Engineering Focus Areas
Beyond organizational structure, ASME's divisions concentrate on critical applications that impact safety, innovation, and efficiency across industries.
- Public Safety & Standards: The society's codes and standards, developed through these technical divisions, are internationally recognized and are fundamental to enhancing public safety in design and manufacturing.
- Cross-Disciplinary Technology: Divisions like "Electronic & Photonic Packaging" and "Microelectromechanical Systems" highlight ASME's role in advancing integrated, miniature systems that bridge mechanical, electrical, and materials engineering.
- Environmental & Energy Transitions: Groups such as "Environmental Engineering" and "Advanced Energy Systems" directly address pollution control, remediation, and the development of next-generation energy technologies like hydrogen and fuel cells.
- Digital Transformation: The "Computers & Information in Engineering" division focuses on integrating simulation and digital tools to optimize the entire engineering lifecycle, from design to operation.