ASTM Advanced Manufacturing Standards - ASTM Latin America

ASTM Advanced Manufacturing Standards

ASTM robotics and advanced manufacturing standards create a common framework for developing, testing, and deploying technologies that are reshaping global industry. From robotic systems and automation equipment to additive manufacturing and digital production workflows, these standards ensure that innovation is matched with reliability, safety, and interoperability.
Developed through the work of committees such as ASTM F45 on Robotics, Automation, and Autonomous Systems and ASTM F42 on Additive Manufacturing Technologies, these standards bring together manufacturers, researchers, and regulators to establish clear guidelines. They cover critical areas including system performance, human-robot interaction, safety requirements, and data integration—providing the structure needed to scale advanced technologies with confidence.

As robotics move from controlled environments into more diverse industrial and service settings, standardized performance benchmarks are essential. ASTM robotics standards define how robotic systems should be evaluated for repeatability, accuracy, endurance, and resilience in real-world conditions. They also address critical aspects of safety, including operator interaction, emergency protocols, and fail-safe functions.
By applying these standards, organizations can deploy robotic systems that perform consistently, integrate seamlessly into production lines, and protect both workers and assets from risk.

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ASTM Advanced Manufacturing Standards

Beyond individual technologies, advanced manufacturing depends on interconnected systems where robotics, automation, and digital twins work together. ASTM standards are evolving to cover these areas, offering guidance for system interoperability, data exchange, and cybersecurity. They help manufacturers integrate Industry 4.0 technologies in ways that are scalable, secure, and aligned with global best practices.
ASTM robotics and advanced manufacturing standards are recognized worldwide as reliable tools for aligning innovation with safety and quality. By providing consensus-based practices, they simplify compliance, accelerate market adoption, and support international collaboration in emerging technologies.
The standards program is continually updated to keep pace with rapid technological change. Through ASTM Compass®, engineers, designers, and policymakers gain access to the latest documents, along with collaboration tools that ensure consistency across teams and organizations.

Popular Advanced Manufacturing Standards (Not an indication of availability in Spanish)

F3200 Standard Terminology for Driverless Automatic Guided Industrial Vehicles

F3218 Standard Practice for Recording Environmental Effects for Utilization with A-UGV Test Methods

F3244 Test Method for Navigation: Defined Space

F3265 Standard Test Method for Grid-Video Obstacle Measurement

F3327 Standard Practice for Recording the A-UGV Test Configuration

F3381 Standard Practice for Describing Stationary Obstacles Utilized within A-UGV Test Methods

Advanced Manufacturing Standards Available in Spanish

ASTM F3218 Practice for Documenting Environmental Conditions for Utilization with A-UGV Test Methods

ASTM F3243 Practice for Implementing Communications Impairments on A-UGV Systems

ASTM F3244 Test Method for Navigation: Defined Area

ASTM F3265 Test Method for Grid-Video Obstacle Measurement

ASTM F3381 Practice for Describing Stationary Obstacles Utilized within A-UGV Test Methods

ASTM F3499 Test Method for Confirming the Docking Performance of A-UGVs

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