Unmanned Aircraft Systems A comprehensive solution

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Through our 150 technical standards-writing committees, we serve a broad range of industries: aerospace, infrastructure, public safety personnel, consumer products and many more. When new industries — like nanotechnology, additive manufacturing and robotics — look to advance the growth of cutting-edge technologies through standardization, many of them come to ASTM International.

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Technical Committees:

▪ F38 Unmanned Aircraft Systems

▪ E54 Homeland Security Applications

▪ F37 Light Sport Aircraft

▪ F39 Aircraft Systems

▪ F44 General Aviation Aircraft

▪ F32 Search and Rescue

▪ E06 Performance of Buildings

▪ E57 3D Imaging Systems

▪ F15 Consumer Products

ASTM International UAS Portfolio Solutions through Standards

ASTM International’s portfolio of UAS standardization activities extend from the platform and

software needs, operational and use, personnel and maintenance, all the way to user community

applications. With ASTM’s broad sector reach, industry has the ability to leverage UAS expertise and

integrate it into their long-standing and accepted existing procedures.

ASTM’s manned aircraft committees offer a wide selection of standards that can serve as

demonstrated means of compliance to the increasing risk-based regulatory approach of global civil

aviation authorities. Depending on the aircraft category or risk class, our standards offer a selection

of resources to meet your needs.

At the same time, ASTM standards can help you meet local to international codes, insurance policies

or even contractual needs. ASTM standards have commonly been referenced by various regulations

and voluntary programs worldwide. With ASTM standards as the baseline of these various programs

and regulations, industry can rely on one set of procedures across the NAS.

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F38 Unmanned Aircraft Systems

This Committee addresses issues related to design, performance, quality

acceptance tests, operational applications, personnel, and safety monitoring

for unmanned aircraft systems. Stakeholders include manufactures of UAS and

their components, federal agencies, design and maintenance professionals,

commercial services providers, trade associations, financial organizations, and

academia.

Full Listing of Standards and Work Items

F38.01 Airworthiness

Product related – platform, system, hardware, software, devices, components

DESIGNATION TITLE

F2851 Practice for UAS Registration and Marking (Excluding Small Unmanned Aircraft Systems)

F2910 Specification for Design and Construction of a Small Unmanned Aircraft System (sUAS)

F2911 Practice for Production Acceptance of Small Unmanned Aircraft System (sUAS)

F3002 Specification for Design of the Command and Control System for Small Unmanned Aircraft Systems (sUAS)

F3003 Specification for Quality Assurance of a Small Unmanned Aircraft System (sUAS)

F3005 Specification for Batteries for Use in Small Unmanned Aircraft Systems (sUAS)

F3201 Practice for Ensuring Dependability of Software Used in Unmanned Aircraft Systems (UAS)

F3269 Practice for Methods to Safely Bound Flight Behavior of Unmanned Aircraft Systems Containing Complex Functions

WK16285 Specification for Specification for Design and Performance of an Unmanned Aircraft System-Class 1320 (550# Gross Weight to 1320# Gross Weight)

WK27055 Practice for UAS Remote ID and Tracking

WK53964 Design, Construct, and Test of VTOL

WK52089 Specification for Operation over People

WK56338 Safety of Unmanned Aircraft Systems for Flying Over People

WK59171 SUAS parachutes

WK60936 Acoustic-based Detect and Avoid for sUAS

WK60937 Design of Fuel Cells for Use in Unmanned Aircraft Systems (UAS)

WK57659 Design, Construction, and Verification of Fixed-Wing Unmanned Aircraft System (UAS) Standard

WK62670 Specification for Large UAS Design and Construction

WK62668 Specification for Detect and Avoid Performance Requirements

WK62669 Test Method for Detect and Avoid

Formed

2003

270

Members

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F38.02 Flight Operations

Operations related – overall & specific operations, situational considerations, scenario based

DESIGNATION TITLE

F2849 Practice for Handling of Unmanned Aircraft Systems at Divert Airfields

F2909 Practice for Maintenance and Continued Airworthiness of Small Unmanned Aircraft Systems (sUAS)

F3178 Practice for Operational Risk Assessment of Small Unmanned Aircraft Systems (sUAS)

F3196 Practice for Seeking Approval for Extended Visual Line of Sight (EVLOS) or Beyond Visual Line of Sight (BVLOS) Small Unmanned Aircraft System (sUAS) Operations

WK60746 Risk Mitigation Strategies per Pathfinder program for sUAS BVLOS Operations (Appendix to F3196)

WK62344 Risk Mitigation Strategies for Package Delivery sUAS BVLOS Operations (Appendix to F3196)

WK28019 Practice for Selecting sUAS Launch and Recovery

WK59317 Vertiport Design

WK# Pending Use Case Scenario – Linear Inspections

F38.03 Personnel Training, Qualification and Certification

Personnel related - Operators, maintenance, instructors, terminology

DESIGNATION TITLE

F2908 Specification for Aircraft Flight Manual (AFM) for a Small Unmanned Aircraft System (sUAS)

WK11425 Practice for Private Unmanned Aircraft System (UAS) Pilot Practical Test Standards for Unmanned Aircraft Single

WK61764 Training for Public Safety Remote Pilot of Unmanned Aircraft Systems (UAS) Endorsement

WK29229 Guide for Training for Remote Pilot in Command of Unmanned Aircraft Systems (UAS) Endorsement

WK60659 UAS Maintenance Technician Qualification

WK61763 Guide for Training for Remote Pilot Instructor (RPI) of Unmanned Aircraft Systems (UAS) Endorsement

WK62416 Terminology for Unmanned Aircraft Systems

WK62744 General Operations Manual for Professional Operator of Light Unmanned Aircraft Systems (UAS)

WK62733 Practice for Training and the Development of Training Manuals for the UAS Operator

WK62731 Practice for UAS Operator Compliance Audits

WK62730 Practice for UAS Operator Audit Programs

WK62734 Specification for the Development of Maintenance Manual for Lightweight UAS

WK62743 Specification for the Development of Maintenance Manual for Small UAS

WK62741 Guide for Training UAS Visual Observers

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UAS Public Safety Joint Working Group

The ASTM International and NFPA UAS public safety joint working group (JWG) is a collection of experts from the UAS and public safety fields. This JWG was chartered to develop use case scenarios for various operations which are carried out by public safety personnel, including law enforcement, fire fighters, search and rescue, emergency medical services, border patrol. Scenarios covering different environments, events and operational needs are included.

The JWG will leverage the expertise and standards from committees such as NFPA 24000, ASTM F38 Unmanned Aircraft Systems, ASTM E54 Homeland Security Applications and F32 Search and Rescue.

STRATEGY PHASE TASK GROUPS (PRE-DRAFTING)

ASTM/NFPA JWG 1 Use Case Scenario – Accident Reconstruction Mapp

ASTM/NFPA JWG 2 Use Case Scenario – Tactical Operations (Frequency management, communications relay, lost persons)

ASTM/NFPA JWG 3 Use Case Scenario – Lost Persons Search and Rescue

ASTM/NFPA JWG 4 Use Case Scenario – Structural Fire Response

ASTM/NFPA JWG 5 Use Case Scenario – Wildfire Fire Response

ASTM/NFPA JWG 6 Use Case Scenario – Hazardous Chemicals (RR, Pipelines, Powerline, Bridge, Container, Ports, Spills)

ASTM/NFPA JWG 7 Use Case Scenario – Payload Delivery (Ammunition, Comm’s; Medical supply, PFD’s)

ASTM/NFPA JWG 8 Use Case Scenario – Building Safety & Damage Assessment

ASTM/NFPA JWG 9 Use Case Scenario – SAR – (Closed Structures & external environments)

Formed

2017

30

Members

Key Components Mission objectives

Risk Assessment

Environmental Conditions

Cost / Benefits Analysis

Concept of Operations

Maintenance

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E54 Homeland Security Applications

This Committee addresses issues related to standards and guidance materials for homeland security applications with specific focus on infrastructure protection, decontamination, personal protective equipment, security controls, threat and vulnerability assessment, operational equipment and CBRNE sensors and detectors. The work of E54 supports public safety personnel through an MOU agreement with the National Institute of Justice (NIJ). E54’s primary UAS standards works is in subcommittee E54.09 on Response Robots.

Full List of Standards and Work Items

E54.09 Response Robots

Standards for aerial, aquatic and ground response robotic systems with test methods on

platform and personnel performance

DESIGNATION TITLE

E2521 Terminology for Evaluating Response Robot Capabilities

WK58677 Evaluating Aerial Response Robot Sensing: Visual Image Acuity

WK58925 Evaluating Aerial Response Robot Sensing: Visual Color Acuity

WK58926 Evaluating Aerial Response Robot Sensing: Visual Dynamic Range

WK58927 Evaluating Aerial Response Robot Sensing: Audio Speech Acuity

WK58928 Evaluating Aerial Response Robot Sensing: Thermal Image Acuity

WK58929 Evaluating Aerial Response Robot Sensing: Thermal Dynamic Range

WK58930 Evaluating Aerial Response Robot Sensing: Latency of Video, Audio, and Control

WK58931 Evaluating Aerial Response Robot Maneuvering: Maintain Position and Orientation

WK58932 Evaluating Aerial Response RobotManeuvering: Orbit a Point

WK58933 Evaluating Aerial Response RobotManeuvering: Avoid Static Obstacles

WK58934 Evaluating Aerial Response RobotManeuvering: Pass Through Openings

WK58935 Evaluating Aerial Response RobotManeuvering: Land Accurately (Vertical)

WK58936 Evaluating Aerial Response Robot Situational Awareness: Identify Objects (Point and Zoom Cameras)

WK58937 Evaluating Aerial Response Robot Situational Awareness: Inspect Static Objects

WK58938 Evaluating Aerial Response Robot Situational Awareness: Map Wide Areas (Stitched Images)

WK58939 Evaluating Aerial Response Robot Energy/Power: Endurance Range and Duration

WK58940 Evaluating Aerial Response Robot Energy/Power: Endurance Dwell Time

WK58942 Evaluating Aerial Response Robot Radio Communication Range : Line of Sight

WK58941 Evaluating Aerial Response Robot Radio Communications Range: Non Line of Sight

WK58943 Evaluating Aerial Response Robot Safety: Lights and Sounds

WK60210 Evaluating Aerial Response Robot Situational Awareness: Inspect Wires

Formed

2003

380

Members

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F37 Light Sport Aircraft

This Committee addresses issues related to design, performance, quality acceptance tests, and safety monitoring for light sport aircraft (LSA). LSA includes the two categories of aircraft created by the Certification of Aircraft and Airmen for the Operation of Light Sport Aircraft NPRM: (1) special light-sport aircraft (used for personal flight and flight training), or (2) rental and experimental light-sport kit aircraft (any level of kit from zero to 95-percent prebuilt). F37 was formed in response to an FAA Request for Proposal (RFP).

Full List of Standards and Work Items

F37 UAS Related Standards

LSA standards related to structures, systems, powerplant can be used for UAS requirements depending on the risk class.

DESIGNATION TITLE

F2245 Specification for Design and Performance of a Light Sport Airplane

F2483 Practice for Maintenance and the Development of Maintenance Manuals for Light Sport Aircraft

F2840 Practice for Design and Manufacture of Electric Propulsion Units for Light Sport Aircraft

F2745 Specification for Required Product Information to be Provided with an Airplane

F2483 Practice for Maintenance and the Development of Maintenance Manuals for Light Sport Aircraft

F2506 Specification for Design and Testing of Light Sport Aircraft Propellers

F2507 Specification for Recreational Airpark Design

F2538 Practice for Design and Manufacture of Reciprocating Compression Ignition Engines for Light Sport Aircraft

F2563 Practice for Kit Assembly Instructions of Aircraft Intended Primarily for Recreation

F2839 Practice for Compliance Audits to ASTM Standards on Light Sport Aircraft

F2930 Guide for Compliance with Light Sport Aircraft Standards

F2972 Specification for Light Sport Aircraft Manufacturer’s Quality Assurance System

F3205 Practice for Independent Audit Program for Light Aircraft Manufacturers

WK30359 Specification for Light Sport Aircraft Manufacturers Continued Operational Safety (COS) Monitoring Program

▪ FAA NOA Acceptance: https://www.faa.gov/aircraft/gen_av/light_sport/ ▪ EASA CSLSA Acceptance: https://www.easa.europa.eu/certification-specifications/cs-lsa-

light-sport-aeroplanes

Formed

2002

185

Members

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F39 Aircraft Systems

This committee addresses the design, inspection, alteration and maintenance aircraft systems. F39 was formed in response to the FAA's Small Airplane Directorate request for a voluntary consensus standards effort to develop standards addressing general aviation electrical wiring systems. Committee F39 is structured to develop global standards for:

– F39.01 Design, Alteration, and Certification of Electrical Systems – F39.02 Inspection, Alteration, Maintenance, and Repair – F39.03 Design of Avionics Systems – F39.04 Aircraft Systems – F39.05 Design, Alteration, and Certification of Electric Propulsion Systems

Full List of Standards and Work Items

F39 UAS Related Standards

Standards related to UAS depending on the risk class.

DESIGNATION TITLE

F2490 Guide for Aircraft Electrical Load and Power Source Capacity Analysis

F2639 Practice for Design, Alteration, and Certification of Aircraft Electrical Wiring Systems

F2696 Practice for Inspection of Aircraft Electrical Wiring Systems

F2799 Practice for Maintenance of Aircraft Electrical Wiring Systems

F3011 Specification for Performance of Angle of Attack System

F3153 Specification for Verification of Avionics Systems

WK47489 Specification for Design, Performance and Manufacturing of Automatic Pilot System

WK51467 Specification for Quality Assurance for Manufacturers of Aircraft Systems

WK55298 Classifying Alterations for In-Service Aircraft under FAA Authority Oversight

WK47374 Specification for Design and Manufacture of Electric Propulsion Units for General Aviation Aircraft

WK56255 Design of Electric Propulsion Energy Storage Systems for General Aviation Aircraft

▪ Federal Acceptance of F2490 ▪ Federal Acceptance of F2630 ▪ Federal Acceptance of F2696 ▪ Federal Acceptance of F2799 ▪ Federal AoA F3011 Approval

Formed

2004

130

Members

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F44 General Aviation Aircraft

This Committee addresses issues related to design and construction, systems and performance, quality acceptance tests, and safety monitoring for general aviation aircraft. F44 was formed in response to the recommendation of the Part 23 Aviation Rulemaking Committee (ARC). Committee F44 is designed to develop global standards for:

– F44.10 General – F44.20 Flight – F44.30 Structures – F44.40 Powerplant – F44.50 Systems and Equipment – F44.91 Terminology

Full List of Standards and Work Items

F44 UAS Related Standards

Standards related to UAS depending on the risk class.

DESIGNATION TITLE

F3060 Terminology for Aircraft

F3264 Specification for Normal Category Aeroplanes Certification

F3082 Specification for Weights and Centers of Gravity of Aircraft

F3180 Specification for Low-Speed Flight Characteristics of Aircraft

F3115 Specification for Structural Durability for Small Airplanes

F3116 Specification for Design Loads and Conditions

F3061 Specification for Systems and Equipment in Small Aircraft

F3227 Specification for Environmental Systems in Small Aircraft

F3231 Specification for Electrical Systems in Small Aircraft

F3232 Specification for Flight Controls in Small Aircraft

F3233 Specification for Instrumentation in Small Aircraft

F3235 Specification for Aircraft Storage Batteries

WK58700 Electrical Systems for Aircraft with Electric or Hybrid-Electric Propulsion

WK61550 Simplified High Intensity Radiated Field (HIRF) Protection in Level 1 and Level 2 Aircraft

WK52827 Safety Analysis of Systems & Equipment Retrofit in Small Aircraft

WK60748 Application of Systems-Theoretic Process Analysis to Aircraft

WK56374 Aircraft Systems Information Security Protection

WK52829 Simplified Safety Analysis of Systems & Equipment in Small Aircraft

WK55940 Boundary layer control systems in aerial vehicles

WK61549 Indirect Flight Control Systems in Aircraft

WK61232 Low Stress Airframe Structure

WK57818 Aircraft Systems and Structures Interaction

WK59101 Structures, Design and Construction

Formed

2012

290

Members

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F32 Search and Rescue

This Committee addresses issues related to equipment, testing and maintenance, management and operations as well as personnel training and education for search and rescue activities. Historically, F32 efforts have been

focused on wilderness applications, including land, water, ice and underwater search and rescue as well as canine use.

Full List of Standards and Work Items

F32 UAS Industry Related Standards

DESIGNATION TITLE

F3262 Classification System for Small Unmanned Aircraft Systems (sUASs) for Land Search and Rescue

WK54226 sUAS Operations in Search and Rescue Operations

F3222 Terminology Relating to F32 Land Search and Rescue Standards and Guides

F1591 Practice for Visual Signals Between Persons on the Ground and in Aircraft During Ground Emergencies

F1422 Guide for Using the Incident Command System Framework in Managing Search and Rescue Operations

F1583 Practice for Communications Procedures—Phonetics

F3024 Guide for Training of a Land Search and Rescue (SAR) Strike Team/Task Force Leader

F3193 Guide for Training of a Land Search and Rescue Team Leader

F2751 Guide for Training of a Land Search and Rescue Team Member

F2209 Guide for Training of Land Search Team Member

F2685 Guide for Training of a Land Search Team Leader (STL)

F2852 Practice for Training a Land Search Tracker

F3098 Guide for Training of Non-Wilderness Land Search Team Member

F3071 Guide for Basic Wilderness GPS/GNSS Use (GPS/GNSS-IW) Endorsement

F3072 Guide for Intermediate Wilderness GPS/GNSS Use (GPS/GNSS-IIW) Endorsement

F3145 Guide for Swiftwater/Flood Rescue Technician Basic

F2958 Guide for Helicopter Inland Search and Rescue (SAR) Technician

F3026 Guide for Helicopter Inland Search and Rescue (SAR) Crew Chief

F3027 Guide for Training of Personnel Operating in Mountainous Terrain (Mountain Endorsement)

F3028 Guide for Training of Search and Rescue Personnel Operating in the Alpine Environment

F2890 Guide for Hazard Awareness for Search and Rescue Personnel

F1767 Guide for Forms Used for Search and Rescue

WK24699 Guide for Training for Land SAR as a Level I Out-of-Area Disaster Responder

WK25635 Classification for Additional Human Tracker Skill Levels

WK28137 Guide for Minimum Training of Search and Rescue (SAR) Coordinators

WK46279 Guide for Training for Abandoned or Inactive Mine Search and Rescue Team Member Endorsement

Formed

1993

75

Members

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E06 Performance of Buildings

This Committee address issues relating to the performance of buildings, their elements, components, and the description, measurement, prediction, improvement and management of the overall performance of buildings and building related facilities. E06 has 18 technical subcommittees that maintain jurisdiction of over 275 standards. The primary subcommittee address UAS operations related to infrastructure needs is E06.55 Performance of Building Enclosures.

Full List of Standards and Work Items

E06 UAS Industry Related Standards DESIGNATION TITLE

WK58243 Visual Inspection of Building Facade using Drone

WK43980 New Guide for Assessing Building or Structure Designs for Sliding or Falling Ice and Snow Hazard Potential

E2841 Standard Guide for Conducting Inspections of Building Facades for Unsafe Conditions

E2270 Standard Practice for Periodic Inspection of Building Facades for Unsafe Conditions

E1825 Standard Guide for Evaluation of Exterior Building Wall Materials, Products, and Systems

WK62463 Protection of Public and Property During High-rise Construction

E57 3D Imaging Systems

This Committee addresses issues related to 3D imaging systems, which include, but are not limited to laser scanners and optical range cameras (also known as flash LADAR or 3D range cameras). UAS using LIDAR technologies may benefit from E57 methods. Stakeholders include manufacturers, federal agencies, design professionals, trade associations, and academia.

Full List of Standards and Work Items

E57 UAS Industry Related Standards DESIGNATION TITLE

E2807 Specification for 3D Imaging Data Exchange, Version 1.0

E2641 Practice for Best Practices for Safe Application of 3D Imaging Technology

E2919 Test Method for Evaluating the Performance of Systems that Measure Static, Six Degrees of Freedom (6DOF), Pose

E2938 Test Method for Evaluating the Relative-Range Measurement Performance of 3D Imaging Systems in the Medium Range

E3064 Test Method for Evaluating the Performance of Optical Tracking Systems that Measure Six Degrees of Freedom (6DOF) Pose

E3124 Test Method for Measuring System Latency Performance of Optical Tracking Systems that Measure Six Degrees of Freedom (6DOF) Pose

E3125 Test Method for Evaluating the Point-to-Point Distance

WK54684 Measuring System Latency Performance of Optical Tracking Systems that Measure Six Degrees of Freedom (6DOF) Pose

Formed

1993

1300

Members

Formed

2006

65

Members

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F15 Consumer Products

This Committee addresses issues related to standards for several different consumer product categories, including toy safety. Developed by a unique mixture of representatives from industry, government, testing laboratories, retailers and the ultimate consumer, the F15 standards have and continue to play a preeminent role in reducing the number of injuries and death associated with the use and performance of consumer products based on identified hazards.

Full List of Standards and Work Items

F15.22 Toy Safety

Standards could be applied for toy, hobby, or model UAS needs, such as micro-UAS.

DESIGNATION TITLE

F963 Standard Consumer Safety Specification for Toy Safety

Relevant Contacts

Technical Questions Phil Kenul Philip.kenul@gmail.com

ASTM Programs and Services Christine DeJong cdejong@astm.org

F38 Unmanned Aircraft Systems Mary MIkolajewski MMikolajewski@astm.org

E54 Homeland Security Applications Mary MIkolajewski MMikolajewski@astm.org

F37 Light Sport Aircraft Joe Koury jkoury@astm.org

F39 Aircraft Systems Joe Koury jkoury@astm.org

F44 General Aviation Aircraft Joe Koury jkoury@astm.org

F32 Search and Rescue Tom O’Toole totoole@astm.org

E06 Performance of Buildings Steve Mawn smawn@astm.org

E57 3D Imaging Systems Pat Picariello ppicariello@astm.org

F15 Consumer Products Len Morrissey Lmorrissey@astm.org

Formed

1993

1090

Members

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Additional Resources and Materials

F38 Unmanned Aircraft Systems – News Releases – Launching Drones – Remote Control

E54 Homeland Security Applications – News Releases – The E2458 Protocols: ASTM Standard Details the Collection of Suspicious Powders – Fifteen Years Later – Collaborating for Consensus – Robots to the Rescue – Standards Enable Worker Protection – Homeland Security

F37 Light Sport Aircraft – News Releases – SMEs and Standards

F39 Aircraft Systems – News Releases – Putting the Pieces Together

F44 General Aviation Aircraft – News Releases – ASTM International Standards to Help Certify Small Planes in Europe – The Anatomy of an Aircraft – Advancing Aviation Standards – Small Plane Handling Characteristics and Icing Protection – Technology, Design and Safety for Small Airplanes

F32 Search and Rescue – News Releases – Standards Drive Success in Services Sector – Good Dogs

E06 Performance of Buildings – News Releases – Weathering the Weather – Silent Heroes – Building Facade Inspections

E57 3D Imaging Systems

– News Releases – Working Smart – Consensus Building: Federal Agencies Engage in Standards Development – Standards for the Third Dimension – Better Performance in 3D

Sector Overviews – Safe and Sustainable Highways with ASTM Standards – Additive-Manufacturing – Aviation: Keeping Aircraft Safe – ASTM Construction Standards: Supporting the Building Industry – Consumer Product Standards: Improving People’s Lives

www.astm.org/join

Main Committee (and Society): Widen the Lens– E-ballot standard– Address any negatives

and comments– Back to subcommittee,

if needed

Task Group: Convene Key Stakeholders– 6-8 people is ideal– Register a work item– Circulate and discuss initial

drafts in person and online

Subcommittee: Bring in More Experts– E-ballot the draft standard– Address negative votes

and comments– E-ballot again or advance

to main committee

Marketplace Use* – Manufacturers– Governments– Trade associations – Consumers– ASTM develops related

services as needed*ASTM publicizes purpose and availability of the standard

Online and Print Publication– ASTM International sta�

formats final draft

ASTM International Committee on Standards: Review and Approval– Process review if necessary

(e.g., handling of negatives)

Someone Recognizes the Need for:– A better test…– A new speci�cation…– A safer product...