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Precision Engineering Standards

Precision Engineering Standards

Standards and precision engineering driving innovation

Precision engineering spans across multiple industries and drives our technological advancements to new heights. A large portion of humanity's great achievements over the past few decades wouldn't have been possible without it.

Precision engineering relies heavily on metrology, i.e. the science of measurement and by its very nature, demands ever heightening levels of accuracy. Standards provide a crucial service within precision engineering to ensure products, systems and services are reliable, safe and perform the way they were intended to.  

With the introduction of new technologies, i.e. 3D manufacturing, CNC machining, plasma cutting and water jet cutting, Standards also help organisations implement new manufacturing and processing techniques with guidance on use, safety, testing and more. 

Create consistently reliable products, implement guided processes and facilitate innovation with the right Standards.

Popular precision engineering Standards


ISO ASTM 52910:2018 Additive manufacturing Design Requirements, guidelines and recommendations
ISO/ASTM 52900:2021 Additive manufacturing - General principles - Fundamentals and vocabulary
ISO 9013:2017 Thermal cutting - Classification of thermal cuts - Geometrical product specification and quality tolerances
ISO 14649-17:2020 Industrial automation systems and integration - Physical device control - Data model for computerized numerical controllers
ISO/ASTM TR 52912:2020 Additive manufacturing Design Functionally graded additive manufacturing
ISO/TS 15066:2016 Robots and robotic devices - Collaborative robots
ISO 10218-1:2011 Robots and robotic devices Safety requirements for industrial robots Part 1: Robots
ISO 10218-2:2011 Robots and robotic devices Safety requirements for industrial robots Part 2: Robot systems and integration
ASTM F 3049:2014:R2021 Standard Guide for Characterizing Properties of Metal Powders Used for Additive Manufacturing Processes
ANSI Z136.9:2013 Safe use of laser in manufacturing environments
ANSI/RIA R15.06:2012 American National Standard for Industrial Robots and Robot Systems- Safety Requirements (revision of ANSI/RIA R15.06-1999
IEC 62366-1:2015+AMD1:2020 Medical devices - Part 1: Application of usability engineering to medical devices
AS 4024.3301:2017 Safety of machinery Robots and robotic devices - Safety requirements for industrial robots - Robots
AS 4024.3302:2017 Safety of machinery Robots and robotic devices - Safety requirements for industrial robots - Robot systems and integration




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Precision engineering

Standards and Precision Engineering

The important role Standards play in precision engineering

Standards are crucial when managing risk within the precision engineering industry by informing and empowering organisations to strive to greater heights and success.

challenges in aerospace engineering

Overcoming Challenges in Aerospace Engineering with Standards

Importance of Standards in the aerospace engineering industry

Working in aerospace engineering means an ongoing responsibility to remain compliant and prioritise safety of all involved. Standards are in place to constantly monitor every detail of production, and often the very diverse supply chain.