ISO 6789 and Torque Wrench Calibration: Establishing a Standard Calibration Regimen

>First, what are we talking about when we talk about calibration? Calibration is the process of ensuring that the workings of your instrument correspond to their posted standards. For example, if your car’s speedometer is properly calibrated, then when the car travels 50 mph, the speedometer displays “50 mph.” If the speedometer is not properly calibrated, then when your car travels 50 mph, your speedometer may read “55 mph,” or “35 mph,” or “100 mph.” As you can see, achieving and maintaining proper calibration is essential to the safe and effective operation of your equipment.

>As applied to torque tools, calibration means that the tools accurately register the torque they are applying to a given fastener. Considering the purpose of torque tools is to deliver a precise amount of radial force to a fastener such as a bolt or screw, if they are out of calibration, they will not be able to perform their function. If a torque tool registers that it has delivered more torque than it actually has, the fastener may become over-tightened, causing it to deform or break when your product is in use. On the other hand, if your torque tool registers that it has delivered less torque than it actually has, your fastener may not be tight enough. As a result, it could back off and come loose while your product is in operation. Fasteners aren’t given torque specifications for no reason—if a bolt comes loose or breaks, it can have dangerous repercussions for the product and anyone near it. For this reason, it’s essential to know that when your torque wrench says it has delivered 8.4 ft.lbs of torque, it has delivered exactly that, no more and no less.

>With this in mind, the next question is, “What do I need to do to keep my torque tools in calibration?” Fortunately, keeping torque tools calibrated is not an onerous task. There are only two steps involved, in fact: test the calibration of your wrenches and recalibrate wrenches which have fallen out of alignment.

The current international standards governing the calibration of torque wrenches are the ISO 6789-1:2017 and 6789-2:2017. The two standards are published by the same body, the International Standards Organization, and they are interlinked. While the first part is concerned with design and quality conformance testing and the second focuses on measurement uncertainty and calibration requirements, essentially, they are two parts of the same whole. According to these guidelines, torque tools should be tested for calibration once every 5,000 cycles or six months, whichever comes first. If any tool is found to be out of calibration, it must be recalibrated, retested, and recertified. To ensure it does not slip out of calibration again without being noticed, the calibration interval for that particular tool is then halved to 2,500 cycles or three months.

Testing your torque tools can be accomplished by a variety of means. The simplest is to send them to a certified laboratory. Laboratories in the United States will be certified by the National Institute of Standards and Technology (NIST). This is separate from the ISO, which is an international body and limits its responsibility to the publication of standards, not their verification or enforcement. NIST, by contrast, is a branch of the U.S. Department of Commerce.

This is a typical arrangement; while the ISO itself does not enforce its guidelines, many governmental bodies, such as the Federal Aviation Administration and the Food and Drug Administration, have enshrined ISO standards into their codes of regulations. Even if your particular product does not require conformity to ISO standards under applicable bodies of law, ISO compliance remains a gold standard for quality workmanship and safety. Companies which comply with ISO guidelines, therefore, will have a competitive advantage over companies which don’t. As an added bonus, companies in compliance with ISO standards will also be better protected from accidents and repercussions due to shoddy workmanship.

Laboratories certified under NIST standards will test your tools using approved methods, recalibrate them if necessary, and provide you with complete paperwork according to standard to certify their work, whether or not the tool was found to be out of calibration. The primary benefit of sending your torque tools to an outside laboratory is simplicity—your torque calibration regimen is as easily accomplished as pulling tools from the line and putting them in the mail. Among other benefits, this method is also reliable and will allow you to rest assured that your torque tools have been handled by trained, experienced professionals.

However, sending your torque tools into a laboratory does come with some drawbacks. For one, the service will cost your company, requiring you to dedicate a portion of your budget to calibration assurance. Plus, you will have to wait for shipping on both ends, in addition to the time it takes to test and recalibrate, before returning your tools to service. Finally, each time you send in a tool, you’ll have to fill out paperwork. While that paperwork won’t be onerous for any single tool, if you’re sending in dozens or hundreds of tools for calibration, the aggregate paperwork will require a certain time investment. Some laboratories, such as Mountz Inc.’s, streamline this process by allowing blanket purchase orders to cover a predetermined number of tools or service budget.

Nevertheless, some companies choose to develop their own torque testing and calibration protocols. The most basic level of in-house torque calibration is establishing a testing regimen and only shipping tools in for service if they need calibration or are otherwise broken. The advantage of this method is a reduction in shipping costs and the amount of time that tools are out of service. Establishing a torque testing regimen is as simple as purchasing the correct equipment, such as a torque analyzer for hand tools and run-down adaptors and analyzers for power tools, then training personnel in their use and establishing a testing regimen. Of course, these testing devices are only as good as their calibration, so they themselves must be tested at regular intervals to ensure they retain their accuracy. This can be accomplished in-house with trained personnel and standard calibration equipment, or your torque testers can be shipped to a certified laboratory for calibration and service.