Test Weights for Scales & Balances
METTLER TOLEDO's world-leading expertise in metrology extends to test weights, weight sets and weight calibration services. Our weight portfolio...
METTLER TOLEDO's world-leading expertise in metrology extends to test weights, weight sets and weight calibration services. Our weight portfolio covers weights according to OIML or ASTM from fifty micrograms to five tons in all accuracy classes. Our test weights are used all over the world, not only for testing balances but also as primary standards in mass laboratories.
Our proprietary electrolytic polishing process for knob and wire weights in the upper class range eliminates microscopic protrusions in a weight’s surface. This makes the test weight far smoother when compared to weights finished with mechanical polishing. Thanks to the enhanced properties of the passive oxide film that is created on the test weight, the test weight’s long-term stability is improved.
Choose from a comprehensive selection of test weights and related calibration services. We offer weights and services of the highest quality – even for users with limited budget. Building on many years of experience and customer feedback, our weight boxes and accessories have an unmatched reputation. Profit from short recalibration times and trustworthy services. Use our global network of accredited mass laboratories for your next test-weight recalibration.
Test your balances securely, and in accordance with USP General Chapter 41 by using just two test weights to test at 5 % and 100 % of the capacity of each balance. Not only is this unique approach much faster, but it also substantially reduces test-weight purchasing and recalibration costs. CarePac® include tweezers, gloves and other accessories for professional weight handling.
FAQ's on Test Weights
Select your question:
- What are calibration weights for balances?
- What are OIML and ASTM calibration weight classes?
- Why should I use certified calibration weights?
- How to use a calibration weight set for routine balance testing?
- What are the benefits of using stainless steel weights?
- Why / how often do I need to recalibrate my test weights?
- What are sub-milligram weights?
- What are buoyancy artefacts?
- Why is a silicon sphere used for specialized volume measurement?
- What are heavy-capacity weights used for?
1. What are calibration weights for balances?
Weights are predominantly needed for performance tests and routine testing of balances and scales. In metrological terminology, a distinction is made between reference weights or "mass standards" (to calibrate other weights) and certified weights. National regulations and international recommendations define the error limits of certified weights. Weights are classified into tolerance limits which are defined either by OIML or ASTM. The conventional weight value (and not the mass) is used as the nominal value of the weight. For a high level of accuracy, certified weights are calibrated and traceable back to primary standards, which are usually national standards maintained by a National Metrology Institute (NMI).
2. What are OIML and ASTM calibration weight classes?
Weight classes are separated according to the error limits that are classified either according to OIML (International Organization of Legal Metrology) or ASTM (American Society for Testing and Materials) declarations as follows.
The OIML weight
- Class E1 weights are intended to ensure traceability between national mass standards and weights of class E2 and lower (i.e. F1 and F2). Class E1 weights or weight sets shall be accompanied by a calibration certificate.
- Class E2 weights are intended for use in the initial verification of class F1 weights and for use with weighing instruments of accuracy class I. Class E2 weights or weight sets shall always be accompanied by a calibration certificate. They may be used as class E1 weights if they comply with the requirements for surface roughness and magnetic susceptibility and magnetization for class E1 weights (and their calibration certificate gives the appropriate data).
- Class F1 weights are intended for use in the initial verification of class F2 weights and for use with weighing instruments of accuracy class I and class II.
- Class F2 weights are intended for use in the initial verification of class M1 and possibly class M2 weights. They are also intended for use in important commercial transactions (e.g. precious metals and stones) on weighing instruments of accuracy class II.
- Class M1 weights are intended for use in the initial verification of class M2 weights and for use with weighing instruments of accuracy class III.
- Class M2 weights are intended for use in the initial verification of class M3 weights and for use in general commercial transactions and with weighing instruments of accuracy class III.
- Class M3 weights are intended for use with weighing instruments of accuracy class IIII.
- Classes M3 and M2-3 are lower accuracy weights of 50 kg to 5 000 kg and are intended for use with weighing instruments of accuracy class III.*
*The error in a weight used for the verification of a weighing instrument shall not exceed one third of the maximum permissible error (MPE) for an instrument. These values are listed in section 3.7.1 of OIML International Recommendation 76 Non-automatic Weighing Instruments (1992).
- ASTM Class 0: Used as primary reference standards for calibrating other reference standards and weights.
- ASTM Class 1: Can be used as a reference standard in calibrating other weights and is appropriate for calibrating high-precision analytical balances with a readability as low as 0.1 mg to 0.01 mg.
- ASTM Class 2: Appropriate for calibrating high-precision top loading balances with a readability as low as 0.01 g to 0.001 g.
- ASTM Class 3: Appropriate for calibrating balances with moderate precision with a readability as low as 0.1 g to 0.01 g.
- ASTM Class 4: For calibration of semi-analytical balances and for student use.
- NIST Class F: Primarily used to test commercial weighing devices by state and local weights-and-measures officials, device installers and service technicians.
3. Why should I use certified calibration weights?
ASTM class 0 and ultra-class as well as OIML class "E0" and E1 should be used for the highest level of precision i.e. mass standards (calibrating other weights), micro-balance testing and calibration, and critical weighing applications.
ASTM classes 1 & 2 and OIML classes E2 & F1 should be used for precision applications i.e. analytical balance testing and calibration.
ASTM classes 3 & 4 and OIML classes F1 & F2 are best suited to top-loading balance calibrations and testing and moderate precision applications (laboratory non-critical).
Note: If a balance or scale is calibrated, the weight set used and the class must be documented.
4. How to use a calibration weight set for routine balance testing?
For routine testing, specially designed CarePac sets are recommended and the nominal value should suffice for most process requirements. The tests to be carried out depend on the criticality of the weighing process. Based on a risk assessment, a GWP® Verification provides information for routine testing frequency. It also provides a calibration schedule and maintenance plan tailored to your specific processes and risks. SOPs are available to help you determine adequate testing procedures.
5. What are the benefits of using stainless steel weights?
Stainless steel weights have long-term stability. All METTLER TOLEDO weights are made of premium stainless steel to make them corrosion resistant. Monobloc weights are specially designed for long-term stability and weights with an adjusting cavity provide the best value for the money. Electrolytic polishing ensures glossy surfaces for anti-adhesion effects.
6. Why / how often do I need to recalibrate my test weights?
Accurately calibrated test weights are the basis of accurate weighing results. The accuracy of test weights becomes less reliable over time. This is the result of normal wear and tear caused by regular use, dirt and dust. Periodic recalibration of test weights at an accredited mass-calibration laboratory is essential to ensure ongoing traceability. At our accredited mass-calibration laboratories, we clean, calibrate, and adjust each weight and then document the results in a calibration certificate. Our calibration services cover the basic reporting of conventional mass correction, uncertainty and traceability information in accordance with ISO/IEC 17025 requirements.
The frequency with which to recalibrate your test weights depends on the criticality of the weighing process. A GWP® Verification provides not only recommendations on how to calibrate, test and maintain your weighing instrument. It advises on selecting the correct test weight and weight class and also provides recommendations on how often to recalibrate your test weights. All of this information is determined based on your specific processes and risks.
As a risk-based service, GWP® Verification helps to eliminate redundant or erroneous testing. Furthermore, it provides a complete set of audit-proof documentation to safeguard your full compliance with regulatory requirements.
7. What are sub-milligram weights?
Microgram weights were made available by METTLER TOLEDO in response to increasing customer demands for values below one milligram. Weights are packaged with specially designed accessory sets and handling tools to provide a complete solution for operators who go beyond traditional weighing boundaries.
These weights are also traceable and therefore have certified values which are necessary for critical applications such as those used in nanotechnology. Download the White Paper on Micro-Weights to learn more.
8. What are buoyancy artefacts?
Air density is usually calculated from relevant air parameters such as air temperature, pressure, humidity and CO2 concentration. An alternative method of determining air density may be applied by utilizing two specially designed buoyancy artefacts. Both artefacts are compared in vacuum and in air. By comparing the two artefacts of identical nominal weight, the large volume difference reflects the air buoyancy and therefore results in a highly accurate determination of air density. The buoyancy artefacts are mainly used for the M_one vacuum mass comparator.
9. Why is a silicon sphere used for specialized volume measurement?
Spheres are used because the volume can be determined according to the definition of volume by a length measurement. Silicon (Si) spheres have the same homogenous atomic structure as a perfect diamond without voids or dislocations, so the density is more accurate than other materials. This is why a silicon sphere with a homogenous atomic structure serves as a reference for specialized volume measurement.
10. What are heavy-capacity weights used for?
Mass comparators go up to a capacity of six tons. Industrial scales go up to several hundred tons. Heavy-capacity weights—typically those in the range of 200 kg, 500 kg, 1 t and 2 t are used for sensitivity, eccentricity, linearity and repeatability testing of these higher-capacity devices. Weights are less than 2 t due to the maximum lifting capability of machines, typically forklifts and cranes. However, these weights can be combined to reach the desired weight. Professional weights such as METTLER TOLEDO’s have lifting hooks and design features that allow them to be lifted by forklift. Barrel (round) weights are illegal as they roll and could injure a service technician.
Heavy-capacity weights must be transported in heavy-duty trucks and it is important to ensure trucks do not exceed their rated load limit due to safety and government regulations. Heavy-capacity weights are generally constructed of cast iron not stainless steel due to the cost.
OIML Classes E1, E2, F1, F2 & M1 and ASTM Classes 1-4
The Solution for Routine Testing, OIML Classes E2, F1 & F2 and ASTM Classes 1-4
OIML Classes E1, E2, F1, F2 & M1 and ASTM Classes 1-4
Weights for Highest Metrological Performance and Specialized Applications
Long-Life Test Weights
The finest quality stainless steel offers the highest resistance to corrosion over a weight’s lifetime.
Calibration Certificate Needed?
Calibration certificates document that test weights are fit-for-purpose - requested e.g. by internal quality assurance, ISO 9001, FDA or GMP.
Protection and Durability
Robust and easy-to-clean plastic containers maintain test-weight integrity and accuracy.
Efficient Routine Testing
A CarePac contains everything you need for efficient balance routine testing in accordance with USP chapter 41 and GWP®.
Just Two Weights
According to GWP® two test weights are sufficient: at 5% capacity (repeatability) and at 100% capacity (sensitivity and eccentricity)
CarePac sets are supplied with a calibration certificate and professional weight-handling accessories so routine tests can be performed without worry.
Individual Weight Sets
Choose the weight set you need from 1 mg up to 5 kg. Add calibration certificates to provide reassurance that measurements can be validated at any time.
Protection and Longevity
Robust, easy-to-clean aluminum (OIML E1-F1) or plastic (ASTM 1-4 and OIML F1-M1) cases protect the integrity of the weights.
Marking Weights with Identical Values
If two weights in the set have the same nominal value, they are marked differently.
Mass Standard Calibration
We offer high-grade stainless steel knob and wire weights for weight calibrations and as reference weights in mass calibration services.
“E0” Reference Weights
Class "E0" weights (with a higher accuracy than OIML class E1 weights) enable calibration of mass standards at the highest metrological performance. Range: 0.05 mg up to 50 kg.
Microgram Weights for Specialized Applications
Microgram weights (50 µg to 500 µg) offer a test weight solution beyond traditional weighing boundaries.