ISO/DIS 7086-2
ISO/TC 166
Secretariat: AFNOR
Date: 2025-11-28
Glass hollowware in contact with food — Release of lead and cadmium —
Part 2:
Permissible limits
Vaisselle creuse en verre en contact avec les aliments — Émission de plomb et de cadmium —
Partie 2: Limites admissibles
DIS stage
Warning for WD’s and CD’s
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Contents
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International Standard ISO 7086-2 was prepared by Technical Committee ISO/TC 166, Ceramic ware, glassware and glass ceramic ware in contact with food.
This third edition cancels and replaces the second edition (ISO 7086-2:2000), which has been technically revised. ISO 7086 consists of the following parts, under the general title Glass hollowware in contact with food — Release of lead and cadmium:
Introduction
Lead and cadmium release from glassware surfaces is an issue which requires effective means of control to ensure the protection of the population against possible hazards arising from the use of improperly formulated and/or processed glassware used for the preparation, serving and storage of food and beverages. As a secondary consideration, different requirements from country to country for the control of the release of toxic materials from the surfaces of glassware present non-tariff barriers to international trade in these commodities. Accordingly, there is a need to maintain internationally accepted methods of testing glassware for lead and cadmium release, and to define permissible limits for the release of these toxic heavy metals.
Updating of part 2 – Permissible Limits is also done in coherence with the previous work done in part 1 – Test method, with the new consideration given to analytical techniques such as inductively coupled plasma mass spectrometry (ICP-MS) or Inductively Coupled Optical Emission Spectrometry (ICP-OES).
The limits for lead and cadmium release specified in this part of ISO 7086 are not intended to be regarded as the maximum amount of these metals to which exposure can be considered safe. They are levels which are consistent with good manufacturing practice in the respective industries, harmonize regulatory levels in principal world markets and reflect a general objective of reducing overall exposure to these metals.
Glass hollowware in contact with food — Release of lead and cadmium —
Part 2:
Permissible limits
1.0 Scope
This part of ISO 7086 specifies permissible limits for the release of lead and cadmium from glass hollowware that is intended to be used in contact with food.
This part of ISO 7086 is applicable to glass hollowware intended for use in the preparation, cooking, serving and storage of food and beverages, excluding glass ceramic ware and glass flatware.
This document is also applicable to glass articles used for packaging in the food industry.
2.0 Normative references
The following documents are referred to in the text in such a way that some or all of their content constitutes requirements of this document. For dated references, only the edition cited applies. For undated references, the latest edition of the referenced document (including any amendments) applies.
ISO 7086-1:2019, Glass hollowware in contact with food — Release of lead and cadmium — Part 1: Test method
3.0 Terms and definitions
ISO and IEC maintain terminological databases for use in standardization at the following addresses:
- IEC Electropedia: available at https://www.electropedia.org/
- ISO Online browsing platform: available at https://www.iso.org/obp
For the purposes of this part of ISO 7086, the following terms and definitions apply.
Atomic absorption
Absorption of electromagnetic radiation by free atoms in the gas phase wherein a line spectrum is obtained which is specific for the absorbing atoms.
Atomic absorption spectrometry (AAS)
Spectroanalytical method for qualitative determination and quantitative evaluation of element concentrations wherein the technique determines these concentrations by measuring the atomic absorption of free atoms.
Flame atomic absorption spectrometry (FAAS)
Atomic absorption spectrometry that uses a flame to create free atoms of the analyte in the gas phase.
Graphite furnace atomic absorption spectrometry (GFAAS)
Atomic absorption spectrometry involving electrothermal atomization in a graphite furnace.
Inductively coupled plasma mass spectrometry (ICP-MS)
Analytical method for qualitative determination and quantitative evaluation of element concentrations by measuring the ions produced by a radiofrequency inductively coupled plasma. In the mass spectrometer the ions are separated, and the elements identified according to their mass-to-charge ratio m/z, while the concentration of the elements is proportional to the numbers of ions.
Inductively coupled optical emission spectrometry (ICP-OES)
Trace-level, elemental analysis technique that uses the emission spectra of a sample to identify and quantify the elements present.
Extraction solution
Acetic acid, 4 % (V/V), recovered after the extraction test and which is analyzed for lead and cadmium concentration.
Reference surface area
The area that is intended to come in contact with foodstuffs in normal use.
Drinking Rim
20 mm wide section of the external surface of the vessel, measured downwards from the upper edge along the wall of the vessel[1][2].
Test solution
The solvent used in the test to extract lead and cadmium from the article [acetic acid, 4 % (V/V)].
Cooking ware
Ware, whose primary intended use is the cooking of food or liquids on the top of a stove, cooker or hob, and/or in an oven and which transfers heat from the heat source to food.
[SOURCE: Additional definition with respect to ISO 7086-1]
Crystal Glass ware
Articles which are intended to be used in contact with foodstuffs and made of specific glass formulations as defined in the standards NF B30-004 or equivalent.
Cups
Small glass hollowware commonly used for the consumption of beverages. Cups normally have a handle and are typically, but not exclusively, used for the consumption of beverages at elevated temperatures. Cups are generally used with a saucer.
[SOURCE: Additional definition with respect to ISO 7086-1]
Mugs
Small glass hollowware commonly used for the consumption of beverages. Mugs normally have a handle and are typically, but not exclusively, used for the consumption of beverages at elevated temperatures. Mugs are generally not used with a saucer.
[SOURCE: Additional definition with respect to ISO 7086-1]
Food ware
Articles which are intended to be used for the preparation, cooking, serving and storage of food or drinks.
Glass ware
Articles which are intended to be used in contact with foodstuffs and made of glass.
Note 1 to entry: Glass is an inorganic material produced by the complete fusion of raw materials at high temperature into a homogeneous liquid which is then cooled to a rigid condition, essentially without crystallization.
Note 2 to entry: The material may be clear, coloured, or opaque, depending on the level of colouring and opacifying agents used.
Glass Hollowware
Glass ware having an internal depth greater than 25 mm, measured from the lowest point to the horizontal plane passing through the point of overflow.
Glass Hollowware is subdivided into three categories based on volume:
- small: hollowware with a capacity of less than 600 ml;
- large: hollowware with a capacity between 600 ml and 3 l;
- storage: hollowware with a capacity of 3 l or greater.
Single use item
Item which is intended to be used only once and then discarded.
Repeated use item
Item which is intended to be used multiple times during its lifetime.
4.0 Permissible limits
4.1 Single use items
For the case of ware intended to a single use, the permissible limits for lead and cadmium release are given in Table 1. These limits refer to the testing conditions defined for the general case described in ISO 7086 part 1: release after a single contact time of 24 h (±0,5 hours), at a temperature of 22 °C (±2 °C), with testing solution (Acetic Acid 4 % v/v ).
Table 1 — Permissible limits for lead- and cadmium-release: single use
Type of glass | na | Permissible limit | Unit of | Lead limit | Cadmium limit |
|---|---|---|---|---|---|
Small | 4 | all specimens ≤ limit | µg/l | 40 | 20 |
Large | 4 | all specimens ≤ limit | µg/l | 40 | 20 |
Storage | 4 | all specimens ≤ limit | µg/l | 40 | 20 |
Rim | 4 | mean ≤ limit | µg/dm2 | 10 | 5 |
a n is the number of specimens in the sample under test. | |||||
4.1.1 Repeated use items
For all articles designed to be used repeatedly at multiple times, the limits are to be applied on the third release:
- after 3 contacts of 24 h, 22 °C, Acetic Acid 4 % v/v, for articles for preparation or storage of food and beverages
- after 3 contacts of 2 h, 22 °C, Acetic Acid 4 % v/v, for articles for serving of food and beverages.
Permissible limits for lead and cadmium release in case of repeated use items are given in Table 2.
Table 2 — Permissible limits for lead- and cadmium-release: repeated use
Type of glass | na | Permissible limit | Unit of | Lead limit | Cadmium limit |
|---|---|---|---|---|---|
Small | 4 | all specimens ≤ limit | µg/l | 170 | 85 |
Large | 4 | all specimens ≤ limit | µg/l | 170 | 85 |
Storage | 4 | all specimens ≤ limit | µg/l | 170 | 85 |
Rim | 4 | mean ≤ limit | µg/dm2 | 50 | 20 |
a n is the number of specimens in the sample under test. | |||||
NOTE 1 In both cases of repeated use, the limits in Table 1 for single use have been multiplied by an “exposure factor” to take into account the fact that the value of the third release overestimates the exposure compared to the tenth release (“plateau”).
This “exposure factor” is assumed to be greater than or equal to 4.
NOTE 2 If the applicable metal release limits are met after the first leach, then no further testing is required[3][2].
[1] “Scoping investigations on the release of metals from the rim area of decorated articles (in support of the revision of Ceramic Directive 84/500/EEC) “ Mercedes Ana Peltzer, Giorgia Beldì, Natalia Jakubowska and Catherine Simoneau ISSN 1831-9424 - ISBN 978-92-79-47228-2 – DOI: 10.2788/484454 Luxembourg: Publications Office of the European Union 2015
[2] “Towards suitable tests for the migration of metals from ceramic and crystal tableware: Work in support of the revision of the Ceramic Directive 84/500/EEC” Peltzer Mercedes, Beldì Giorgia, Jakubowska Natalia, Simoneau Catherine, EUR 28872 EN, ISBN 978-92-79-76302-1 (pdf), doi:10.2760/54169 (online), JRC108092 Publications Office of the European Union, Luxembourg, 2017
[3] “Scoping investigations on the release of metals from crystalware (in support of the revision of Ceramic Directive 84/500/EEC) “ Mercedes Ana Peltzer, Giorgia Beldì, Natalia Jakubowska and Catherine Simoneau ISSN 1831-9424 - ISBN 978-92-79-47230-5 – DOI: 10.2788/885263 Luxembourg: Publications Office of the European Union 2015
