OUR SOLUTIONS: ELECTROSTATIC TESTING

Volume Resistivity Testing

Our UK laboratory generates surface resistivity test data for to establish whether your liners, bags, gloves and any other sheet materials are either electrically conductive, static dissipative or insulating. Volume resistivity indicates the ability of a material to allow charge to migrate across through its bulk, and hence its electrical conductance.

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Frequently asked questions

BS EN 61340-2-3 / BS EN 1149-2

Volume resistivity is a calculated value based on the measured volume resistance using a test cell with known geometry. It is an inherent property of a material and is independent of sample thickness. Testing is conducted by applying a range of voltages from one electrode in intimate direct contact, with one of the specimen’s surfaces and measuring either a current or direct resistance through the material to a second electrode on the opposing surface.

The values of either measured or calculated resistance are equated with a cell constant, generated from the test cells’ geometric size and the thickness of the tested material, to derive a volume resistivity value. The unit of volume resistivity is Ohm Meters (Ωm).

Humidity can affect this parameter or characteristic, so testing is performed in controlled environmental conditions.

Volume resistivity indicates the ability of a material to allow charge to migrate through its bulk.

The test classifies a material using the following standardised boundaries:

The following definitions are given as guidance by IEC 60079-32-1 “Explosive atmospheres – Part 32-1: Electrostatic hazards, guidance”.

 

Definition

Volume Resistivity (Ωm)

Conductive

< 104

Dissipative

104 to < 109

Insulating

> 109

 

A material with a high volume resistivity would be considered to be insulating and therefore stop the migration of charge. With a charging mechanism present, the accumulation of potentially hazardous levels of charge may occur, producing brush discharges, of sufficient energy to ignite most flammable solvent and gas atmospheres.

An insulating material will provide an electrical barrier between conductors. If a conductor becomes electrically isolated from earth and charged, a spark discharge can be the outcome. This is an electrostatic discharge capable of igniting flammable vapour, gas AND dispersed powder atmospheres.

A material with a lower resistivity would be considered to be static dissipative or conductive and freely allow charge to migrate, therefore, providing it is adequately connected to the earth, charge accumulation will not likely occur.

There usually is a close relationship between surface and volume resistivity, so is not common for a material or product to have these parameters differing. 

The test is predominantly conducted on liners, hoses, sheet materials and laminates (BS EN 61340-2-3 “Methods of test for determining the resistance and resistivity of solid planar materials to avoid electrostatic charge accumulation”) or items of clothing / personal protective equipment (PPE) (EN 1149-1 “Protective clothing – Electrostatic properties – Part 2: Test method for measurement of the electrical resistance through a material (vertical resistance)”).

The test can be used to ensure that materials intended to promote sufficient electrical connection to avoid charge accumulation are in line with the standards guidance on resistivity boundaries. Often materials advertised as such fall short of the mark, so its always wise to get this checked before committing to a large order that may jeopardise safety, where having a dissipative material is intrinsic to ensuring low charge levels or sufficient electrical connection.

How to get your materials tested

Receive quick and accurate testing data in just a few simple steps

Contact us

Get in touch with one of our experts so we can learn more about your specific process, unit operations and electrostatic testing requirements. We'll then generate and send you a customised quote.

Prepare & ship

Prepare your material samples and ship them to our UK based accredited laboratories.

Analysis & Reports

Once we've received your samples, we'll begin testing and analysing. We'll then create and send you an actionable in-depth report detailing the potentially hazardous properties of your materials.

Post-project support

If you need support after receiving your report, our after-project support team will be on hand to assist you with any questions you may have.

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