ISO 65389 Mineral Oil Hydrocarbons Detection in Wrapping Paper

The detection of mineral oil hydrocarbons (MOHs) in wrapping paper is a critical aspect of ensuring food safety and compliance with international standards. This service, as defined by ISO 65389, focuses on quantifying the level of MOHs present in packaging materials to prevent contamination of food products. Mineral oils are used extensively in the manufacturing process of paper and cardboard due to their lubricating properties. However, their presence can lead to potential health risks when they leach into foods during storage or transportation.

The test involves a series of steps that begin with the selection of appropriate samples from production batches. Samples must be representative of the entire batch to ensure accurate results. Once collected, these samples undergo rigorous preparation which includes cutting them into uniform pieces and soaking them in a suitable solvent according to ISO guidelines. This step facilitates easier extraction of MOHs for analysis.

The analytical process typically employs gas chromatography coupled with mass spectrometry (GC-MS) or high-performance liquid chromatography (HPLC). These methods allow for precise quantification by identifying specific hydrocarbon compounds and measuring their concentration levels. The results are compared against the specified limit values outlined in ISO 65389 to determine compliance.

Understanding the implications of MOH contamination is essential for food safety regulations worldwide. Regulatory bodies like the European Commission (EC) have set limits on permissible concentrations of certain types of hydrocarbons based on health risks associated with ingestion. Compliance ensures that products meet these stringent requirements, thereby protecting consumers from potential harm.

ISO 65389 provides a robust framework for detecting MOHs in wrapping papers used within the food industry. By adhering to this standard, manufacturers can demonstrate their commitment to product safety and regulatory compliance. This not only enhances consumer trust but also helps avoid costly recalls or legal actions.

Test Parameters and Specimen Preparation
Parameter	Description
Sample Collection	Representative samples are taken from production batches.
Solvent Soaking	The samples are soaked in a solvent to facilitate MOH extraction.
Analytical Methodology	GC-MS or HPLC is used for precise quantification of hydrocarbons.

Why Choose This Test

Selecting the ISO 65389 Mineral Oil Hydrocarbons Detection in Wrapping Paper test is crucial for several reasons. Firstly, it ensures that all materials used in food packaging meet stringent international standards regarding safety and hygiene. Compliance with these regulations helps protect consumers from potential health risks associated with MOH contamination.

Ensures adherence to EC limits on hydrocarbon concentrations
Promotes consumer trust by demonstrating commitment to product quality
Avoids costly recalls or legal disputes related to non-compliance

The test also offers several advantages for businesses operating in the food and feed industry. It enhances brand reputation, reduces operational risks, and improves overall efficiency through streamlined compliance processes. Additionally, it supports continuous improvement initiatives aimed at enhancing product safety standards.

Customer Impact and Satisfaction

The implementation of ISO 65389 mineral oil hydrocarbon detection tests has significant positive impacts on customers. It leads to increased trust from consumers who know their food is safe, which translates into higher customer satisfaction levels. For businesses, meeting these standards can lead to better market positioning and competitive advantages.

Moreover, compliance with these regulations helps reduce the likelihood of product recalls or legal challenges, thus saving time and resources that would otherwise be spent on resolving issues post-launch. By ensuring consistent quality across all products, companies can maintain a strong brand image among stakeholders including investors, employees, and regulatory authorities.

Use Cases and Application Examples

Food Manufacturer: Ensuring that the wrapping paper used in packaging meets EC limits on hydrocarbon concentrations to avoid potential health risks.
R&D Engineer: Developing new formulations for food packaging materials while adhering to ISO standards.
Quality Manager: Regularly testing raw materials and finished products to ensure compliance with international regulations.

Test Parameters and Specimen Preparation
Parameter	Description
Sample Collection	Representative samples are taken from production batches.
Solvent Soaking	The samples are soaked in a solvent to facilitate MOH extraction.
Analytical Methodology	GC-MS or HPLC is used for precise quantification of hydrocarbons.

Frequently Asked Questions

What are mineral oil hydrocarbons (MOHs)?

Mineral oil hydrocarbons refer to a group of compounds derived from petroleum. They are often used in the manufacturing of paper and cardboard due to their lubricating properties.

Why is detecting MOHs important?

Detecting MOHs ensures that food packaging does not leach harmful substances into the contents, thus protecting consumer health and maintaining compliance with international standards.

What instruments are used in this test?

This test typically uses gas chromatography coupled with mass spectrometry (GC-MS) or high-performance liquid chromatography (HPLC).

How long does the testing process take?

The full process generally takes around 7–10 days from sample receipt to final report generation.

Is this test required by law?

While not legally mandated, compliance with ISO standards like 65389 is highly recommended for businesses aiming to ensure food safety and maintain a strong reputation.

Can you provide sample reports?

Yes, we can provide sample reports upon request. These will give you an idea of the format and content of our final reports.

How do I prepare my samples for testing?

We recommend soaking your samples in a suitable solvent according to ISO guidelines before sending them for analysis. Detailed instructions are provided with each sample kit.